Synopsis
 
Synopsis of model High resolution occupants & contaminant variants & control.
defined in occupant_contam_ctl.cfg generated on Mon Oct 23 09:54:58 2023.
Associated notes are in ../doc/occupant_contam.log
 
Location latitude   52.47 longitude difference  -1.60 (from local time
meridian (east +ve). Simulations year 2022 with Weekends occuring on Saturday
and Sunday.
Site exposure is typical city centre
 
Exterior surface heat transfer method:
MoWiTT  exterior hc method
 
Interior surface heat transfer method:
Alamdari and Hammond (default)
 
The Site exposure is typical city centre and the ground reflectance is 0.20.
 
Weather file: Berlin Germany 2001 IWEC 103840 in DEU_Berlin with hour-centred
solar data.
Standard annual weather: DEU_Berlin
Calculated ground temperature at depth                                                                                      
  0.5 m: 5.0030 2.0945 1.3028 1.9895 5.9163 10.314 14.452 17.448 18.323 16.915 13.525 9.2509
  1.0 m: 6.0348 3.1337 2.0988 2.4792 5.6874 9.5837 13.428 16.402 17.546 16.605 13.781 9.9882
  1.5 m: 6.9012 4.0672 2.8688 3.0077 5.6003 9.0318 12.572 15.466 16.790 16.225 13.892 10.547
  2.0 m: 7.6178 4.8928 3.5950 3.5482 5.6210 8.6298 11.866 14.640 16.074 15.806 13.893 10.955
  2.5 m: 8.2014 5.6131 4.2665 4.0806 5.7205 8.3508 11.294 13.922 15.410 15.370 13.812 11.240
  3.0 m: 8.6694 6.2337 4.8769 4.5908 5.8750 8.1709 10.837 13.305 14.804 14.936 13.673 11.425
  3.5 m: 9.0385 6.7628 5.4244 5.0693 6.0651 8.0690 10.479 12.781 14.259 14.516 13.497 11.531
  4.0 m: 9.3246 7.2092 5.9095 5.5105 6.2755 8.0271 10.203 12.339 13.775 14.119 13.298 11.577
  4.5 m: 9.5420 7.5826 6.3352 5.9116 6.4945 8.0298 9.9950 11.971 13.349 13.750 13.088 11.578
  5.0 m: 9.7035 7.8925 6.7057 6.2721 6.7132 8.0647 9.8422 11.667 12.978 13.412 12.878 11.547
  5.5 m: 9.8204 8.1478 7.0259 6.5932 6.9255 8.1216 9.7332 11.417 12.656 13.107 12.672 11.493
  6.0 m: 9.9021 8.3572 7.3011 6.8770 7.1271 8.1926 9.6586 11.213 12.379 12.832 12.475 11.424
  6.5 m: 9.9567 8.5280 7.5367 7.1264 7.3153 8.2714 9.6103 11.047 12.142 12.588 12.291 11.347
  7.0 m: 9.9908 8.6670 7.7380 7.3445 7.4889 8.3535 9.5817 10.912 11.938 12.372 12.121 11.267
  7.5 m: 10.010 8.7801 7.9096 7.5349 7.6473 8.4354 9.5677 10.803 11.765 12.182 11.966 11.186
  8.0 m: 10.018 8.8722 8.0561 7.7007 7.7908 8.5149 9.5640 10.714 11.616 12.014 11.825 11.108
  8.5 m: 10.018 8.9475 8.1815 7.8452 7.9201 8.5904 9.5673 10.642 11.489 11.867 11.697 11.034
  9.0 m: 10.014 9.0094 8.2890 7.9713 8.0360 8.6611 9.5751 10.583 11.379 11.738 11.583 10.964
  9.5 m: 10.006 9.0609 8.3818 8.0816 8.1399 8.7263 9.5856 10.535 11.285 11.624 11.480 10.900
 10.0 m: 9.9970 9.1040 8.4624 8.1785 8.2328 8.7862 9.5975 10.494 11.203 11.524 11.388 10.840
 
 
Databases associated with the model:
 standard pressure distr: pressc.db1
 standard materials     : material.db
 constructions          :  ../dbs/occupant_contam.constrdb
 standard plant comp    : plantc.db1
 standard event profiles: profiles.db2.a
 standard optical prop  : optics.db
 standard UK NCM data   : SBEM.db1
 standard predefined obj: predefined.db1
 standard mould isopleth: mould.db1
 
 ____________________________________________________________
 
The model includes ideal controls as follows:
Control description:
tempering of vent air 15-25C lower zones loose control mid-upper zones tighter
controls.
mid and upper 20-24C during office hours. Mixed sensors and actuators.
 
Zones control includes  6 functions.
 
The following day types are defined: weekdays    saturday    sunday      holiday     winter_wkd
 summer_wkd
 
Details of control loops referenced in the model:
 loop: mix_box_l
 
 The sensor for function  1 senses the temperature of the current zone.
 The actuator for function  1 is air point of the current zone
 
 Per|Start|Sensing  |Actuating  | weekdays control laws
   1  0.00 db temp   > flux      basic control: heating capacity 6000.0W. cooling capacity
6000.0W. heating setpoint 12.00C cooling setpoint 26.00C.
   2  8.00 db temp   > flux      basic control: heating capacity 6000.0W. cooling capacity
6000.0W. heating setpoint 15.00C cooling setpoint 25.00C.
   3 19.00 db temp   > flux      basic control: heating capacity 6000.0W. cooling capacity
6000.0W. heating setpoint 12.00C cooling setpoint 26.00C.
 
 Per|Start|Sensing  |Actuating  | saturday control laws
   1  0.00 db temp   > flux      basic control: heating capacity 6000.0W. cooling capacity
6000.0W. heating setpoint 12.00C cooling setpoint 26.00C.
   2  8.00 db temp   > flux      basic control: heating capacity 6000.0W. cooling capacity
6000.0W. heating setpoint 15.00C cooling setpoint 25.00C.
   3 13.00 db temp   > flux      basic control: heating capacity 6000.0W. cooling capacity
6000.0W. heating setpoint 12.00C cooling setpoint 26.00C.
 
 Per|Start|Sensing  |Actuating  | sunday control laws
   1  0.00 db temp   > flux      basic control: heating capacity 6000.0W. cooling capacity
6000.0W. heating setpoint 12.00C cooling setpoint 26.00C.
 
 Per|Start|Sensing  |Actuating  | holiday control laws
   1  0.00 db temp   > flux      basic control: heating capacity 6000.0W. cooling capacity
6000.0W. heating setpoint 12.00C cooling setpoint 26.00C.
 
 Per|Start|Sensing  |Actuating  | winter_wkd control laws
   1  0.00 db temp   > flux      basic control: heating capacity 6000.0W. cooling capacity
6000.0W. heating setpoint 12.00C cooling setpoint 26.00C.
   2  8.00 db temp   > flux      basic control: heating capacity 6000.0W. cooling capacity
6000.0W. heating setpoint 15.00C cooling setpoint 25.00C.
   3 19.00 db temp   > flux      basic control: heating capacity 6000.0W. cooling capacity
6000.0W. heating setpoint 12.00C cooling setpoint 26.00C.
 
 Per|Start|Sensing  |Actuating  | summer_wkd control laws
   1  0.00 db temp   > flux      basic control: heating capacity 6000.0W. cooling capacity
6000.0W. heating setpoint 12.00C cooling setpoint 26.00C.
   2  7.50 db temp   > flux      basic control: heating capacity 6000.0W. cooling capacity
6000.0W. heating setpoint 15.00C cooling setpoint 25.00C.
   3 19.00 db temp   > flux      basic control: heating capacity 6000.0W. cooling capacity
6000.0W. heating setpoint 12.00C cooling setpoint 26.00C.
 loop: mix_box_m
 
 The sensor for function  2 senses the temperature of the current zone.
 The actuator for function  2 is air point of the current zone
 
 Per|Start|Sensing  |Actuating  | weekdays control laws
   1  0.00 db temp   > flux      basic control: heating capacity 6000.0W. cooling capacity
6000.0W. heating setpoint 12.00C cooling setpoint 26.00C.
   2  8.00 db temp   > flux      basic control: heating capacity 6000.0W. cooling capacity
6000.0W. heating setpoint 15.00C cooling setpoint 25.00C.
   3 19.00 db temp   > flux      basic control: heating capacity 6000.0W. cooling capacity
6000.0W. heating setpoint 12.00C cooling setpoint 26.00C.
 
 Per|Start|Sensing  |Actuating  | saturday control laws
   1  0.00 db temp   > flux      basic control: heating capacity 6000.0W. cooling capacity
6000.0W. heating setpoint 12.00C cooling setpoint 26.00C.
   2  8.00 db temp   > flux      basic control: heating capacity 6000.0W. cooling capacity
6000.0W. heating setpoint 15.00C cooling setpoint 25.00C.
   3 13.00 db temp   > flux      basic control: heating capacity 6000.0W. cooling capacity
6000.0W. heating setpoint 12.00C cooling setpoint 26.00C.
 
 Per|Start|Sensing  |Actuating  | sunday control laws
   1  0.00 db temp   > flux      basic control: heating capacity 6000.0W. cooling capacity
6000.0W. heating setpoint 12.00C cooling setpoint 26.00C.
 
 Per|Start|Sensing  |Actuating  | holiday control laws
   1  0.00 db temp   > flux      basic control: heating capacity 6000.0W. cooling capacity
6000.0W. heating setpoint 12.00C cooling setpoint 26.00C.
 
 Per|Start|Sensing  |Actuating  | winter_wkd control laws
   1  0.00 db temp   > flux      basic control: heating capacity 6000.0W. cooling capacity
6000.0W. heating setpoint 12.00C cooling setpoint 26.00C.
   2  8.00 db temp   > flux      basic control: heating capacity 6000.0W. cooling capacity
6000.0W. heating setpoint 15.00C cooling setpoint 25.00C.
   3 19.00 db temp   > flux      basic control: heating capacity 6000.0W. cooling capacity
6000.0W. heating setpoint 12.00C cooling setpoint 26.00C.
 
 Per|Start|Sensing  |Actuating  | summer_wkd control laws
   1  0.00 db temp   > flux      basic control: heating capacity 6000.0W. cooling capacity
6000.0W. heating setpoint 12.00C cooling setpoint 26.00C.
   2  7.50 db temp   > flux      basic control: heating capacity 6000.0W. cooling capacity
6000.0W. heating setpoint 15.00C cooling setpoint 25.00C.
   3 19.00 db temp   > flux      basic control: heating capacity 6000.0W. cooling capacity
6000.0W. heating setpoint 12.00C cooling setpoint 26.00C.
 loop: mix_box_h
 
 The sensor for function  3 senses the temperature of the current zone.
 The actuator for function  3 is air point of the current zone
 
 Per|Start|Sensing  |Actuating  | weekdays control laws
   1  0.00 db temp   > flux      basic control: heating capacity 6000.0W. cooling capacity
6000.0W. heating setpoint 12.00C cooling setpoint 26.00C.
   2  8.00 db temp   > flux      basic control: heating capacity 6000.0W. cooling capacity
6000.0W. heating setpoint 15.00C cooling setpoint 25.00C.
   3 19.00 db temp   > flux      basic control: heating capacity 6000.0W. cooling capacity
6000.0W. heating setpoint 12.00C cooling setpoint 26.00C.
 
 Per|Start|Sensing  |Actuating  | saturday control laws
   1  0.00 db temp   > flux      basic control: heating capacity 6000.0W. cooling capacity
6000.0W. heating setpoint 12.00C cooling setpoint 26.00C.
   2  8.00 db temp   > flux      basic control: heating capacity 6000.0W. cooling capacity
6000.0W. heating setpoint 15.00C cooling setpoint 25.00C.
   3 13.00 db temp   > flux      basic control: heating capacity 6000.0W. cooling capacity
6000.0W. heating setpoint 12.00C cooling setpoint 26.00C.
 
 Per|Start|Sensing  |Actuating  | sunday control laws
   1  0.00 db temp   > flux      basic control: heating capacity 6000.0W. cooling capacity
6000.0W. heating setpoint 12.00C cooling setpoint 26.00C.
 
 Per|Start|Sensing  |Actuating  | holiday control laws
   1  0.00 db temp   > flux      basic control: heating capacity 6000.0W. cooling capacity
6000.0W. heating setpoint 12.00C cooling setpoint 26.00C.
 
 Per|Start|Sensing  |Actuating  | winter_wkd control laws
   1  0.00 db temp   > flux      basic control: heating capacity 6000.0W. cooling capacity
6000.0W. heating setpoint 12.00C cooling setpoint 26.00C.
   2  8.00 db temp   > flux      basic control: heating capacity 6000.0W. cooling capacity
6000.0W. heating setpoint 15.00C cooling setpoint 25.00C.
   3 19.00 db temp   > flux      basic control: heating capacity 6000.0W. cooling capacity
6000.0W. heating setpoint 12.00C cooling setpoint 26.00C.
 
 Per|Start|Sensing  |Actuating  | summer_wkd control laws
   1  0.00 db temp   > flux      basic control: heating capacity 6000.0W. cooling capacity
6000.0W. heating setpoint 12.00C cooling setpoint 26.00C.
   2  7.50 db temp   > flux      basic control: heating capacity 6000.0W. cooling capacity
6000.0W. heating setpoint 15.00C cooling setpoint 25.00C.
   3 19.00 db temp   > flux      basic control: heating capacity 6000.0W. cooling capacity
6000.0W. heating setpoint 12.00C cooling setpoint 26.00C.
 loop: loose_12C-26C
 
 The sensor for function  4 senses a mix of dry bulb 60% and MRT in the current zone.
 The actuator for function  4 is mixed convective 80% /radiant flux in the current zone.
 
 Per|Start|Sensing  |Actuating  | weekdays control laws
   1  0.00 db temp   > flux      basic control: heating capacity 3000.0W. cooling capacity
3000.0W. heating setpoint 12.00C cooling setpoint 26.00C.
   2  8.00 db temp   > flux      basic control: heating capacity 3000.0W. cooling capacity
3000.0W. heating setpoint 12.00C cooling setpoint 26.00C.
   3 19.00 db temp   > flux      basic control: heating capacity 3000.0W. cooling capacity
3000.0W. heating setpoint 12.00C cooling setpoint 26.00C.
 
 Per|Start|Sensing  |Actuating  | saturday control laws
   1  0.00 db temp   > flux      basic control: heating capacity 3000.0W. cooling capacity
3000.0W. heating setpoint 12.00C cooling setpoint 26.00C.
   2  8.00 db temp   > flux      basic control: heating capacity 3000.0W. cooling capacity
3000.0W. heating setpoint 12.00C cooling setpoint 26.00C.
   3 13.00 db temp   > flux      basic control: heating capacity 3000.0W. cooling capacity
3000.0W. heating setpoint 12.00C cooling setpoint 26.00C.
 
 Per|Start|Sensing  |Actuating  | sunday control laws
   1  0.00 db temp   > flux      basic control: heating capacity 3000.0W. cooling capacity
3000.0W. heating setpoint 12.00C cooling setpoint 26.00C.
 
 Per|Start|Sensing  |Actuating  | holiday control laws
   1  0.00 db temp   > flux      basic control: heating capacity 3000.0W. cooling capacity
3000.0W. heating setpoint 10.00C cooling setpoint 30.00C.
 
 Per|Start|Sensing  |Actuating  | winter_wkd control laws
   1  0.00 db temp   > flux      basic control: heating capacity 3000.0W. cooling capacity
3000.0W. heating setpoint 12.00C cooling setpoint 26.00C.
   2  8.00 db temp   > flux      basic control: heating capacity 3000.0W. cooling capacity
3000.0W. heating setpoint 12.00C cooling setpoint 26.00C.
   3 19.00 db temp   > flux      basic control: heating capacity 3000.0W. cooling capacity
3000.0W. heating setpoint 12.00C cooling setpoint 26.00C.
 
 Per|Start|Sensing  |Actuating  | summer_wkd control laws
   1  0.00 db temp   > flux      basic control: heating capacity 3000.0W. cooling capacity
3000.0W. heating setpoint 12.00C cooling setpoint 26.00C.
   2  7.50 db temp   > flux      basic control: heating capacity 3000.0W. cooling capacity
3000.0W. heating setpoint 12.00C cooling setpoint 26.00C.
   3 19.00 db temp   > flux      basic control: heating capacity 3000.0W. cooling capacity
3000.0W. heating setpoint 12.00C cooling setpoint 26.00C.
 loop: mid_20-24C
 
 The sensor for function  5 senses a mix of dry bulb 60% and MRT in the current zone.
 The actuator for function  5 is mixed convective 80% /radiant flux in the current zone.
 
 Per|Start|Sensing  |Actuating  | weekdays control laws
   1  0.00 db temp   > flux      basic control: heating capacity 3000.0W. cooling capacity
3000.0W. heating setpoint 12.00C cooling setpoint 26.00C.
   2  8.00 db temp   > flux      basic control: heating capacity 3000.0W. cooling capacity
3000.0W. heating setpoint 20.00C cooling setpoint 24.00C.
   3 19.00 db temp   > flux      basic control: heating capacity 3000.0W. cooling capacity
3000.0W. heating setpoint 12.00C cooling setpoint 26.00C.
 
 Per|Start|Sensing  |Actuating  | saturday control laws
   1  0.00 db temp   > flux      basic control: heating capacity 6000.0W. cooling capacity
6000.0W. heating setpoint 12.00C cooling setpoint 26.00C.
   2  8.00 db temp   > flux      basic control: heating capacity 6000.0W. cooling capacity
6000.0W. heating setpoint 20.00C cooling setpoint 24.00C.
   3 13.00 db temp   > flux      basic control: heating capacity 6000.0W. cooling capacity
6000.0W. heating setpoint 12.00C cooling setpoint 26.00C.
 
 Per|Start|Sensing  |Actuating  | sunday control laws
   1  0.00 db temp   > flux      basic control: heating capacity 6000.0W. cooling capacity
6000.0W. heating setpoint 12.00C cooling setpoint 26.00C.
 
 Per|Start|Sensing  |Actuating  | holiday control laws
   1  0.00 db temp   > flux      basic control: heating capacity 6000.0W. cooling capacity
6000.0W. heating setpoint 12.00C cooling setpoint 26.00C.
 
 Per|Start|Sensing  |Actuating  | winter_wkd control laws
   1  0.00 db temp   > flux      basic control: heating capacity 6000.0W. cooling capacity
6000.0W. heating setpoint 12.00C cooling setpoint 26.00C.
   2  8.00 db temp   > flux      basic control: heating capacity 6000.0W. cooling capacity
6000.0W. heating setpoint 20.00C cooling setpoint 24.00C.
   3 19.00 db temp   > flux      basic control: heating capacity 6000.0W. cooling capacity
6000.0W. heating setpoint 12.00C cooling setpoint 26.00C.
 
 Per|Start|Sensing  |Actuating  | summer_wkd control laws
   1  0.00 db temp   > flux      basic control: heating capacity 6000.0W. cooling capacity
6000.0W. heating setpoint 12.00C cooling setpoint 26.00C.
   2  7.50 db temp   > flux      basic control: heating capacity 6000.0W. cooling capacity
6000.0W. heating setpoint 20.00C cooling setpoint 24.00C.
   3 19.00 db temp   > flux      basic control: heating capacity 6000.0W. cooling capacity
6000.0W. heating setpoint 12.00C cooling setpoint 26.00C.
 loop: high_20-24C
 
 The sensor for function  6 senses a mix of dry bulb 60% and MRT in the current zone.
 The actuator for function  6 is mixed convective 80% /radiant flux in the current zone.
 
 Per|Start|Sensing  |Actuating  | weekdays control laws
   1  0.00 db temp   > flux      basic control: heating capacity 3000.0W. cooling capacity
3000.0W. heating setpoint 12.00C cooling setpoint 26.00C.
   2  8.00 db temp   > flux      basic control: heating capacity 3000.0W. cooling capacity
3000.0W. heating setpoint 20.00C cooling setpoint 24.00C.
   3 19.00 db temp   > flux      basic control: heating capacity 3000.0W. cooling capacity
3000.0W. heating setpoint 12.00C cooling setpoint 26.00C.
 
 Per|Start|Sensing  |Actuating  | saturday control laws
   1  0.00 db temp   > flux      basic control: heating capacity 6000.0W. cooling capacity
6000.0W. heating setpoint 12.00C cooling setpoint 26.00C.
   2  8.00 db temp   > flux      basic control: heating capacity 6000.0W. cooling capacity
6000.0W. heating setpoint 20.00C cooling setpoint 24.00C.
   3 13.00 db temp   > flux      basic control: heating capacity 6000.0W. cooling capacity
6000.0W. heating setpoint 12.00C cooling setpoint 26.00C.
 
 Per|Start|Sensing  |Actuating  | sunday control laws
   1  0.00 db temp   > flux      basic control: heating capacity 6000.0W. cooling capacity
6000.0W. heating setpoint 12.00C cooling setpoint 26.00C.
 
 Per|Start|Sensing  |Actuating  | holiday control laws
   1  0.00 db temp   > flux      basic control: heating capacity 6000.0W. cooling capacity
6000.0W. heating setpoint 12.00C cooling setpoint 26.00C.
 
 Per|Start|Sensing  |Actuating  | winter_wkd control laws
   1  0.00 db temp   > flux      basic control: heating capacity 6000.0W. cooling capacity
6000.0W. heating setpoint 12.00C cooling setpoint 26.00C.
   2  8.00 db temp   > flux      basic control: heating capacity 6000.0W. cooling capacity
6000.0W. heating setpoint 20.00C cooling setpoint 24.00C.
   3 19.00 db temp   > flux      basic control: heating capacity 6000.0W. cooling capacity
6000.0W. heating setpoint 12.00C cooling setpoint 26.00C.
 
 Per|Start|Sensing  |Actuating  | summer_wkd control laws
   1  0.00 db temp   > flux      basic control: heating capacity 6000.0W. cooling capacity
6000.0W. heating setpoint 12.00C cooling setpoint 26.00C.
   2  7.50 db temp   > flux      basic control: heating capacity 6000.0W. cooling capacity
6000.0W. heating setpoint 20.00C cooling setpoint 24.00C.
   3 19.00 db temp   > flux      basic control: heating capacity 6000.0W. cooling capacity
6000.0W. heating setpoint 12.00C cooling setpoint 26.00C.
 
 Zone to contol loop linkages:
 zone ( 1) office_bc    << control  4 loose_12C-26C
 zone ( 2) office_e+    << control  4 loose_12C-26C
 zone ( 3) office_ash   << control  4 loose_12C-26C
 zone ( 4) office_2node << control  4 loose_12C-26C
 zone ( 5) corridor     << control  4 loose_12C-26C
 zone ( 6) mix_op_man   << control  1 mix_box_l
 zone ( 7) off_bc_ctm   << control  5 mid_20-24C
 zone ( 8) off_e+_ctm   << control  5 mid_20-24C
 zone ( 9) off_ash_ctm  << control  5 mid_20-24C
 zone (10) off_2n_ctm   << control  5 mid_20-24C
 zone (11) corrodpr_m   << control  5 mid_20-24C
 zone (12) cl_void_bc   << control  0 no control imposed
 zone (13) mix_ctm      << control  2 mix_box_m
 zone (14) cl_void_ctm  << control  0 no control imposed
 zone (15) off_bc_ho    << control  6 high_20-24C
 zone (16) off_nat_vnt  << control  6 high_20-24C
 zone (17) off_2z_nv    << control  6 high_20-24C
 zone (18) off_2z_ho    << control  6 high_20-24C
 zone (19) corridor_h   << control  6 high_20-24C
 zone (20) mix_high     << control  3 mix_box_h
 zone (21) void_high    << control  0 no control imposed
 
 Flow control includes 14 loops.
mech vent on during office hours - nv via prop opening temp based ctm control
in bc_ctm is range based in e+_ctm is on over 0.8 g/kg  try prop
 
 The sensor for function  1 senses node (1) office_bc
 The actuator for function  1 is flow connection:   4 mix_op_man - office_bc via GrMEI01:040
 
 Per|Start|Sensing  |Actuating  | weekdays control laws
   1  0.00 dry bulb > flow       on/off setpoint 0.00 inverse action ON fraction 1.000.
   2  7.50 dry bulb > flow       on/off setpoint 0.00 direct action ON fraction 1.000.
   3 19.50 dry bulb > flow       on/off setpoint 0.00 inverse action ON fraction 1.000.
 
 Per|Start|Sensing  |Actuating  | saturday control laws
   1  0.00 dry bulb > flow       on/off setpoint 0.00 inverse action ON fraction 1.000.
   2  7.50 dry bulb > flow       on/off setpoint 0.00 direct action ON fraction 1.000.
   3 14.50 dry bulb > flow       on/off setpoint 0.00 inverse action ON fraction 1.000.
 
 Per|Start|Sensing  |Actuating  | sunday control laws
   1  0.00 dry bulb > flow       on/off setpoint 0.00 direct action ON fraction 0.100.
 
 Per|Start|Sensing  |Actuating  | holiday control laws
   1  0.00 dry bulb > flow       on/off setpoint 0.00 direct action ON fraction 0.100.
 
 Per|Start|Sensing  |Actuating  | winter_wkd control laws
   1  0.00 dry bulb > flow       on/off setpoint 0.00 inverse action ON fraction 1.000.
   2  7.50 dry bulb > flow       on/off setpoint 0.00 direct action ON fraction 1.000.
   3 19.50 dry bulb > flow       on/off setpoint 0.00 inverse action ON fraction 1.000.
 
 Per|Start|Sensing  |Actuating  | summer_wkd control laws
   1  0.00 dry bulb > flow       on/off setpoint 0.00 direct action ON fraction 0.000.
   2  7.50 dry bulb > flow       on/off setpoint 0.00 direct action ON fraction 0.000.
   3 19.50 dry bulb > flow       on/off setpoint 0.00 direct action ON fraction 0.000.
 
 The sensor for function  2 senses node (2) office_e+
 The actuator for function  2 is flow connection:   8 mix_op_man - office_e+ via GrMEI02:040
 
 Per|Start|Sensing  |Actuating  | weekdays control laws
   1  0.00 dry bulb > flow       on/off setpoint 0.00 inverse action ON fraction 1.000.
   2  7.50 dry bulb > flow       on/off setpoint 0.00 direct action ON fraction 1.000.
   3 19.50 dry bulb > flow       on/off setpoint 0.00 inverse action ON fraction 1.000.
 
 Per|Start|Sensing  |Actuating  | saturday control laws
   1  0.00 dry bulb > flow       on/off setpoint 0.00 inverse action ON fraction 1.000.
   2  7.50 dry bulb > flow       on/off setpoint 0.00 direct action ON fraction 1.000.
   3 14.50 dry bulb > flow       on/off setpoint 0.00 inverse action ON fraction 1.000.
 
 Per|Start|Sensing  |Actuating  | sunday control laws
   1  0.00 dry bulb > flow       on/off setpoint 0.00 direct action ON fraction 0.100.
 
 Per|Start|Sensing  |Actuating  | holiday control laws
   1  0.00 dry bulb > flow       on/off setpoint 0.00 direct action ON fraction 0.100.
 
 Per|Start|Sensing  |Actuating  | winter_wkd control laws
   1  0.00 dry bulb > flow       on/off setpoint 0.00 inverse action ON fraction 1.000.
   2  7.50 dry bulb > flow       on/off setpoint 0.00 direct action ON fraction 1.000.
   3 19.50 dry bulb > flow       on/off setpoint 0.00 inverse action ON fraction 1.000.
 
 Per|Start|Sensing  |Actuating  | summer_wkd control laws
   1  0.00 dry bulb > flow       on/off setpoint 0.00 direct action ON fraction 0.000.
   2  7.50 dry bulb > flow       on/off setpoint 0.00 direct action ON fraction 0.000.
   3 19.50 dry bulb > flow       on/off setpoint 0.00 direct action ON fraction 0.000.
 
 The sensor for function  3 senses node (3) office_ash
 The actuator for function  3 is flow connection:  12 mix_op_man - office_ash via GrMEI03:040
 
 Per|Start|Sensing  |Actuating  | weekdays control laws
   1  0.00 dry bulb > flow       on/off setpoint 0.00 inverse action ON fraction 1.000.
   2  7.50 dry bulb > flow       on/off setpoint 0.00 direct action ON fraction 1.000.
   3 19.50 dry bulb > flow       on/off setpoint 0.00 inverse action ON fraction 1.000.
 
 Per|Start|Sensing  |Actuating  | saturday control laws
   1  0.00 dry bulb > flow       on/off setpoint 0.00 inverse action ON fraction 1.000.
   2  7.50 dry bulb > flow       on/off setpoint 0.00 direct action ON fraction 1.000.
   3 14.50 dry bulb > flow       on/off setpoint 0.00 inverse action ON fraction 1.000.
 
 Per|Start|Sensing  |Actuating  | sunday control laws
   1  0.00 dry bulb > flow       on/off setpoint 0.00 direct action ON fraction 0.100.
 
 Per|Start|Sensing  |Actuating  | holiday control laws
   1  0.00 dry bulb > flow       on/off setpoint 0.00 direct action ON fraction 0.100.
 
 Per|Start|Sensing  |Actuating  | winter_wkd control laws
   1  0.00 dry bulb > flow       on/off setpoint 0.00 inverse action ON fraction 1.000.
   2  7.50 dry bulb > flow       on/off setpoint 0.00 direct action ON fraction 1.000.
   3 19.50 dry bulb > flow       on/off setpoint 0.00 inverse action ON fraction 1.000.
 
 Per|Start|Sensing  |Actuating  | summer_wkd control laws
   1  0.00 dry bulb > flow       on/off setpoint 0.00 direct action ON fraction 0.000.
   2  7.50 dry bulb > flow       on/off setpoint 0.00 direct action ON fraction 0.000.
   3 19.50 dry bulb > flow       on/off setpoint 0.00 direct action ON fraction 0.000.
 
 The sensor for function  4 senses node (4) office_2node
 The actuator for function  4 is flow connection:  16 mix_op_man - office_2node via GrMEI04:040
 
 Per|Start|Sensing  |Actuating  | weekdays control laws
   1  0.00 dry bulb > flow       on/off setpoint 0.00 inverse action ON fraction 1.000.
   2  7.50 dry bulb > flow       on/off setpoint 0.00 direct action ON fraction 1.000.
   3 19.50 dry bulb > flow       on/off setpoint 0.00 inverse action ON fraction 1.000.
 
 Per|Start|Sensing  |Actuating  | saturday control laws
   1  0.00 dry bulb > flow       on/off setpoint 0.00 inverse action ON fraction 1.000.
   2  7.50 dry bulb > flow       on/off setpoint 0.00 direct action ON fraction 1.000.
   3 14.50 dry bulb > flow       on/off setpoint 0.00 inverse action ON fraction 1.000.
 
 Per|Start|Sensing  |Actuating  | sunday control laws
   1  0.00 dry bulb > flow       on/off setpoint 0.00 direct action ON fraction 0.100.
 
 Per|Start|Sensing  |Actuating  | holiday control laws
   1  0.00 dry bulb > flow       on/off setpoint 0.00 direct action ON fraction 0.100.
 
 Per|Start|Sensing  |Actuating  | winter_wkd control laws
   1  0.00 dry bulb > flow       on/off setpoint 0.00 inverse action ON fraction 1.000.
   2  7.50 dry bulb > flow       on/off setpoint 0.00 direct action ON fraction 1.000.
   3 19.50 dry bulb > flow       on/off setpoint 0.00 inverse action ON fraction 1.000.
 
 Per|Start|Sensing  |Actuating  | summer_wkd control laws
   1  0.00 dry bulb > flow       on/off setpoint 0.00 direct action ON fraction 0.000.
   2  7.50 dry bulb > flow       on/off setpoint 0.00 direct action ON fraction 0.000.
   3 19.50 dry bulb > flow       on/off setpoint 0.00 direct action ON fraction 0.000.
 
 The sensor for function  5 senses node (7) off_bc_ctm, contaminant: CO2
 The actuator for function  5 is flow connection:  21 mix_ctm - off_bc_ctm via GrMEI07:040
 
 Per|Start|Sensing  |Actuating  | weekdays control laws
   1  0.00 contam conc > flow    on/off setpoint 0.00 inverse action ON fraction 1.000.
   2  7.50 contam conc > flow    range setpoints: low 0.80 mid 1.00 high 1.40 actuation ranges:
low (< low sp) 0.50 mid (>mid sp) 1.50 high (>high sp) 2.00.
   3 19.50 dry bulb > flow       on/off setpoint 0.00 inverse action ON fraction 1.000.
 
 Per|Start|Sensing  |Actuating  | saturday control laws
   1  0.00 dry bulb > flow       on/off setpoint 0.00 inverse action ON fraction 1.000.
   2  7.50 contam conc > flow    range setpoints: low 0.80 mid 1.00 high 1.40 actuation ranges:
low (< low sp) 0.50 mid (>mid sp) 1.50 high (>high sp) 2.00.
   3 14.50 dry bulb > flow       on/off setpoint 0.00 inverse action ON fraction 1.000.
 
 Per|Start|Sensing  |Actuating  | sunday control laws
   1  0.00 contam conc > flow    on/off setpoint 0.00 inverse action ON fraction 1.000.
 
 Per|Start|Sensing  |Actuating  | holiday control laws
   1  0.00 contam conc > flow    on/off setpoint 0.80 direct action ON fraction 0.100.
 
 Per|Start|Sensing  |Actuating  | winter_wkd control laws
   1  0.00 contam conc > flow    on/off setpoint 0.00 inverse action ON fraction 1.000.
   2  7.50 contam conc > flow    range setpoints: low 0.80 mid 1.00 high 1.40 actuation ranges:
low (< low sp) 0.50 mid (>mid sp) 1.50 high (>high sp) 2.00.
   3 19.50 contam conc > flow    on/off setpoint 0.80 direct action ON fraction 1.000.
 
 Per|Start|Sensing  |Actuating  | summer_wkd control laws
   1  0.00 contam conc > flow    on/off setpoint 0.00 inverse action ON fraction 1.000.
   2  7.50 contam conc > flow    range setpoints: low 0.80 mid 1.00 high 1.40 actuation ranges:
low (< low sp) 0.50 mid (>mid sp) 1.50 high (>high sp) 2.00.
   3 19.50 contam conc > flow    on/off setpoint 0.00 inverse action ON fraction 1.000.
 
 The sensor for function  6 senses node (8) off_e+_ctm, contaminant: CO2
 The actuator for function  6 is flow connection:  25 mix_ctm - off_e+_ctm via GrMEI08:040
 
 Per|Start|Sensing  |Actuating  | weekdays control laws
   1  0.00 contam conc > flow    on/off setpoint 0.00 inverse action ON fraction 1.000.
   2  7.50 contam conc > flow    on/off setpoint 0.80 direct action ON fraction 1.500.
   3 19.50 contam conc > flow    on/off setpoint 0.00 inverse action ON fraction 1.000.
 
 Per|Start|Sensing  |Actuating  | saturday control laws
   1  0.00 contam conc > flow    on/off setpoint 0.00 inverse action ON fraction 1.000.
   2  7.50 contam conc > flow    on/off setpoint 0.80 direct action ON fraction 1.500.
   3 14.50 contam conc > flow    on/off setpoint 0.00 inverse action ON fraction 1.000.
 
 Per|Start|Sensing  |Actuating  | sunday control laws
   1  0.00 contam conc > flow    on/off setpoint 0.80 direct action ON fraction 0.100.
 
 Per|Start|Sensing  |Actuating  | holiday control laws
   1  0.00 contam conc > flow    on/off setpoint 0.80 direct action ON fraction 0.100.
 
 Per|Start|Sensing  |Actuating  | winter_wkd control laws
   1  0.00 contam conc > flow    on/off setpoint 0.00 inverse action ON fraction 1.000.
   2  7.50 contam conc > flow    on/off setpoint 0.80 direct action ON fraction 1.500.
   3 19.50 contam conc > flow    on/off setpoint 0.00 inverse action ON fraction 1.000.
 
 Per|Start|Sensing  |Actuating  | summer_wkd control laws
   1  0.00 contam conc > flow    on/off setpoint 0.00 inverse action ON fraction 1.000.
   2  7.50 contam conc > flow    on/off setpoint 0.80 direct action ON fraction 1.500.
   3 19.50 contam conc > flow    on/off setpoint 0.00 inverse action ON fraction 1.000.
 
 The sensor for function  7 senses node (9) off_ash_ctm, contaminant: CO2
 The actuator for function  7 is flow connection:  29 mix_ctm - off_ash_ctm via GrMEI09:040
 
 Per|Start|Sensing  |Actuating  | weekdays control laws
   1  0.00 contam conc > flow    on/off setpoint 0.00 inverse action ON fraction 1.000.
   2  7.50 contam conc > flow    proportional + hysteresis: signal lower limit 0.60 valve lower
limit (%) 1.0 signal upper limit 2.00 valve upper limit (%)400.0 dS 0.20.
   3 19.50 contam conc > flow    on/off setpoint 0.00 inverse action ON fraction 1.000.
 
 Per|Start|Sensing  |Actuating  | saturday control laws
   1  0.00 contam conc > flow    on/off setpoint 0.00 inverse action ON fraction 1.000.
   2  7.50 contam conc > flow    proportional + hysteresis: signal lower limit 0.60 valve lower
limit (%) 1.0 signal upper limit 2.00 valve upper limit (%)400.0 dS 0.20.
   3 14.50 contam conc > flow    on/off setpoint 0.00 inverse action ON fraction 1.000.
 
 Per|Start|Sensing  |Actuating  | sunday control laws
   1  0.00 contam conc > flow    proportional + hysteresis: signal lower limit 0.60 valve lower
limit (%) 1.0 signal upper limit 2.00 valve upper limit (%)400.0 dS 0.20.
 
 Per|Start|Sensing  |Actuating  | holiday control laws
   1  0.00 dry bulb > flow       on/off setpoint 0.00 direct action ON fraction 0.100.
 
 Per|Start|Sensing  |Actuating  | winter_wkd control laws
   1  0.00 contam conc > flow    on/off setpoint 0.00 inverse action ON fraction 1.000.
   2  7.50 contam conc > flow    proportional + hysteresis: signal lower limit 0.60 valve lower
limit (%) 1.0 signal upper limit 2.00 valve upper limit (%)400.0 dS 0.20.
   3 19.50 contam conc > flow    on/off setpoint 0.00 inverse action ON fraction 1.000.
 
 Per|Start|Sensing  |Actuating  | summer_wkd control laws
   1  0.00 contam conc > flow    on/off setpoint 0.00 inverse action ON fraction 1.000.
   2  7.50 contam conc > flow    proportional + hysteresis: signal lower limit 0.60 valve lower
limit (%) 1.0 signal upper limit 2.00 valve upper limit (%)400.0 dS 0.20.
   3 19.50 contam conc > flow    on/off setpoint 0.00 inverse action ON fraction 1.000.
 
 The sensor for function  8 senses node (10) off_2n_ctm
 The actuator for function  8 is flow connection:  33 mix_ctm - off_2n_ctm via GrMEI10:040
 
 Per|Start|Sensing  |Actuating  | weekdays control laws
   1  0.00 contam conc > flow    on/off setpoint 0.00 inverse action ON fraction 1.000.
   2  7.50 contam conc > flow    proportional + hysteresis: signal lower limit 0.60 valve lower
limit (%) 1.0 signal upper limit 2.00 valve upper limit (%)400.0 dS 0.20.
   3 19.50 contam conc > flow    on/off setpoint 0.00 inverse action ON fraction 1.000.
 
 Per|Start|Sensing  |Actuating  | saturday control laws
   1  0.00 contam conc > flow    on/off setpoint 0.00 inverse action ON fraction 1.000.
   2  7.50 contam conc > flow    proportional + hysteresis: signal lower limit 0.60 valve lower
limit (%) 1.0 signal upper limit 2.00 valve upper limit (%)400.0 dS 0.20.
   3 14.50 contam conc > flow    on/off setpoint 0.00 inverse action ON fraction 1.000.
 
 Per|Start|Sensing  |Actuating  | sunday control laws
   1  0.00 contam conc > flow    proportional + hysteresis: signal lower limit 0.60 valve lower
limit (%) 1.0 signal upper limit 2.00 valve upper limit (%)400.0 dS 0.20.
 
 Per|Start|Sensing  |Actuating  | holiday control laws
   1  0.00 contam conc > flow    on/off setpoint 0.00 inverse action ON fraction 1.000.
 
 Per|Start|Sensing  |Actuating  | winter_wkd control laws
   1  0.00 contam conc > flow    on/off setpoint 0.00 inverse action ON fraction 1.000.
   2  7.50 contam conc > flow    proportional + hysteresis: signal lower limit 0.60 valve lower
limit (%) 1.0 signal upper limit 2.00 valve upper limit (%)400.0 dS 0.20.
   3 19.50 contam conc > flow    on/off setpoint 0.00 inverse action ON fraction 1.000.
 
 Per|Start|Sensing  |Actuating  | summer_wkd control laws
   1  0.00 contam conc > flow    on/off setpoint 0.00 inverse action ON fraction 1.000.
   2  7.50 contam conc > flow    proportional + hysteresis: signal lower limit 0.60 valve lower
limit (%) 1.0 signal upper limit 2.00 valve upper limit (%)400.0 dS 0.20.
   3 19.50 contam conc > flow    on/off setpoint 0.00 inverse action ON fraction 1.000.
 
 The sensor for function  9 senses node (15) off_bc_ho
 The actuator for function  9 is flow connection:  40 mix_high - off_bc_ho via GrMEI15:040
 
 Per|Start|Sensing  |Actuating  | weekdays control laws
   1  0.00 contam conc > flow    on/off setpoint 0.00 inverse action ON fraction 1.000.
   2  7.50 contam conc > flow    range setpoints: low 0.80 mid 1.00 high 1.40 actuation ranges:
low (< low sp) 0.50 mid (>mid sp) 1.50 high (>high sp) 2.00.
   3 19.50 dry bulb > flow       on/off setpoint 0.00 inverse action ON fraction 1.000.
 
 Per|Start|Sensing  |Actuating  | saturday control laws
   1  0.00 dry bulb > flow       on/off setpoint 0.00 inverse action ON fraction 1.000.
   2  7.50 contam conc > flow    range setpoints: low 0.80 mid 1.00 high 1.40 actuation ranges:
low (< low sp) 0.50 mid (>mid sp) 1.50 high (>high sp) 2.00.
   3 14.50 dry bulb > flow       on/off setpoint 0.00 inverse action ON fraction 1.000.
 
 Per|Start|Sensing  |Actuating  | sunday control laws
   1  0.00 contam conc > flow    on/off setpoint 0.00 inverse action ON fraction 1.000.
 
 Per|Start|Sensing  |Actuating  | holiday control laws
   1  0.00 contam conc > flow    on/off setpoint 0.80 direct action ON fraction 0.100.
 
 Per|Start|Sensing  |Actuating  | winter_wkd control laws
   1  0.00 contam conc > flow    on/off setpoint 0.00 inverse action ON fraction 1.000.
   2  7.50 contam conc > flow    range setpoints: low 0.80 mid 1.00 high 1.40 actuation ranges:
low (< low sp) 0.50 mid (>mid sp) 1.50 high (>high sp) 2.00.
   3 19.50 contam conc > flow    on/off setpoint 0.80 direct action ON fraction 1.000.
 
 Per|Start|Sensing  |Actuating  | summer_wkd control laws
   1  0.00 contam conc > flow    on/off setpoint 0.00 inverse action ON fraction 1.000.
   2  7.50 contam conc > flow    range setpoints: low 0.80 mid 1.00 high 1.40 actuation ranges:
low (< low sp) 0.50 mid (>mid sp) 1.50 high (>high sp) 2.00.
   3 19.50 contam conc > flow    on/off setpoint 0.00 inverse action ON fraction 1.000.
 
 The sensor for function 10 senses node (18) off_2z_ho
 The actuator for function 10 is flow connection:  52 mix_high - off_2z_ho via GrMEI18:040
 
 Per|Start|Sensing  |Actuating  | weekdays control laws
   1  0.00 contam conc > flow    on/off setpoint 0.00 inverse action ON fraction 1.000.
   2  7.50 contam conc > flow    proportional + hysteresis: signal lower limit 0.60 valve lower
limit (%) 1.0 signal upper limit 2.00 valve upper limit (%)400.0 dS 0.20.
   3 19.50 contam conc > flow    on/off setpoint 0.00 inverse action ON fraction 1.000.
 
 Per|Start|Sensing  |Actuating  | saturday control laws
   1  0.00 contam conc > flow    on/off setpoint 0.00 inverse action ON fraction 1.000.
   2  7.50 contam conc > flow    proportional + hysteresis: signal lower limit 0.60 valve lower
limit (%) 1.0 signal upper limit 2.00 valve upper limit (%)400.0 dS 0.20.
   3 14.50 contam conc > flow    on/off setpoint 0.00 inverse action ON fraction 1.000.
 
 Per|Start|Sensing  |Actuating  | sunday control laws
   1  0.00 contam conc > flow    proportional + hysteresis: signal lower limit 0.60 valve lower
limit (%) 1.0 signal upper limit 2.00 valve upper limit (%)400.0 dS 0.20.
 
 Per|Start|Sensing  |Actuating  | holiday control laws
   1  0.00 contam conc > flow    on/off setpoint 0.00 inverse action ON fraction 1.000.
 
 Per|Start|Sensing  |Actuating  | winter_wkd control laws
   1  0.00 contam conc > flow    on/off setpoint 0.00 inverse action ON fraction 1.000.
   2  7.50 contam conc > flow    proportional + hysteresis: signal lower limit 0.60 valve lower
limit (%) 1.0 signal upper limit 2.00 valve upper limit (%)400.0 dS 0.20.
   3 19.50 contam conc > flow    on/off setpoint 0.00 inverse action ON fraction 1.000.
 
 Per|Start|Sensing  |Actuating  | summer_wkd control laws
   1  0.00 contam conc > flow    on/off setpoint 0.00 inverse action ON fraction 1.000.
   2  7.50 contam conc > flow    proportional + hysteresis: signal lower limit 0.60 valve lower
limit (%) 1.0 signal upper limit 2.00 valve upper limit (%)400.0 dS 0.20.
   3 19.50 contam conc > flow    on/off setpoint 0.00 inverse action ON fraction 1.000.
 
 The sensor for function 11 senses node (16) off_nat_vnt
 The actuator for function 11 is flow connection:  58 BW-Cr16:009 - off_nat_vnt via NV_ho_upper
 
 Per|Start|Sensing  |Actuating  | weekdays control laws
   1  0.00 dry bulb > flow       on/off setpoint 0.00 inverse action ON fraction 1.000.
   2  7.50 dry bulb > flow       proportional + hysteresis: signal lower limit 21.00 valve lower
limit (%) 2.0 signal upper limit 28.00 valve upper limit (%) 40.0 dS 0.50.
   3 19.50 dry bulb > flow       on/off setpoint 0.00 inverse action ON fraction 1.000.
 
 Per|Start|Sensing  |Actuating  | saturday control laws
   1  0.00 dry bulb > flow       on/off setpoint 0.00 inverse action ON fraction 1.000.
   2  7.50 dry bulb > flow       proportional + hysteresis: signal lower limit 21.00 valve lower
limit (%) 2.0 signal upper limit 28.00 valve upper limit (%) 40.0 dS 0.50.
   3 14.50 dry bulb > flow       on/off setpoint 0.00 inverse action ON fraction 1.000.
 
 Per|Start|Sensing  |Actuating  | sunday control laws
   1  0.00 dry bulb > flow       on/off setpoint 0.00 direct action ON fraction 0.100.
 
 Per|Start|Sensing  |Actuating  | holiday control laws
   1  0.00 dry bulb > flow       on/off setpoint 0.00 direct action ON fraction 0.100.
 
 Per|Start|Sensing  |Actuating  | winter_wkd control laws
   1  0.00 dry bulb > flow       on/off setpoint 0.00 inverse action ON fraction 1.000.
   2  7.50 dry bulb > flow       proportional + hysteresis: signal lower limit 21.00 valve lower
limit (%) 2.0 signal upper limit 28.00 valve upper limit (%) 40.0 dS 0.50.
   3 19.50 dry bulb > flow       on/off setpoint 0.00 inverse action ON fraction 1.000.
 
 Per|Start|Sensing  |Actuating  | summer_wkd control laws
   1  0.00 dry bulb > flow       on/off setpoint 0.00 inverse action ON fraction 1.000.
   2  7.50 dry bulb > flow       proportional + hysteresis: signal lower limit 21.00 valve lower
limit (%) 2.0 signal upper limit 28.00 valve upper limit (%) 40.0 dS 0.50.
   3 19.50 dry bulb > flow       on/off setpoint 0.00 inverse action ON fraction 1.000.
 
 The sensor for function 12 senses node (16) off_nat_vnt
 The actuator for function 12 is flow connection:  59 BW-Cr16:009 - off_nat_vnt via NV_ho_low
 
 Per|Start|Sensing  |Actuating  | weekdays control laws
   1  0.00 dry bulb > flow       on/off setpoint 0.00 inverse action ON fraction 1.000.
   2  7.50 dry bulb > flow       proportional + hysteresis: signal lower limit 21.00 valve lower
limit (%) 2.0 signal upper limit 28.00 valve upper limit (%) 40.0 dS 0.50.
   3 19.50 dry bulb > flow       on/off setpoint 0.00 inverse action ON fraction 1.000.
 
 Per|Start|Sensing  |Actuating  | saturday control laws
   1  0.00 dry bulb > flow       on/off setpoint 0.00 inverse action ON fraction 1.000.
   2  7.50 dry bulb > flow       proportional + hysteresis: signal lower limit 21.00 valve lower
limit (%) 2.0 signal upper limit 28.00 valve upper limit (%) 40.0 dS 0.50.
   3 14.50 dry bulb > flow       on/off setpoint 0.00 inverse action ON fraction 1.000.
 
 Per|Start|Sensing  |Actuating  | sunday control laws
   1  0.00 dry bulb > flow       on/off setpoint 0.00 direct action ON fraction 0.100.
 
 Per|Start|Sensing  |Actuating  | holiday control laws
   1  0.00 dry bulb > flow       on/off setpoint 0.00 direct action ON fraction 0.100.
 
 Per|Start|Sensing  |Actuating  | winter_wkd control laws
   1  0.00 dry bulb > flow       on/off setpoint 0.00 inverse action ON fraction 1.000.
   2  7.50 dry bulb > flow       proportional + hysteresis: signal lower limit 21.00 valve lower
limit (%) 2.0 signal upper limit 28.00 valve upper limit (%) 40.0 dS 0.50.
   3 19.50 dry bulb > flow       on/off setpoint 0.00 inverse action ON fraction 1.000.
 
 Per|Start|Sensing  |Actuating  | summer_wkd control laws
   1  0.00 dry bulb > flow       on/off setpoint 0.00 inverse action ON fraction 1.000.
   2  7.50 dry bulb > flow       proportional + hysteresis: signal lower limit 21.00 valve lower
limit (%) 2.0 signal upper limit 28.00 valve upper limit (%) 40.0 dS 0.50.
   3 19.50 dry bulb > flow       on/off setpoint 0.00 inverse action ON fraction 1.000.
 
 The sensor for function 13 senses node (17) off_2z_nv
 The actuator for function 13 is flow connection:  60 BW-Cr17:009 - off_2z_nv via NV_lo_high
 
 Per|Start|Sensing  |Actuating  | weekdays control laws
   1  0.00 dry bulb > flow       on/off setpoint 0.00 inverse action ON fraction 1.000.
   2  7.50 dry bulb > flow       proportional + hysteresis: signal lower limit 21.00 valve lower
limit (%) 2.0 signal upper limit 28.00 valve upper limit (%) 40.0 dS 0.50.
   3 19.50 dry bulb > flow       on/off setpoint 0.00 inverse action ON fraction 1.000.
 
 Per|Start|Sensing  |Actuating  | saturday control laws
   1  0.00 dry bulb > flow       on/off setpoint 0.00 inverse action ON fraction 1.000.
   2  7.50 dry bulb > flow       proportional + hysteresis: signal lower limit 21.00 valve lower
limit (%) 2.0 signal upper limit 28.00 valve upper limit (%) 40.0 dS 0.50.
   3 14.50 dry bulb > flow       on/off setpoint 0.00 inverse action ON fraction 1.000.
 
 Per|Start|Sensing  |Actuating  | sunday control laws
   1  0.00 dry bulb > flow       on/off setpoint 0.00 direct action ON fraction 0.100.
 
 Per|Start|Sensing  |Actuating  | holiday control laws
   1  0.00 dry bulb > flow       on/off setpoint 0.00 direct action ON fraction 0.100.
 
 Per|Start|Sensing  |Actuating  | winter_wkd control laws
   1  0.00 dry bulb > flow       on/off setpoint 0.00 inverse action ON fraction 1.000.
   2  7.50 dry bulb > flow       proportional + hysteresis: signal lower limit 21.00 valve lower
limit (%) 2.0 signal upper limit 28.00 valve upper limit (%) 40.0 dS 0.50.
   3 19.50 dry bulb > flow       on/off setpoint 0.00 inverse action ON fraction 1.000.
 
 Per|Start|Sensing  |Actuating  | summer_wkd control laws
   1  0.00 dry bulb > flow       on/off setpoint 0.00 inverse action ON fraction 1.000.
   2  7.50 dry bulb > flow       proportional + hysteresis: signal lower limit 21.00 valve lower
limit (%) 2.0 signal upper limit 28.00 valve upper limit (%) 40.0 dS 0.50.
   3 19.50 dry bulb > flow       on/off setpoint 0.00 inverse action ON fraction 1.000.
 
 The sensor for function 14 senses node (17) off_2z_nv
 The actuator for function 14 is flow connection:  61 BW-Cr17:009 - off_2z_nv via NV_lo_low
 
 Per|Start|Sensing  |Actuating  | weekdays control laws
   1  0.00 dry bulb > flow       on/off setpoint 0.00 inverse action ON fraction 1.000.
   2  7.50 dry bulb > flow       proportional + hysteresis: signal lower limit 21.00 valve lower
limit (%) 2.0 signal upper limit 28.00 valve upper limit (%) 40.0 dS 0.50.
   3 19.50 dry bulb > flow       on/off setpoint 0.00 inverse action ON fraction 1.000.
 
 Per|Start|Sensing  |Actuating  | saturday control laws
   1  0.00 dry bulb > flow       on/off setpoint 0.00 inverse action ON fraction 1.000.
   2  7.50 dry bulb > flow       proportional + hysteresis: signal lower limit 21.00 valve lower
limit (%) 2.0 signal upper limit 28.00 valve upper limit (%) 40.0 dS 0.50.
   3 14.50 dry bulb > flow       on/off setpoint 0.00 inverse action ON fraction 1.000.
 
 Per|Start|Sensing  |Actuating  | sunday control laws
   1  0.00 dry bulb > flow       on/off setpoint 0.00 direct action ON fraction 0.100.
 
 Per|Start|Sensing  |Actuating  | holiday control laws
   1  0.00 dry bulb > flow       on/off setpoint 0.00 direct action ON fraction 0.100.
 
 Per|Start|Sensing  |Actuating  | winter_wkd control laws
   1  0.00 dry bulb > flow       on/off setpoint 0.00 inverse action ON fraction 1.000.
   2  7.50 dry bulb > flow       proportional + hysteresis: signal lower limit 21.00 valve lower
limit (%) 2.0 signal upper limit 28.00 valve upper limit (%) 40.0 dS 0.50.
   3 19.50 dry bulb > flow       on/off setpoint 0.00 inverse action ON fraction 1.000.
 
 Per|Start|Sensing  |Actuating  | summer_wkd control laws
   1  0.00 dry bulb > flow       on/off setpoint 0.00 inverse action ON fraction 1.000.
   2  7.50 dry bulb > flow       proportional + hysteresis: signal lower limit 21.00 valve lower
limit (%) 2.0 signal upper limit 28.00 valve upper limit (%) 40.0 dS 0.50.
   3 19.50 dry bulb > flow       on/off setpoint 0.00 inverse action ON fraction 1.000.
 ____________________________________________________________
 
The model includes an air flow network.
 
 Flow network description.
 
  49 nodes,  61 components,  61 connections;     wind reduction =  0.600
   # Node       Fluid   Node Type              X Y Z Position      Temperature    Data_1        Data_2
   1 office_bc    air   internal & unknown     1.500   2.250   1.500   20.000     (-)     1.000  vol   40.312
   2 office_e+    air   internal & unknown     4.600   2.250   1.500   20.000     (-)     1.000  vol   40.312
   3 office_ash   air   internal & unknown     7.700   2.250   1.500   20.000     (-)     1.000  vol   40.312
   4 office_2node air   internal & unknown    10.800   2.250   1.500   20.000     (-)     1.000  vol   40.312
   5 corridor     air   internal & unknown     6.150   5.050   1.500   20.000     (-)     1.000  vol   36.901
   6 mix_op_man   air   internal & unknown     7.500   3.300   3.250   20.000     (-)     1.000  vol    0.180
   7 off_bc_ctm   air   internal & unknown     1.500   2.250   5.100   20.000     (-)     1.000  vol   40.312
   8 off_e+_ctm   air   internal & unknown     4.600   2.250   5.100   20.000     (-)     1.000  vol   40.312
   9 off_ash_ctm  air   internal & unknown     7.700   2.250   5.100   20.000     (-)     1.000  vol   40.312
  10 off_2n_ctm   air   internal & unknown    10.800   2.250   5.100   20.000     (-)     1.000  vol   40.312
  11 corrodpr_m   air   internal & unknown     6.150   5.050   5.100   20.000     (-)     1.000  vol   36.901
  12 cl_void_bc   air   internal & unknown     6.150   2.775   3.300   20.000     (-)     1.000  vol   40.780
  13 mix_ctm      air   internal & unknown     7.500   3.300   6.850   20.000     (-)     1.000  vol    0.180
  14 cl_void_ctm  air   internal & unknown     6.150   2.775   6.900   20.000     (-)     1.000  vol   40.780
  15 off_bc_ho    air   internal & unknown     1.500   2.250   8.700   20.000     (-)     1.000  vol   40.312
  16 off_nat_vnt  air   internal & unknown     4.600   2.250   8.700   20.000     (-)     1.000  vol   40.312
  17 off_2z_nv    air   internal & unknown     7.700   2.250   8.700   20.000     (-)     1.000  vol   40.312
  18 off_2z_ho    air   internal & unknown    10.800   2.250   8.700   20.000     (-)     1.000  vol   40.312
  19 corridor_h   air   internal & unknown     6.150   5.050   8.700   20.000     (-)     1.000  vol   36.901
  20 mix_high     air   internal & unknown     7.500   3.300  10.450   20.000     (-)     1.000  vol    0.180
  21 void_high    air   internal & unknown     6.150   2.775  10.500   20.000     (-)     1.000  vol   40.780
  22 ambient      air   boundary & wind ind   -1.000  -1.000   1.000   0.0000     coef    1.000  azim 180.000
  23 BF-Cr01:008  air   boundary & wind ind    1.210  -0.900   1.750   0.0000     coef    1.000  azim 180.000
  24 BW-Cr01:009  air   boundary & wind ind    1.500  -0.900   1.950   0.0000     coef    1.000  azim 180.000
  25 BF-Cr02:008  air   boundary & wind ind    4.310  -0.900   1.750   0.0000     coef    1.000  azim 180.000
  26 BW-Cr02:009  air   boundary & wind ind    4.600  -0.900   1.950   0.0000     coef    1.000  azim 180.000
  27 BF-Cr03:008  air   boundary & wind ind    7.410  -0.900   1.750   0.0000     coef    1.000  azim 180.000
  28 BW-Cr03:009  air   boundary & wind ind    7.700  -0.900   1.950   0.0000     coef    1.000  azim 180.000
  29 BF-Cr04:008  air   boundary & wind ind   10.510  -0.900   1.750   0.0000     coef    1.000  azim 180.000
  30 BW-Cr04:009  air   boundary & wind ind   10.800  -0.900   1.950   0.0000     coef    1.000  azim 180.000
  31 BF-Cr07:008  air   boundary & wind ind    1.210  -0.900   5.350   0.0000     coef    1.000  azim 180.000
  32 BW-Cr07:009  air   boundary & wind ind    1.500  -0.900   5.550   0.0000     coef    1.000  azim 180.000
  33 BF-Cr08:008  air   boundary & wind ind    4.310  -0.900   5.350   0.0000     coef    1.000  azim 180.000
  34 BW-Cr08:009  air   boundary & wind ind    4.600  -0.900   5.550   0.0000     coef    1.000  azim 180.000
  35 BF-Cr09:008  air   boundary & wind ind    7.410  -0.900   5.350   0.0000     coef    1.000  azim 180.000
  36 BW-Cr09:009  air   boundary & wind ind    7.700  -0.900   5.550   0.0000     coef    1.000  azim 180.000
  37 BF-Cr10:008  air   boundary & wind ind   10.510  -0.900   5.350   0.0000     coef    1.000  azim 180.000
  38 BW-Cr10:009  air   boundary & wind ind   10.800  -0.900   5.550   0.0000     coef    1.000  azim 180.000
  39 BW-EX12:034  air   boundary & wind ind   -0.900   5.200   3.250   0.0000     coef    1.000  azim 270.000
  40 BW-EX14:034  air   boundary & wind ind   -0.900   5.200   6.850   0.0000     coef    1.000  azim 270.000
  41 BF-Cr15:008  air   boundary & wind ind    1.210  -0.900   8.950   0.0000     coef    1.000  azim 180.000
  42 BW-Cr15:009  air   boundary & wind ind    1.500  -0.900   9.150   0.0000     coef    1.000  azim 180.000
  43 BF-Cr16:008  air   boundary & wind ind    4.393  -0.900   9.007   0.0000     coef    1.000  azim 180.000
  44 BW-Cr16:009  air   boundary & wind ind    4.600  -0.900   9.150   0.0000     coef    1.000  azim 180.000
  45 BF-Cr17:008  air   boundary & wind ind    7.493  -0.900   9.007   0.0000     coef    1.000  azim 180.000
  46 BW-Cr17:009  air   boundary & wind ind    7.700  -0.900   9.150   0.0000     coef    1.000  azim 180.000
  47 BF-Cr18:008  air   boundary & wind ind   10.510  -0.900   8.950   0.0000     coef    1.000  azim 180.000
  48 BW-Cr18:009  air   boundary & wind ind   10.800  -0.900   9.150   0.0000     coef    1.000  azim 180.000
  49 BW-EX21:034  air   boundary & wind ind   -0.900   5.200  10.450   0.0000     coef    1.000  azim 270.000
 
 Component    Type Fluid C+ L+ Association @X @Y @Z Description
 
 DoUcz01:003    40 air    3  0 office_bc:door   0.8   4.5   0.0 Common orifice flow
 With opening area (m^2)  0.016 discharge factor (-) 0.700
 
 FrCrz01:008   120 air    3  0 office_bc:frame   1.2   0.0   1.8 Specific air flow crack
 With crack width(m)  0.0020 crack length(m) 19.883
 
 WiCrz01:009   120 air    3  0 office_bc:glazing   1.5   0.0   2.0 Specific air flow crack
 With crack width(m)  0.0020 crack length(m)  9.400
 
 GrMEI01:040    30 air    2  0 office_bc:grill   1.5   0.6   3.0 Constant volume flow rate
 With flow rate (m^3/s)  0.83333E-02
 
 DoUcz02:003    40 air    3  0 office_e+:door   3.9   4.5   0.0 Common orifice flow
 With opening area (m^2)  0.016 discharge factor (-) 0.700
 
 FrCrz02:008   120 air    3  0 office_e+:frame   4.3   0.0   1.8 Specific air flow crack
 With crack width(m)  0.0020 crack length(m) 19.883
 
 WiCrz02:009   120 air    3  0 office_e+:glazing   4.6   0.0   2.0 Specific air flow crack
 With crack width(m)  0.0020 crack length(m)  9.400
 
 GrMEI02:040    30 air    2  0 office_e+:grill   4.7   0.6   3.0 Constant volume flow rate
 With flow rate (m^3/s)  0.83333E-02
 
 DoUcz03:003    40 air    3  0 office_ash:door   7.0   4.5   0.0 Common orifice flow
 With opening area (m^2)  0.016 discharge factor (-) 0.700
 
 FrCrz03:008   120 air    3  0 office_ash:frame   7.4   0.0   1.8 Specific air flow crack
 With crack width(m)  0.0020 crack length(m) 19.883
 
 WiCrz03:009   120 air    3  0 office_ash:glazing   7.7   0.0   2.0 Specific air flow crack
 With crack width(m)  0.0020 crack length(m)  9.400
 
 GrMEI03:040    30 air    2  0 office_ash:grill_ash   7.7   0.6   3.0 Constant volume flow rate
 With flow rate (m^3/s)  0.83333E-02
 
 DoUcz04:003    40 air    3  0 office_2node:door  10.1   4.5   0.0 Common orifice flow
 With opening area (m^2)  0.016 discharge factor (-) 0.700
 
 FrCrz04:008   120 air    3  0 office_2node:frame  10.5   0.0   1.8 Specific air flow crack
 With crack width(m)  0.0020 crack length(m) 19.883
 
 WiCrz04:009   120 air    3  0 office_2node:glazing  10.8   0.0   2.0 Specific air flow crack
 With crack width(m)  0.0020 crack length(m)  9.400
 
 GrMEI04:040    30 air    2  0 office_2node:grill_2n  10.8   0.6   3.0 Constant volume flow rate
 With flow rate (m^3/s)  0.83333E-02
 
 GrOpz05:025    40 air    3  0 corridor:cor_grill   2.7   5.1   3.0 Common orifice flow
 With opening area (m^2)  0.160 discharge factor (-) 0.500
 
 DoUcz07:003    40 air    3  0 off_bc_ctm:door   0.8   4.5   3.6 Common orifice flow
 With opening area (m^2)  0.016 discharge factor (-) 0.700
 
 FrCrz07:008   120 air    3  0 off_bc_ctm:frame   1.2   0.0   5.3 Specific air flow crack
 With crack width(m)  0.0020 crack length(m) 19.883
 
 WiCrz07:009   120 air    3  0 off_bc_ctm:glazing   1.5   0.0   5.6 Specific air flow crack
 With crack width(m)  0.0020 crack length(m)  9.400
 
 GrMEI07:040    30 air    2  0 off_bc_ctm:grill   1.5   0.6   6.6 Constant volume flow rate
 With flow rate (m^3/s)  0.83333E-02
 
 DoUcz08:003    40 air    3  0 off_e+_ctm:door   3.9   4.5   3.6 Common orifice flow
 With opening area (m^2)  0.016 discharge factor (-) 0.700
 
 FrCrz08:008   120 air    3  0 off_e+_ctm:frame   4.3   0.0   5.3 Specific air flow crack
 With crack width(m)  0.0020 crack length(m) 19.883
 
 WiCrz08:009   120 air    3  0 off_e+_ctm:glazing   4.6   0.0   5.6 Specific air flow crack
 With crack width(m)  0.0020 crack length(m)  9.400
 
 GrMEI08:040    30 air    2  0 off_e+_ctm:grill   4.7   0.6   6.6 Constant volume flow rate
 With flow rate (m^3/s)  0.83333E-02
 
 DoUcz09:003    40 air    3  0 off_ash_ctm:door   7.0   4.5   3.6 Common orifice flow
 With opening area (m^2)  0.016 discharge factor (-) 0.700
 
 FrCrz09:008   120 air    3  0 off_ash_ctm:frame   7.4   0.0   5.3 Specific air flow crack
 With crack width(m)  0.0020 crack length(m) 19.883
 
 WiCrz09:009   120 air    3  0 off_ash_ctm:glazing   7.7   0.0   5.6 Specific air flow crack
 With crack width(m)  0.0020 crack length(m)  9.400
 
 GrMEI09:040    30 air    2  0 off_ash_ctm:grill_ash   7.7   0.6   6.6 Constant volume flow rate
 With flow rate (m^3/s)  0.83333E-02
 
 DoUcz10:003    40 air    3  0 off_2n_ctm:door  10.1   4.5   3.6 Common orifice flow
 With opening area (m^2)  0.016 discharge factor (-) 0.700
 
 FrCrz10:008   120 air    3  0 off_2n_ctm:frame  10.5   0.0   5.3 Specific air flow crack
 With crack width(m)  0.0020 crack length(m) 19.883
 
 WiCrz10:009   120 air    3  0 off_2n_ctm:glazing  10.8   0.0   5.6 Specific air flow crack
 With crack width(m)  0.0020 crack length(m)  9.400
 
 GrMEI10:040    30 air    2  0 off_2n_ctm:grill_2n  10.8   0.6   6.6 Constant volume flow rate
 With flow rate (m^3/s)  0.83333E-02
 
 GrOpz11:025    40 air    3  0 corrodpr_m:cor_grill   2.7   5.1   6.6 Common orifice flow
 With opening area (m^2)  0.160 discharge factor (-) 0.500
 
 GrEXz12:034   110 air    2  0 cl_void_bc:exh_grill   0.0   5.2   3.2 Specific air flow opening
 With opening area(m)  0.040
 
 GrEXz14:034   110 air    2  0 cl_void_ctm:extr_grill   0.0   5.2   6.8 Specific air flow opening
 With opening area(m)  0.040
 
 DoUcz15:003    40 air    3  0 off_bc_ho:door   0.8   4.5   7.2 Common orifice flow
 With opening area (m^2)  0.016 discharge factor (-) 0.700
 
 FrCrz15:008   120 air    3  0 off_bc_ho:frame   1.2   0.0   8.9 Specific air flow crack
 With crack width(m)  0.0020 crack length(m) 19.883
 
 WiCrz15:009   120 air    3  0 off_bc_ho:glazing   1.5   0.0   9.1 Specific air flow crack
 With crack width(m)  0.0020 crack length(m)  9.400
 
 GrMEI15:040    30 air    2  0 off_bc_ho:grill   1.5   0.6  10.2 Constant volume flow rate
 With flow rate (m^3/s)  0.16667E-01
 
 DoUcz16:003    40 air    3  0 off_nat_vnt:door   3.9   4.5   7.2 Common orifice flow
 With opening area (m^2)  0.016 discharge factor (-) 0.700
 
 FrCrz16:008   120 air    3  0 off_nat_vnt:frame   4.4   0.0   9.0 Specific air flow crack
 With crack width(m)  0.0020 crack length(m) 19.883
 
 WiCrz16:009   120 air    3  0 off_nat_vnt:glazing   4.6   0.0   9.1 Specific air flow crack
 With crack width(m)  0.0020 crack length(m)  8.600
 
 GrMEI16:040    30 air    2  0 off_nat_vnt:grill   4.7   0.6  10.2 Constant volume flow rate
 With flow rate (m^3/s)  0.27778E-03
 
 DoUcz17:003    40 air    3  0 off_2z_nv:door   7.0   4.5   7.2 Common orifice flow
 With opening area (m^2)  0.016 discharge factor (-) 0.700
 
 FrCrz17:008   120 air    3  0 off_2z_nv:frame   7.5   0.0   9.0 Specific air flow crack
 With crack width(m)  0.0020 crack length(m) 19.883
 
 WiCrz17:009   120 air    3  0 off_2z_nv:glazing   7.7   0.0   9.1 Specific air flow crack
 With crack width(m)  0.0020 crack length(m)  8.600
 
 GrMEI17:040    30 air    2  0 off_2z_nv:grill_ash   7.7   0.6  10.2 Constant volume flow rate
 With flow rate (m^3/s)  0.27778E-03
 
 DoUcz18:003    40 air    3  0 off_2z_ho:door  10.1   4.5   7.2 Common orifice flow
 With opening area (m^2)  0.016 discharge factor (-) 0.700
 
 FrCrz18:008   120 air    3  0 off_2z_ho:frame  10.5   0.0   8.9 Specific air flow crack
 With crack width(m)  0.0020 crack length(m) 19.883
 
 WiCrz18:009   120 air    3  0 off_2z_ho:glazing  10.8   0.0   9.1 Specific air flow crack
 With crack width(m)  0.0020 crack length(m)  9.400
 
 GrMEI18:040    30 air    2  0 off_2z_ho:grill_2n  10.8   0.6  10.2 Constant volume flow rate
 With flow rate (m^3/s)  0.16667E-01
 
 GrOpz19:025    40 air    3  0 corridor_h:cor_grill   2.7   5.1  10.2 Common orifice flow
 With opening area (m^2)  0.160 discharge factor (-) 0.500
 
 GrEXz21:034   110 air    2  0 void_high:exh_grill   0.0   5.2  10.4 Specific air flow opening
 With opening area(m)  0.040
 
 grill_low     110 air    2  0 cl_void_bc:facade   6.2   0.0   3.3 Specific air flow opening
 With opening area(m)  0.040
 
 grill_mid     110 air    2  0 cl_void_ctm:facade   6.2   0.0   6.9 Specific air flow opening
 With opening area(m)  0.040
 
 grill_hi      110 air    2  0 void_high:facade   6.2   0.0  10.5 Specific air flow opening
 With opening area(m)  0.040
 
 NV_ho_upper   110 air    2  0 off_nat_vnt:top_gl_open   4.6   0.0  10.0 Specific air flow opening
 With opening area(m)  0.400
 
 NV_ho_low     110 air    2  0 off_nat_vnt:low_glaze_ve   4.6   0.0   8.3 Specific air flow opening
 With opening area(m)  0.400
 
 NV_lo_high    110 air    2  0 off_2z_nv:glaze_vent_u   7.7   0.0  10.0 Specific air flow opening
 With opening area(m)  0.400
 
 NV_lo_low     110 air    2  0 off_2z_nv:glaze_vent_l   7.7   0.0   8.3 Specific air flow opening
 With opening area(m)  0.400
 
    # +Node         dHght   -Node         dHght   Component       Z @+    Z @-
    1 office_bc    -1.500   corridor     -1.500   DoUcz01:003     0.000   0.000
    2 BF-Cr01:008   0.000   office_bc     0.250   FrCrz01:008     1.750   1.750
    3 BW-Cr01:009   0.000   office_bc     0.450   WiCrz01:009     1.950   1.950
    4 mix_op_man   -0.250   office_bc     1.500   GrMEI01:040     3.000   3.000
    5 office_e+    -1.500   corridor     -1.500   DoUcz02:003     0.000   0.000
    6 BF-Cr02:008   0.000   office_e+     0.250   FrCrz02:008     1.750   1.750
    7 BW-Cr02:009   0.000   office_e+     0.450   WiCrz02:009     1.950   1.950
    8 mix_op_man   -0.250   office_e+     1.500   GrMEI02:040     3.000   3.000
    9 office_ash   -1.500   corridor     -1.500   DoUcz03:003     0.000   0.000
   10 BF-Cr03:008   0.000   office_ash    0.250   FrCrz03:008     1.750   1.750
   11 BW-Cr03:009   0.000   office_ash    0.450   WiCrz03:009     1.950   1.950
   12 mix_op_man   -0.250   office_ash    1.500   GrMEI03:040     3.000   3.000
   13 office_2node -1.500   corridor     -1.500   DoUcz04:003     0.000   0.000
   14 BF-Cr04:008   0.000   office_2node  0.250   FrCrz04:008     1.750   1.750
   15 BW-Cr04:009   0.000   office_2node  0.450   WiCrz04:009     1.950   1.950
   16 mix_op_man   -0.250   office_2node  1.500   GrMEI04:040     3.000   3.000
   17 corridor      1.500   cl_void_bc   -0.300   GrOpz05:025     3.000   3.000
   18 off_bc_ctm   -1.500   corrodpr_m   -1.500   DoUcz07:003     3.600   3.600
   19 BF-Cr07:008   0.000   off_bc_ctm    0.250   FrCrz07:008     5.350   5.350
   20 BW-Cr07:009   0.000   off_bc_ctm    0.450   WiCrz07:009     5.550   5.550
   21 mix_ctm      -0.250   off_bc_ctm    1.500   GrMEI07:040     6.600   6.600
   22 off_e+_ctm   -1.500   corrodpr_m   -1.500   DoUcz08:003     3.600   3.600
   23 BF-Cr08:008   0.000   off_e+_ctm    0.250   FrCrz08:008     5.350   5.350
   24 BW-Cr08:009   0.000   off_e+_ctm    0.450   WiCrz08:009     5.550   5.550
   25 mix_ctm      -0.250   off_e+_ctm    1.500   GrMEI08:040     6.600   6.600
   26 off_ash_ctm  -1.500   corrodpr_m   -1.500   DoUcz09:003     3.600   3.600
   27 BF-Cr09:008   0.000   off_ash_ctm   0.250   FrCrz09:008     5.350   5.350
   28 BW-Cr09:009   0.000   off_ash_ctm   0.450   WiCrz09:009     5.550   5.550
   29 mix_ctm      -0.250   off_ash_ctm   1.500   GrMEI09:040     6.600   6.600
   30 off_2n_ctm   -1.500   corrodpr_m   -1.500   DoUcz10:003     3.600   3.600
   31 BF-Cr10:008   0.000   off_2n_ctm    0.250   FrCrz10:008     5.350   5.350
   32 BW-Cr10:009   0.000   off_2n_ctm    0.450   WiCrz10:009     5.550   5.550
   33 mix_ctm      -0.250   off_2n_ctm    1.500   GrMEI10:040     6.600   6.600
   34 corrodpr_m    1.500   cl_void_ctm  -0.300   GrOpz11:025     6.600   6.600
   35 cl_void_bc   -0.050   BW-EX12:034   0.000   GrEXz12:034     3.250   3.250
   36 cl_void_ctm  -0.050   BW-EX14:034   0.000   GrEXz14:034     6.850   6.850
   37 off_bc_ho    -1.500   corridor_h   -1.500   DoUcz15:003     7.200   7.200
   38 BF-Cr15:008   0.000   off_bc_ho     0.250   FrCrz15:008     8.950   8.950
   39 BW-Cr15:009   0.000   off_bc_ho     0.450   WiCrz15:009     9.150   9.150
   40 mix_high     -0.250   off_bc_ho     1.500   GrMEI15:040    10.200  10.200
   41 off_nat_vnt  -1.500   corridor_h   -1.500   DoUcz16:003     7.200   7.200
   42 BF-Cr16:008   0.000   off_nat_vnt   0.307   FrCrz16:008     9.007   9.007
   43 BW-Cr16:009   0.000   off_nat_vnt   0.450   WiCrz16:009     9.150   9.150
   44 mix_high     -0.250   off_nat_vnt   1.500   GrMEI16:040    10.200  10.200
   45 off_2z_nv    -1.500   corridor_h   -1.500   DoUcz17:003     7.200   7.200
   46 BF-Cr17:008   0.000   off_2z_nv     0.307   FrCrz17:008     9.007   9.007
   47 BW-Cr17:009   0.000   off_2z_nv     0.450   WiCrz17:009     9.150   9.150
   48 mix_high     -0.250   off_2z_nv     1.500   GrMEI17:040    10.200  10.200
   49 off_2z_ho    -1.500   corridor_h   -1.500   DoUcz18:003     7.200   7.200
   50 BF-Cr18:008   0.000   off_2z_ho     0.250   FrCrz18:008     8.950   8.950
   51 BW-Cr18:009   0.000   off_2z_ho     0.450   WiCrz18:009     9.150   9.150
   52 mix_high     -0.250   off_2z_ho     1.500   GrMEI18:040    10.200  10.200
   53 corridor_h    1.500   void_high    -0.300   GrOpz19:025    10.200  10.200
   54 void_high    -0.050   BW-EX21:034   0.000   GrEXz21:034    10.450  10.450
   55 BW-Cr01:009   1.350   mix_op_man    0.050   grill_low       3.300   3.300
   56 BW-Cr07:009   1.350   mix_ctm       0.050   grill_mid       6.900   6.900
   57 BW-Cr15:009   1.350   mix_high      0.050   grill_hi       10.500  10.500
   58 BW-Cr16:009   0.850   off_nat_vnt   1.300   NV_ho_upper    10.000  10.000
   59 BW-Cr16:009  -0.850   off_nat_vnt  -0.400   NV_ho_low       8.300   8.300
   60 BW-Cr17:009   0.850   off_2z_nv     1.300   NV_lo_high     10.000  10.000
   61 BW-Cr17:009  -0.850   off_2z_nv    -0.400   NV_lo_low       8.300   8.300
 
thermal zone to air flow node mapping:
thermal zone -> air flow node
office_bc    -> office_bc
office_e+    -> office_e+
office_ash   -> office_ash
office_2node -> office_2node
corridor     -> corridor
mix_op_man   -> mix_op_man
off_bc_ctm   -> off_bc_ctm
off_e+_ctm   -> off_e+_ctm
off_ash_ctm  -> off_ash_ctm
off_2n_ctm   -> off_2n_ctm
corrodpr_m   -> corrodpr_m
cl_void_bc   -> cl_void_bc
mix_ctm      -> mix_ctm
cl_void_ctm  -> cl_void_ctm
off_bc_ho    -> off_bc_ho
off_nat_vnt  -> off_nat_vnt
off_2z_nv    -> off_2z_nv
off_2z_ho    -> off_2z_ho
corridor_h   -> corridor_h
mix_high     -> mix_high
void_high    -> void_high
 
 
 ____________________________________________________________
 
ID Zone         Volume|          Surface
   Name         m^3   | No. Opaque  Transp  ~Floor
 1 office_bc      40.3  40    75.6     9.8    13.5  a small office with base case occupant assumptionst
 2 office_e+      40.3  40    75.6     9.8    13.5  office_e+ with dynamic occupant via EPP+ polynomial
 3 office_ash     40.3  40    75.6     9.8    13.5  office_ash with dynamic occupants via ESP-r polynomial
 4 office_2node   40.3  40    75.6     9.8    13.5  office_2node uses dynamic two node occupant model
 5 corridor       36.9  25    86.5    17.9    14.6  corridor describes passage adjacent to offices
 6 mix_op_man      0.2   6     2.2     0.0     0.6  mixing_box is a zonal representation of ahu
 7 off_bc_ctm     40.3  40    75.6     9.8    13.5  off_bc_ctm as base case but with contaminate 8lps
 8 off_e+_ctm     40.3  40    75.6     9.8    13.5  off_e+_ctm with e+ occupant model and contaminate 8lpp
 9 off_ash_ctm    40.3  40    75.6     9.8    13.5  off_ash_ctm with ESP-r polyn occupant contam 8 lpp
10 off_2n_ctm     40.3  40    75.6     9.8    13.5  off_2n_ctm with 2 node occupants and contaminated 8 lpp
11 corrodpr_m     36.9  25    86.5    17.9    14.6  corrodpr_m is a mid-level corridor at contaminate level offic
12 cl_void_bc     40.8  34   160.1     0.0    68.9  cl_void_bc ceiling void over occupant model zones
13 mix_ctm         0.2   6     2.2     0.0     0.6  mix_ctm mixing box for fresh air to control CO2
14 cl_void_ctm    40.8  34   160.1     0.0    68.9  cl_void_ctm void above offices with contaminate controls
15 off_bc_ho      40.3  40    75.6     9.8    13.5  off_bc_ho high occupancy simple occ type.
16 off_nat_vnt    40.3  42    75.6     9.8    13.5  off_nat_vnt with 2 node occupants high occupancy nat vent
17 off_2z_nv      40.3  42    75.6     9.8    13.5  off_2z_nv low level 2 zone occupant with natural vent
18 off_2z_ho      40.3  40    75.6     9.8    13.5  off_2z_ho high occupancy of 2 zone model mech vent
19 corridor_h     36.9  25    86.5    17.9    14.6  corridor_h adjacent to high occupancy and nat vent rooms
20 mix_high        0.2   6     2.2     0.0     0.6  mix_high mixing box for high occupancy rooms
21 void_high      40.8  34   160.1     0.0    68.9  void_high ceiling void over high occupancy offices
   all           717.  679   1653.    171.    414.
 
 
 Zone office_bc ( 1) is composed of 40 surfaces and 80 vertices.
 It encloses a volume of 40.3m^3 of space, with a total surface
 area of 85.4m^2 & approx floor area of 13.5m^2
 a small office with base case occupant assumptionst
 There is 9.0000m2 of exposed surface area, 9.0000m2 of which is vertical.
 Facade opaque is 3.6800m2 &   27.3 % of floor area & average U of 0.589 & UA of 2.1693.
 Facade glazing is 5.3200m2 &  39.4 % of floor &  59.1 % facade with average U of 2.811 & UA of 14.953
 Opaque partitions:ceiling:floor 42.668m2 & trasparent partitions:ceiling:floor 4.4800m2.
 
 A summary of the surfaces in office_bc( 1) follows:
 
 Sur| Area  |Azim|Elev|          Surface                           | construction             |environment
    | m^2   |deg |deg | name       |optical|locat| use             | name                     |other side
  1  13.5     90.   0. pt_general   OPAQUE   VERT -:-               gyp_gyp_ptn              ||< pt_other:office_e+
  2  0.920   360.   0. part_frame   OPAQUE   VERT -:-               alum_hollow_frame        ||< part_frame:corridor
  3  2.32      0.   0. door         OPAQUE   VERT DOOR:UNDERCUT     door                     ||< door:corridor
  4  13.5    270.   0. pt_other     OPAQUE   VERT -:-               gyp_gyp_ptn              ||< identical environment
  5  13.5      0.  90. ceiling      OPAQUE   CEIL -:-               ceiling                  ||< ceiling:cl_void_bc
  6  13.5      0. -90. floor        OPAQUE   FLOR -:-               susp_flr_re              ||< identical environment
  7  2.70    180.   0. spandral     OPAQUE   VERT -:-               frc_rs_facade            ||< external
  8  0.980   180.   0. frame        OPAQUE   VERT F-FRAME:CRACK     alu_frame_U1.2           ||< external
  9  5.32    180.   0. glazing      DCF7671_ VERT C-WINDOW:CRACK    dbl_glz                  ||< external
 10  4.48      0.   0. part_glaz    SCF8783_ VERT -:-               single_glaz              ||< part_glaz:corridor
 11  1.28    360.   0. ptn_corid    OPAQUE   VERT -:-               gyp_gyp_ptn              ||< ptn_corid:corridor
 12  0.938     0.  90. adesk_t      OPAQUE   CEIL FURNI:-           corian_count             ||< adesk_t_:office_bc
 13  0.938     0. -90. adesk_t_     OPAQUE   FLOR FURNI:-           corian_count             ||< adesk_t:office_bc
 14  0.938     0.  90. bdesk_t      OPAQUE   CEIL FURNI:-           corian_count             ||< bdesk_t_:office_bc
 15  0.938     0. -90. bdesk_t_     OPAQUE   FLOR FURNI:-           corian_count             ||< bdesk_t:office_bc
 16  0.207     0.  90. cseat        OPAQUE   CEIL FURNI:-           upholstery               ||< cseat_:office_bc
 17  0.207     0. -90. cseat_       OPAQUE   FLOR FURNI:-           upholstery               ||< cseat:office_bc
 18  0.231   225.   6. cstback      OPAQUE   SLOP FURNI:-           upholstery               ||< cstback_:office_bc
 19  0.231    45.  -6. cstback_     OPAQUE   SLOP FURNI:-           upholstery               ||< cstback:office_bc
 20  0.207     0.  90. dseat        OPAQUE   CEIL FURNI:-           upholstery               ||< dseat_:office_bc
 21  0.207     0. -90. dseat_       OPAQUE   FLOR FURNI:-           upholstery               ||< dseat:office_bc
 22  0.231   190.   6. dstback      OPAQUE   SLOP FURNI:-           upholstery               ||< dstback_:office_bc
 23  0.231    10.  -6. dstback_     OPAQUE   SLOP FURNI:-           upholstery               ||< dstback:office_bc
 24  0.484   180.   0. ecab_lf      OPAQUE   VERT FURNI:-           steel_pl_3mm             ||< identical environment
 25  0.484   360.   0. ecab_rt      OPAQUE   VERT FURNI:-           steel_pl_3mm             ||< identical environment
 26  0.484    90.   0. ecab_fr      OPAQUE   VERT FURNI:-           file_papers              ||< identical environment
 27  0.484   270.   0. ecab_bk      OPAQUE   VERT FURNI:-           file_papers              ||< identical environment
 28  0.152     0. -90. ecab_to      OPAQUE   FLOR FURNI:-           steel_gr_3mm             ||< identical environment
 29  0.152     0.  90. ecab_bs      OPAQUE   CEIL FURNI:-           steel_gr_3mm             ||< identical environment
 30  0.500   180.   0. fbil_lft     OPAQUE   VERT FURNI:-           furn_wd10mm              ||< fbil_lft_:office_bc
 31  0.500     0.   0. fbil_lft_    OPAQUE   VERT FURNI:-           furn_wd10mm              ||< fbil_lft:office_bc
 32  0.500   180.   0. fbil_rt      OPAQUE   VERT FURNI:-           furn_wd10mm              ||< fbil_rt_:office_bc
 33  0.500   360.   0. fbil_rt_     OPAQUE   VERT FURNI:-           furn_wd10mm              ||< fbil_rt:office_bc
 34  1.55    270.   0. fbooks       OPAQUE   VERT FURNI:-           stuffonshelf             ||< fbooks_:office_bc
 35  1.55     90.   0. fbooks_      OPAQUE   VERT FURNI:-           stuffonshelf             ||< fbooks:office_bc
 36  0.148    90.   0. gcase        OPAQUE   VERT FURNI:-           IT_case                  ||< gcase_:office_bc
 37  0.148   270.   0. gcase_       OPAQUE   VERT FURNI:-           IT_case                  ||< gcase:office_bc
 38  0.123    90.   0. gcircuit     OPAQUE   VERT FURNI:-           circuit_bd               ||< gcircuit_:office_bc
 39  0.123   270.   0. gcircuit_    OPAQUE   VERT FURNI:-           circuit_bd               ||< gcircuit:office_bc
 40  0.040     0.  90. grill        OPAQUE   CEIL GRILL:INLET       steel_gr_3mm             ||< grill_bc:cl_void_bc
 
Surface      Width(m)   Height(m)  Above ffl...
door            0.80       2.90      0.00    DOOR
frame           3.00       2.10      0.90    F-FRAME
glazing         2.80       1.90      1.00    C-WINDOW
  
In office_bc           m^2     m^2 to   m^2 to  m^2 back  m^2 to  m^2 to
MLC name               total  ambient  other z  -to-back  ground  similar
gyp_gyp_ptn             28.3      0.0     14.8      0.0      0.0     13.5
door                     2.3      0.0      2.3      0.0      0.0      0.0
dbl_glz                  5.3      5.3      0.0      0.0      0.0      0.0
single_glaz              4.5      0.0      4.5      0.0      0.0      0.0
ceiling                 13.5      0.0     13.5      0.0      0.0      0.0
susp_flr_re             13.5      0.0      0.0      0.0      0.0     13.5
steel_pl_3mm             1.0      0.0      0.0      0.0      0.0      1.0
circuit_bd               0.1      0.0      0.0      0.1      0.0      0.0
upholstery               0.9      0.0      0.0      0.9      0.0      0.0
corian_count             1.9      0.0      0.0      1.9      0.0      0.0
IT_case                  0.1      0.0      0.0      0.1      0.0      0.0
furn_wd10mm              1.0      0.0      0.0      1.0      0.0      0.0
steel_gr_3mm             0.3      0.0      0.0      0.0      0.0      0.3
file_papers              1.0      0.0      0.0      0.0      0.0      1.0
stuffonshelf             1.5      0.0      0.0      1.5      0.0      0.0
alum_hollow_frame        0.9      0.0      0.9      0.0      0.0      0.0
alu_frame_U1.2           1.0      1.0      0.0      0.0      0.0      0.0
frc_rs_facade            2.7      2.7      0.0      0.0      0.0      0.0
 
 An hourly solar radiation distribution is used for this zone.
 Surfaces (all applicable) for shading analysis:
spandral frame glazing
 Insolation sources (all applicable):
glazing
 Explicit viewfactors have been derived for this zone.
Block  X-     Y-    Z-coords   DX-    DY-    DZ-values  Orientation   Opacity  Name  Construction
  1     0.0    -0.1     3.1     6.0     0.0     0.3     0.0     0.0 1.00 ob1 door
  2     0.0    -0.3     3.1     6.0     0.0     0.2     0.0     0.0 1.00 ob2 door
  3     0.0    -0.5     3.1     6.0     0.0     0.2     0.0     0.0 1.00 ob3 door
  4     0.0    -0.7     3.1     6.0     0.0     0.2     0.0     0.0 1.00 ob4 door
  5     0.0    -0.9     3.1     6.0     0.0     0.2     0.0     0.0 1.00 ob5 door
  6     0.0    -1.1     3.1     6.0     0.0     0.2     0.0     0.0 1.00 ob6 door
 
visual type name    composition        visual type name    composition
 vis 1rot  adesk_top  corian_count     vis 1rot  dl_arm_rest steel_gr_3mm
 vis 1rot  adesk_leg_a steel_pl_3mm    vis 1rot  droll_a sensor_case
 vis 1rot  adesk_leg_b steel_pl_3mm    vis 1rot  droll_b sensor_case
 vis 1rot  adesk_leg_c steel_pl_3mm    vis 1rot  droll_c sensor_case
 vis 1rot  adesk_leg_d steel_pl_3mm    vis 1rot  droll_d sensor_case
 vis 1rot  bdesk_top  corian_count     vis 1rot  ef_cabinet steel_pl_3mm
 vis 1rot  bdesk_leg_a steel_pl_3mm    vis 1rot  edrw_a steel_gr_3mm
 vis 1rot  bdesk_leg_b steel_pl_3mm    vis 1rot  edrw_b steel_gr_3mm
 vis 1rot  bdesk_leg_c steel_pl_3mm    vis 1rot  edrw_c steel_gr_3mm
 vis 1rot  bdesk_leg_d steel_pl_3mm    vis 1rot  edrw_d steel_gr_3mm
 vis 1rot  cseat      upholstery       vis 1rot  fleft_ver furn_wd10mm
 vis 1rot  cr_arm     upholstery       vis 1rot  fright_ver furn_wd10mm
 vis 1rot  cl_arm     upholstery       vis 1rot  fbil_bk furn_wd10mm
 vis 1rot  cl_arm     upholstery       vis 1rot  fbil_bk furn_wd10mm
 vis 1rot  ccross_a   steel_gr_3mm     vis 1rot  fshelf_b furn_wd10mm
 vis 1rot  ccross_b   steel_gr_3mm     vis 1rot  fshelf_c furn_wd10mm
 vis 1rot  cpost      PH_alu_frame     vis 1rot  fshelf_d furn_wd10mm
 vis 1rot  cr_arm_rest steel_gr_3mm    vis 1rot  fshelf_e furn_wd10mm
 vis 1rot  cl_arm_rest steel_gr_3mm    vis 1rot  fbil_top furn_wd10mm
 vis 1rot  croll_a    sensor_case      vis 1rot  fkick furn_wd10mm
 vis 1rot  croll_b    sensor_case      vis 1rot  flow_books stuffonshelf
 vis 1rot  croll_c    sensor_case      vis 1rot  f2nd_books stuffonshelf
 vis 1rot  croll_d    sensor_case      vis 1rot  f3rd_books booksonshlf
 vis 1rot  dseat      upholstery       vis 1rot  f4th_books booksonshlf
 vis 1rot  dr_arm     upholstery       vis 1rot  ftop_books booksonshlf
 vis 1rot  dl_arm     upholstery       vis 1rot  gdbase IT_case
 vis 1rot  dl_arm     upholstery       vis 1rot  gdbase IT_case
 vis 1rot  dcross_a   steel_gr_3mm     vis 1rot  gdlow_edge IT_case
 vis 1rot  dcross_b   steel_gr_3mm     vis 1rot  gdup_edge IT_case
 vis 1rot  dpost      PH_alu_frame     vis 1rot  gdlft_edge IT_case
 vis 1rot  dr_arm_rest steel_gr_3mm    vis 1rot  gdrt_edge IT_case
                                       vis 1rot  gdscreen   collector_pl
 
 Shading patterns have been calculated for this zone.
 
 Ventilation & infiltration is assessed via network analysis
 and the associated network node is: office_bc
 
Notes:
office with diversity of occupancy (half time 2nd occupant) lights at
10W/m2 and small power on weekdays at 5W/m2 standby light & power on
holidays. Uses simple occupant definitions.
 
Daytype   Gain Label     Type    Unit Period Sensible  Latent      Radiant    Convec
          No.                          Hours Magn.(W)  Magn.(W)    Fraction   Fraction
weekdays    1 Occupt     people    W    0- 7      0.0      0.0       0.60       0.40
weekdays    2 Occupt     people    W    7- 8     20.0     10.0       0.60       0.40
weekdays    3 Occupt     people    W    8- 9     60.0     30.0       0.60       0.40
weekdays    4 Occupt     people    W    9-12    100.0     50.0       0.60       0.40
weekdays    5 Occupt     people    W   12-14     65.0     32.5       0.60       0.40
weekdays    6 Occupt     people    W   14-17    150.0     75.0       0.60       0.40
weekdays    7 Occupt     people    W   17-24      0.0      0.0       0.50       0.50
weekdays    8 Lights     lighting  Wm2  0- 8      0.0      0.0       0.50       0.50
weekdays    9 Lights     lighting  Wm2  8-18     10.0      0.0       0.30       0.70
weekdays   10 Lights     lighting  Wm2 18-24      0.0      0.0       0.50       0.50
weekdays   11 Equipt     equipment Wm2  0- 8      0.0      0.0       0.50       0.50
weekdays   12 Equipt     equipment Wm2  8-14      5.0      0.0       0.40       0.60
weekdays   13 Equipt     equipment Wm2 14-18      8.0      0.0       0.40       0.60
weekdays   14 Equipt     equipment Wm2 18-24      0.0      0.0       0.50       0.50
 
saturday    1 Occupt     people    W    0- 7      0.0      0.0       0.50       0.50
saturday    2 Occupt     people    W    7- 8     20.0     10.0       0.60       0.40
saturday    3 Occupt     people    W    8- 9     60.0     30.0       0.60       0.40
saturday    4 Occupt     people    W    9-12    160.0     80.0       0.60       0.40
saturday    5 Occupt     people    W   12-14     65.0     32.5       0.60       0.40
saturday    6 Occupt     people    W   14-17    100.0     50.0       0.60       0.40
saturday    7 Occupt     people    W   17-24      0.0      0.0       0.60       0.40
saturday    8 Lights     lighting  Wm2  0- 8      0.0      0.0       0.50       0.50
saturday    9 Lights     lighting  Wm2  8-12     10.0      0.0       0.30       0.70
saturday   10 Lights     lighting  Wm2 12-24      0.0      0.0       0.50       0.50
saturday   11 Equipt     equipment Wm2  0- 9      2.0      0.0       0.50       0.50
saturday   12 Equipt     equipment Wm2  9-14      5.0      0.0       0.50       0.50
saturday   13 Equipt     equipment Wm2 14-24      0.0      0.0       0.50       0.50
 
sunday      1 Occupt     people    W    0-24      0.0      0.0       0.60       0.40
sunday      2 Lights     lighting  Wm2  0-24      1.0      0.0       0.50       0.50
sunday      3 Equipt     equipment Wm2  0-24      2.0      0.0       0.50       0.50
 
holiday     1 Occupt     people    W    0-24      0.0      0.0       0.60       0.40
holiday     2 Lights     lighting  Wm2  0-24      1.0      0.0       0.30       0.70
holiday     3 Equipt     equipment Wm2  0-24      2.0      0.0       0.50       0.50
 
winter_wkd  1 Occupt     people    W    0- 7      0.0      0.0       0.60       0.40
winter_wkd  2 Occupt     people    W    7- 8     20.0     10.0       0.60       0.40
winter_wkd  3 Occupt     people    W    8- 9     60.0     30.0       0.60       0.40
winter_wkd  4 Occupt     people    W    9-12    100.0     50.0       0.60       0.40
winter_wkd  5 Occupt     people    W   12-14     65.0     32.5       0.60       0.40
winter_wkd  6 Occupt     people    W   14-17    150.0     75.0       0.60       0.40
winter_wkd  7 Occupt     people    W   17-24      0.0      0.0       0.50       0.50
winter_wkd  8 Lights     lighting  Wm2  0- 8      0.0      0.0       0.50       0.50
winter_wkd  9 Lights     lighting  Wm2  8-18     10.0      0.0       0.30       0.70
winter_wkd 10 Lights     lighting  Wm2 18-24      0.0      0.0       0.50       0.50
winter_wkd 11 Equipt     equipment Wm2  0- 8      0.0      0.0       0.50       0.50
winter_wkd 12 Equipt     equipment Wm2  8-14      5.0      0.0       0.40       0.60
winter_wkd 13 Equipt     equipment Wm2 14-18      8.0      0.0       0.40       0.60
winter_wkd 14 Equipt     equipment Wm2 18-24      0.0      0.0       0.50       0.50
 
summer_wkd  1 Occupt     people    W    0- 7      0.0      0.0       0.60       0.40
summer_wkd  2 Occupt     people    W    7- 8     20.0     10.0       0.60       0.40
summer_wkd  3 Occupt     people    W    8- 9     60.0     30.0       0.60       0.40
summer_wkd  4 Occupt     people    W    9-12    100.0     50.0       0.60       0.40
summer_wkd  5 Occupt     people    W   12-14     65.0     32.5       0.60       0.40
summer_wkd  6 Occupt     people    W   14-17    150.0     75.0       0.60       0.40
summer_wkd  7 Occupt     people    W   17-24      0.0      0.0       0.50       0.50
summer_wkd  8 Lights     lighting  Wm2  0- 8      0.0      0.0       0.50       0.50
summer_wkd  9 Lights     lighting  Wm2  8-18     10.0      0.0       0.30       0.70
summer_wkd 10 Lights     lighting  Wm2 18-24      0.0      0.0       0.50       0.50
summer_wkd 11 Equipt     equipment Wm2  0- 8      0.0      0.0       0.50       0.50
summer_wkd 12 Equipt     equipment Wm2  8-14      5.0      0.0       0.40       0.60
summer_wkd 13 Equipt     equipment Wm2 14-18      8.0      0.0       0.40       0.60
summer_wkd 14 Equipt     equipment Wm2 18-24      0.0      0.0       0.50       0.50
 
 
 ____________________________________________________________
 
 Zone office_e+ ( 2) is composed of 40 surfaces and 80 vertices.
 It encloses a volume of 40.3m^3 of space, with a total surface
 area of 85.4m^2 & approx floor area of 13.5m^2
 office_e+ with dynamic occupant via EPP+ polynomial
 There is 9.0000m2 of exposed surface area, 9.0000m2 of which is vertical.
 Facade opaque is 3.6800m2 &   27.3 % of floor area & average U of 0.589 & UA of 2.1693.
 Facade glazing is 5.3200m2 &  39.4 % of floor &  59.1 % facade with average U of 2.811 & UA of 14.953
 Opaque partitions:ceiling:floor 56.168m2 & trasparent partitions:ceiling:floor 4.4800m2.
 
 A summary of the surfaces in office_e+( 2) follows:
 
 Sur| Area  |Azim|Elev|          Surface                           | construction             |environment
    | m^2   |deg |deg | name       |optical|locat| use             | name                     |other side
  1  13.5     90.   0. pt_general   OPAQUE   VERT -:-               gyp_gyp_ptn              ||< pt_other:office_ash
  2  0.920   360.   0. part_frame   OPAQUE   VERT -:-               alum_hollow_frame        ||< part_frm_e+:corridor
  3  2.32      0.   0. door         OPAQUE   VERT DOOR:UNDERCUT     door                     ||< door_e+:corridor
  4  13.5    270.   0. pt_other     OPAQUE   VERT -:-               gyp_gyp_ptn              ||< pt_general:office_bc
  5  13.5      0.  90. ceiling      OPAQUE   CEIL -:-               ceiling                  ||< ceiling_e+:cl_void_bc
  6  13.5      0. -90. floor        OPAQUE   FLOR -:-               susp_flr_re              ||< identical environment
  7  2.70    180.   0. spandral     OPAQUE   VERT -:-               frc_rs_facade            ||< external
  8  0.980   180.   0. frame        OPAQUE   VERT F-FRAME:CRACK     alu_frame_U1.2           ||< external
  9  5.32    180.   0. glazing      DCF7671_ VERT C-WINDOW:CRACK    dbl_glz                  ||< external
 10  4.48      0.   0. part_glaz    SCF8783_ VERT -:-               single_glaz              ||< glass_e+:corridor
 11  1.28    360.   0. ptn_corid    OPAQUE   VERT -:-               gyp_gyp_ptn              ||< ptn_corid_e+:corridor
 12  0.938     0.  90. adesk_t      OPAQUE   CEIL FURNI:-           corian_count             ||< adesk_t_:office_e+
 13  0.938     0. -90. adesk_t_     OPAQUE   FLOR FURNI:-           corian_count             ||< adesk_t:office_e+
 14  0.938     0.  90. bdesk_t      OPAQUE   CEIL FURNI:-           corian_count             ||< bdesk_t_:office_e+
 15  0.938     0. -90. bdesk_t_     OPAQUE   FLOR FURNI:-           corian_count             ||< bdesk_t:office_e+
 16  0.207     0.  90. cseat        OPAQUE   CEIL FURNI:-           upholstery               ||< cseat_:office_e+
 17  0.207     0. -90. cseat_       OPAQUE   FLOR FURNI:-           upholstery               ||< cseat:office_e+
 18  0.231   225.   6. cstback      OPAQUE   SLOP FURNI:-           upholstery               ||< cstback_:office_e+
 19  0.231    45.  -6. cstback_     OPAQUE   SLOP FURNI:-           upholstery               ||< cstback:office_e+
 20  0.207     0.  90. dseat        OPAQUE   CEIL FURNI:-           upholstery               ||< dseat_:office_e+
 21  0.207     0. -90. dseat_       OPAQUE   FLOR FURNI:-           upholstery               ||< dseat:office_e+
 22  0.231   190.   6. dstback      OPAQUE   SLOP FURNI:-           upholstery               ||< dstback_:office_e+
 23  0.231    10.  -6. dstback_     OPAQUE   SLOP FURNI:-           upholstery               ||< dstback:office_e+
 24  0.484   180.   0. ecab_lf      OPAQUE   VERT FURNI:-           steel_pl_3mm             ||< identical environment
 25  0.484   360.   0. ecab_rt      OPAQUE   VERT FURNI:-           steel_pl_3mm             ||< identical environment
 26  0.484    90.   0. ecab_fr      OPAQUE   VERT FURNI:-           file_papers              ||< identical environment
 27  0.484   270.   0. ecab_bk      OPAQUE   VERT FURNI:-           file_papers              ||< identical environment
 28  0.152     0. -90. ecab_to      OPAQUE   FLOR FURNI:-           steel_gr_3mm             ||< identical environment
 29  0.152     0.  90. ecab_bs      OPAQUE   CEIL FURNI:-           steel_gr_3mm             ||< identical environment
 30  0.500   180.   0. fbil_lft     OPAQUE   VERT FURNI:-           furn_wd10mm              ||< fbil_lft_:office_e+
 31  0.500     0.   0. fbil_lft_    OPAQUE   VERT FURNI:-           furn_wd10mm              ||< fbil_lft:office_e+
 32  0.500   180.   0. fbil_rt      OPAQUE   VERT FURNI:-           furn_wd10mm              ||< fbil_rt_:office_e+
 33  0.500   360.   0. fbil_rt_     OPAQUE   VERT FURNI:-           furn_wd10mm              ||< fbil_rt:office_e+
 34  1.55    270.   0. fbooks       OPAQUE   VERT FURNI:-           stuffonshelf             ||< fbooks_:office_e+
 35  1.55     90.   0. fbooks_      OPAQUE   VERT FURNI:-           stuffonshelf             ||< fbooks:office_e+
 36  0.148    90.   0. gcase        OPAQUE   VERT FURNI:-           IT_case                  ||< gcase_:office_e+
 37  0.148   270.   0. gcase_       OPAQUE   VERT FURNI:-           IT_case                  ||< gcase:office_e+
 38  0.123    90.   0. gcircuit     OPAQUE   VERT FURNI:-           circuit_bd               ||< gcircuit_:office_e+
 39  0.123   270.   0. gcircuit_    OPAQUE   VERT FURNI:-           circuit_bd               ||< gcircuit:office_e+
 40  0.040     0.  90. grill        OPAQUE   CEIL GRILL:INLET       steel_gr_3mm             ||< grill_e+:cl_void_bc
 
Surface      Width(m)   Height(m)  Above ffl...
door            0.80       2.90      0.00    DOOR
frame           3.00       2.10      0.90    F-FRAME
glazing         2.80       1.90      1.00    C-WINDOW
  
In office_e+           m^2     m^2 to   m^2 to  m^2 back  m^2 to  m^2 to
MLC name               total  ambient  other z  -to-back  ground  similar
gyp_gyp_ptn             28.3      0.0     28.3      0.0      0.0      0.0
door                     2.3      0.0      2.3      0.0      0.0      0.0
dbl_glz                  5.3      5.3      0.0      0.0      0.0      0.0
single_glaz              4.5      0.0      4.5      0.0      0.0      0.0
ceiling                 13.5      0.0     13.5      0.0      0.0      0.0
susp_flr_re             13.5      0.0      0.0      0.0      0.0     13.5
steel_pl_3mm             1.0      0.0      0.0      0.0      0.0      1.0
circuit_bd               0.1      0.0      0.0      0.1      0.0      0.0
upholstery               0.9      0.0      0.0      0.9      0.0      0.0
corian_count             1.9      0.0      0.0      1.9      0.0      0.0
IT_case                  0.1      0.0      0.0      0.1      0.0      0.0
furn_wd10mm              1.0      0.0      0.0      1.0      0.0      0.0
steel_gr_3mm             0.3      0.0      0.0      0.0      0.0      0.3
file_papers              1.0      0.0      0.0      0.0      0.0      1.0
stuffonshelf             1.5      0.0      0.0      1.5      0.0      0.0
alum_hollow_frame        0.9      0.0      0.9      0.0      0.0      0.0
alu_frame_U1.2           1.0      1.0      0.0      0.0      0.0      0.0
frc_rs_facade            2.7      2.7      0.0      0.0      0.0      0.0
 
 An hourly solar radiation distribution is used for this zone.
 Surfaces (all applicable) for shading analysis:
spandral frame glazing
 Insolation sources (all applicable):
glazing
 Explicit viewfactors have been derived for this zone.
Block  X-     Y-    Z-coords   DX-    DY-    DZ-values  Orientation   Opacity  Name  Construction
  1     3.1    -0.1     3.1     6.0     0.0     0.3     0.0     0.0 1.00 ob1 door
  2     3.1    -0.3     3.1     6.0     0.0     0.2     0.0     0.0 1.00 ob2 door
  3     3.1    -0.5     3.1     6.0     0.0     0.2     0.0     0.0 1.00 ob3 door
  4     3.1    -0.7     3.1     6.0     0.0     0.2     0.0     0.0 1.00 ob4 door
  5     3.1    -0.9     3.1     6.0     0.0     0.2     0.0     0.0 1.00 ob5 door
  6     3.1    -1.1     3.1     6.0     0.0     0.2     0.0     0.0 1.00 ob6 door
 
visual type name    composition        visual type name    composition
 vis 1rot  adesk_top  corian_count     vis 1rot  dl_arm_rest steel_gr_3mm
 vis 1rot  adesk_leg_a steel_pl_3mm    vis 1rot  droll_a sensor_case
 vis 1rot  adesk_leg_b steel_pl_3mm    vis 1rot  droll_b sensor_case
 vis 1rot  adesk_leg_c steel_pl_3mm    vis 1rot  droll_c sensor_case
 vis 1rot  adesk_leg_d steel_pl_3mm    vis 1rot  droll_d sensor_case
 vis 1rot  bdesk_top  corian_count     vis 1rot  ef_cabinet steel_pl_3mm
 vis 1rot  bdesk_leg_a steel_pl_3mm    vis 1rot  edrw_a steel_gr_3mm
 vis 1rot  bdesk_leg_b steel_pl_3mm    vis 1rot  edrw_b steel_gr_3mm
 vis 1rot  bdesk_leg_c steel_pl_3mm    vis 1rot  edrw_c steel_gr_3mm
 vis 1rot  bdesk_leg_d steel_pl_3mm    vis 1rot  edrw_d steel_gr_3mm
 vis 1rot  cseat      upholstery       vis 1rot  fleft_ver furn_wd10mm
 vis 1rot  cr_arm     upholstery       vis 1rot  fright_ver furn_wd10mm
 vis 1rot  cl_arm     upholstery       vis 1rot  fbil_bk furn_wd10mm
 vis 1rot  cl_arm     upholstery       vis 1rot  fbil_bk furn_wd10mm
 vis 1rot  ccross_a   steel_gr_3mm     vis 1rot  fshelf_b furn_wd10mm
 vis 1rot  ccross_b   steel_gr_3mm     vis 1rot  fshelf_c furn_wd10mm
 vis 1rot  cpost      PH_alu_frame     vis 1rot  fshelf_d furn_wd10mm
 vis 1rot  cr_arm_rest steel_gr_3mm    vis 1rot  fshelf_e furn_wd10mm
 vis 1rot  cl_arm_rest steel_gr_3mm    vis 1rot  fbil_top furn_wd10mm
 vis 1rot  croll_a    sensor_case      vis 1rot  fkick furn_wd10mm
 vis 1rot  croll_b    sensor_case      vis 1rot  flow_books stuffonshelf
 vis 1rot  croll_c    sensor_case      vis 1rot  f2nd_books stuffonshelf
 vis 1rot  croll_d    sensor_case      vis 1rot  f3rd_books booksonshlf
 vis 1rot  dseat      upholstery       vis 1rot  f4th_books booksonshlf
 vis 1rot  dr_arm     upholstery       vis 1rot  ftop_books booksonshlf
 vis 1rot  dl_arm     upholstery       vis 1rot  gdbase IT_case
 vis 1rot  dl_arm     upholstery       vis 1rot  gdbase IT_case
 vis 1rot  dcross_a   steel_gr_3mm     vis 1rot  gdlow_edge IT_case
 vis 1rot  dcross_b   steel_gr_3mm     vis 1rot  gdup_edge IT_case
 vis 1rot  dpost      PH_alu_frame     vis 1rot  gdlft_edge IT_case
 vis 1rot  dr_arm_rest steel_gr_3mm    vis 1rot  gdrt_edge IT_case
                                       vis 1rot  gdscreen   collector_pl
 
 Shading patterns have been calculated for this zone.
 
 Ventilation & infiltration is assessed via network analysis
 and the associated network node is: office_e+
 
Notes:
dynamic occupancy via energyplus polynomial technique
 
Daytype   Gain Label     Type    Unit Period     Number of      Metabo-  Clo   Air   Radiant    Convec
          No.                         Hours  Men   Women Child  lic Rate Value Velo.  Fraction   Fraction
                                           Sensible  Latent     Radiant    Convec
          No.                              Magn.(W)  Magn.(W)   Fraction   Fraction
weekdays    1 Metabolic  dynamic_p ocu  0- 7  0.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
weekdays    2 Metabolic  dynamic_p ocu  7- 8  1.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
weekdays    3 Metabolic  dynamic_p ocu  8- 9  1.00  1.00  0.00  1.40  0.60  1.00       0.60       0.40
weekdays    4 Metabolic  dynamic_p ocu  9-12  1.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
weekdays    5 Metabolic  dynamic_p ocu 12-14  1.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
weekdays    6 Metabolic  dynamic_p ocu 14-17  1.00  1.00  0.00  1.40  0.60  1.00       0.60       0.40
weekdays    7 Metabolic  dynamic_p ocu 17-24  0.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
weekdays    8 Light      lighting  Wm2  0- 8      0.0      0.0       0.30       0.70
weekdays    9 Light      lighting  Wm2  8-12     10.0      0.0       0.30       0.70
weekdays   10 Light      lighting  Wm2 18-24      0.0      0.0       0.30       0.70
weekdays   11 Equipment  equipment Wm2  0- 8      0.0      0.0       0.40       0.60
weekdays   12 Equipment  equipment Wm2  8-12      5.0      0.0       0.40       0.60
weekdays   13 Equipment  equipment Wm2 18-24      0.0      0.0       0.40       0.60
 
saturday    1 Metabolic  dynamic_p ocu  0- 7  0.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
saturday    2 Metabolic  dynamic_p ocu  7- 8  1.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
saturday    3 Metabolic  dynamic_p ocu  8- 9  1.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
saturday    4 Metabolic  dynamic_p ocu  9-12  1.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
saturday    5 Metabolic  dynamic_p ocu 12-14  1.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
saturday    6 Metabolic  dynamic_p ocu 14-17  1.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
saturday    7 Metabolic  dynamic_p ocu 17-24  0.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
saturday    8 Light      lighting  Wm2  0- 8      0.0      0.0       0.30       0.70
saturday    9 Light      lighting  Wm2  8-12     10.0      0.0       0.30       0.70
saturday   10 Light      lighting  Wm2 12-24      0.0      0.0       0.30       0.70
saturday   11 Equipment  equipment Wm2  0-24      0.0      0.0       0.40       0.60
 
sunday      1 Metabolic  dynamic_p ocu  0-24  0.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
sunday      2 Light      lighting  Wm2  0-24      0.0      0.0       0.30       0.70
sunday      3 Equipment  equipment Wm2  0-24      0.0      0.0       0.40       0.60
 
holiday     1 Metabolic  dynamic_p ocu  0-24  0.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
holiday     2 Light      lighting  Wm2  0-24      0.0      0.0       0.30       0.70
holiday     3 Equipment  equipment Wm2  0-24      0.0      0.0       0.40       0.60
 
winter_wkd  1 Metabolic  dynamic_p ocu  0- 7  0.00  0.00  0.00  1.40  1.10  1.00       0.60       0.40
winter_wkd  2 Metabolic  dynamic_p ocu  7- 8  1.00  0.00  0.00  1.40  1.10  1.00       0.60       0.40
winter_wkd  3 Metabolic  dynamic_p ocu  8- 9  1.00  1.00  0.00  1.40  1.10  1.00       0.60       0.40
winter_wkd  4 Metabolic  dynamic_p ocu  9-12  1.00  0.00  0.00  1.40  1.10  1.00       0.60       0.40
winter_wkd  5 Metabolic  dynamic_p ocu 12-14  1.00  0.00  0.00  1.40  1.10  1.00       0.60       0.40
winter_wkd  6 Metabolic  dynamic_p ocu 14-17  1.00  1.00  0.00  1.40  1.10  1.00       0.60       0.40
winter_wkd  7 Metabolic  dynamic_p ocu 17-24  0.00  0.00  0.00  1.40  1.10  1.00       0.60       0.40
winter_wkd  8 Light      lighting  Wm2  0- 8      0.0      0.0       0.30       0.70
winter_wkd  9 Light      lighting  Wm2  8-12     10.0      0.0       0.30       0.70
winter_wkd 10 Light      lighting  Wm2 18-24      0.0      0.0       0.30       0.70
winter_wkd 11 Equipment  equipment Wm2  0- 8      0.0      0.0       0.40       0.60
winter_wkd 12 Equipment  equipment Wm2  8-12      5.0      0.0       0.40       0.60
winter_wkd 13 Equipment  equipment Wm2 18-24      0.0      0.0       0.40       0.60
 
summer_wkd  1 Metabolic  dynamic_p ocu  0- 7  0.00  0.00  0.00  1.40  0.40  1.00       0.60       0.40
summer_wkd  2 Metabolic  dynamic_p ocu  7- 8  1.00  0.00  0.00  1.40  0.40  1.00       0.60       0.40
summer_wkd  3 Metabolic  dynamic_p ocu  8- 9  1.00  1.00  0.00  1.40  0.40  1.00       0.60       0.40
summer_wkd  4 Metabolic  dynamic_p ocu  9-12  1.00  0.00  0.00  1.40  0.40  1.00       0.60       0.40
summer_wkd  5 Metabolic  dynamic_p ocu 12-14  1.00  0.00  0.00  1.40  0.40  1.00       0.60       0.40
summer_wkd  6 Metabolic  dynamic_p ocu 14-17  1.00  1.00  0.00  1.40  0.40  1.00       0.60       0.40
summer_wkd  7 Metabolic  dynamic_p ocu 17-24  0.00  0.00  0.00  1.40  0.40  1.00       0.60       0.40
summer_wkd  8 Light      lighting  Wm2  0- 8      0.0      0.0       0.30       0.70
summer_wkd  9 Light      lighting  Wm2  8-12     10.0      0.0       0.30       0.70
summer_wkd 10 Light      lighting  Wm2 18-24      0.0      0.0       0.30       0.70
summer_wkd 11 Equipment  equipment Wm2  0- 8      0.0      0.0       0.40       0.60
summer_wkd 12 Equipment  equipment Wm2  8-12      5.0      0.0       0.40       0.60
summer_wkd 13 Equipment  equipment Wm2 18-24      0.0      0.0       0.40       0.60
 
 
 ____________________________________________________________
 
 Zone office_ash ( 3) is composed of 40 surfaces and 80 vertices.
 It encloses a volume of 40.3m^3 of space, with a total surface
 area of 85.4m^2 & approx floor area of 13.5m^2
 office_ash with dynamic occupants via ESP-r polynomial
 There is 9.0000m2 of exposed surface area, 9.0000m2 of which is vertical.
 Facade opaque is 3.6800m2 &   27.3 % of floor area & average U of 0.589 & UA of 2.1693.
 Facade glazing is 5.3200m2 &  39.4 % of floor &  59.1 % facade with average U of 2.811 & UA of 14.953
 Opaque partitions:ceiling:floor 56.168m2 & trasparent partitions:ceiling:floor 4.4800m2.
 
 A summary of the surfaces in office_ash( 3) follows:
 
 Sur| Area  |Azim|Elev|          Surface                           | construction             |environment
    | m^2   |deg |deg | name       |optical|locat| use             | name                     |other side
  1  13.5     90.   0. pt_general   OPAQUE   VERT -:-               gyp_gyp_ptn              ||< pt_other:office_2node
  2  0.920   360.   0. part_frame   OPAQUE   VERT -:-               alum_hollow_frame        ||< part_fr_ash:corridor
  3  2.32      0.   0. door         OPAQUE   VERT DOOR:UNDERCUT     door                     ||< door_ash:corridor
  4  13.5    270.   0. pt_other     OPAQUE   VERT -:-               gyp_gyp_ptn              ||< pt_general:office_e+
  5  13.5      0.  90. ceiling      OPAQUE   CEIL -:-               ceiling                  ||< ceiling_ash:cl_void_bc
  6  13.5      0. -90. floor        OPAQUE   FLOR -:-               susp_flr_re              ||< identical environment
  7  2.70    180.   0. spandral     OPAQUE   VERT -:-               frc_rs_facade            ||< external
  8  0.980   180.   0. frame        OPAQUE   VERT F-FRAME:CRACK     alu_frame_U1.2           ||< external
  9  5.32    180.   0. glazing      DCF7671_ VERT C-WINDOW:CRACK    dbl_glz                  ||< external
 10  4.48      0.   0. part_glaz    SCF8783_ VERT -:-               single_glaz              ||< glaz_ash:corridor
 11  1.28    360.   0. ptn_corid    OPAQUE   VERT -:-               gyp_gyp_ptn              ||< ptn_door_ash:corridor
 12  0.938     0.  90. adesk_t      OPAQUE   CEIL FURNI:-           corian_count             ||< adesk_t_:office_ash
 13  0.938     0. -90. adesk_t_     OPAQUE   FLOR FURNI:-           corian_count             ||< adesk_t:office_ash
 14  0.938     0.  90. bdesk_t      OPAQUE   CEIL FURNI:-           corian_count             ||< bdesk_t_:office_ash
 15  0.938     0. -90. bdesk_t_     OPAQUE   FLOR FURNI:-           corian_count             ||< bdesk_t:office_ash
 16  0.207     0.  90. cseat        OPAQUE   CEIL FURNI:-           upholstery               ||< cseat_:office_ash
 17  0.207     0. -90. cseat_       OPAQUE   FLOR FURNI:-           upholstery               ||< cseat:office_ash
 18  0.231   225.   6. cstback      OPAQUE   SLOP FURNI:-           upholstery               ||< cstback_:office_ash
 19  0.231    45.  -6. cstback_     OPAQUE   SLOP FURNI:-           upholstery               ||< cstback:office_ash
 20  0.207     0.  90. dseat        OPAQUE   CEIL FURNI:-           upholstery               ||< dseat_:office_ash
 21  0.207     0. -90. dseat_       OPAQUE   FLOR FURNI:-           upholstery               ||< dseat:office_ash
 22  0.231   190.   6. dstback      OPAQUE   SLOP FURNI:-           upholstery               ||< dstback_:office_ash
 23  0.231    10.  -6. dstback_     OPAQUE   SLOP FURNI:-           upholstery               ||< dstback:office_ash
 24  0.484   180.   0. ecab_lf      OPAQUE   VERT FURNI:-           steel_pl_3mm             ||< identical environment
 25  0.484   360.   0. ecab_rt      OPAQUE   VERT FURNI:-           steel_pl_3mm             ||< identical environment
 26  0.484    90.   0. ecab_fr      OPAQUE   VERT FURNI:-           file_papers              ||< identical environment
 27  0.484   270.   0. ecab_bk      OPAQUE   VERT FURNI:-           file_papers              ||< identical environment
 28  0.152     0. -90. ecab_to      OPAQUE   FLOR FURNI:-           steel_gr_3mm             ||< identical environment
 29  0.152     0.  90. ecab_bs      OPAQUE   CEIL FURNI:-           steel_gr_3mm             ||< identical environment
 30  0.500   180.   0. fbil_lft     OPAQUE   VERT FURNI:-           furn_wd10mm              ||< fbil_lft_:office_ash
 31  0.500     0.   0. fbil_lft_    OPAQUE   VERT FURNI:-           furn_wd10mm              ||< fbil_lft:office_ash
 32  0.500   180.   0. fbil_rt      OPAQUE   VERT FURNI:-           furn_wd10mm              ||< fbil_rt_:office_ash
 33  0.500   360.   0. fbil_rt_     OPAQUE   VERT FURNI:-           furn_wd10mm              ||< fbil_rt:office_ash
 34  1.55    270.   0. fbooks       OPAQUE   VERT FURNI:-           stuffonshelf             ||< fbooks_:office_ash
 35  1.55     90.   0. fbooks_      OPAQUE   VERT FURNI:-           stuffonshelf             ||< fbooks:office_ash
 36  0.148    90.   0. gcase        OPAQUE   VERT FURNI:-           IT_case                  ||< gcase_:office_ash
 37  0.148   270.   0. gcase_       OPAQUE   VERT FURNI:-           IT_case                  ||< gcase:office_ash
 38  0.123    90.   0. gcircuit     OPAQUE   VERT FURNI:-           circuit_bd               ||< gcircuit_:office_ash
 39  0.123   270.   0. gcircuit_    OPAQUE   VERT FURNI:-           circuit_bd               ||< gcircuit:office_ash
 40  0.040     0.  90. grill_ash    OPAQUE   CEIL GRILL:INLET       steel_gr_3mm             ||< grill_ash:cl_void_bc
 
Surface      Width(m)   Height(m)  Above ffl...
door            0.80       2.90      0.00    DOOR
frame           3.00       2.10      0.90    F-FRAME
glazing         2.80       1.90      1.00    C-WINDOW
  
In office_ash          m^2     m^2 to   m^2 to  m^2 back  m^2 to  m^2 to
MLC name               total  ambient  other z  -to-back  ground  similar
gyp_gyp_ptn             28.3      0.0     28.3      0.0      0.0      0.0
door                     2.3      0.0      2.3      0.0      0.0      0.0
dbl_glz                  5.3      5.3      0.0      0.0      0.0      0.0
single_glaz              4.5      0.0      4.5      0.0      0.0      0.0
ceiling                 13.5      0.0     13.5      0.0      0.0      0.0
susp_flr_re             13.5      0.0      0.0      0.0      0.0     13.5
steel_pl_3mm             1.0      0.0      0.0      0.0      0.0      1.0
circuit_bd               0.1      0.0      0.0      0.1      0.0      0.0
upholstery               0.9      0.0      0.0      0.9      0.0      0.0
corian_count             1.9      0.0      0.0      1.9      0.0      0.0
IT_case                  0.1      0.0      0.0      0.1      0.0      0.0
furn_wd10mm              1.0      0.0      0.0      1.0      0.0      0.0
steel_gr_3mm             0.3      0.0      0.0      0.0      0.0      0.3
file_papers              1.0      0.0      0.0      0.0      0.0      1.0
stuffonshelf             1.5      0.0      0.0      1.5      0.0      0.0
alum_hollow_frame        0.9      0.0      0.9      0.0      0.0      0.0
alu_frame_U1.2           1.0      1.0      0.0      0.0      0.0      0.0
frc_rs_facade            2.7      2.7      0.0      0.0      0.0      0.0
 
 An hourly solar radiation distribution is used for this zone.
 Surfaces (all applicable) for shading analysis:
spandral frame glazing
 Insolation sources (all applicable):
glazing
 Explicit viewfactors have been derived for this zone.
Block  X-     Y-    Z-coords   DX-    DY-    DZ-values  Orientation   Opacity  Name  Construction
  1     6.2    -0.1     3.1     6.0     0.0     0.3     0.0     0.0 1.00 ob1 door
  2     6.2    -0.3     3.1     6.0     0.0     0.2     0.0     0.0 1.00 ob2 door
  3     6.2    -0.5     3.1     6.0     0.0     0.2     0.0     0.0 1.00 ob3 door
  4     6.2    -0.7     3.1     6.0     0.0     0.2     0.0     0.0 1.00 ob4 door
  5     6.2    -0.9     3.1     6.0     0.0     0.2     0.0     0.0 1.00 ob5 door
  6     6.2    -1.1     3.1     6.0     0.0     0.2     0.0     0.0 1.00 ob6 door
 
visual type name    composition        visual type name    composition
 vis 1rot  adesk_top  corian_count     vis 1rot  dl_arm_rest steel_gr_3mm
 vis 1rot  adesk_leg_a steel_pl_3mm    vis 1rot  droll_a sensor_case
 vis 1rot  adesk_leg_b steel_pl_3mm    vis 1rot  droll_b sensor_case
 vis 1rot  adesk_leg_c steel_pl_3mm    vis 1rot  droll_c sensor_case
 vis 1rot  adesk_leg_d steel_pl_3mm    vis 1rot  droll_d sensor_case
 vis 1rot  bdesk_top  corian_count     vis 1rot  ef_cabinet steel_pl_3mm
 vis 1rot  bdesk_leg_a steel_pl_3mm    vis 1rot  edrw_a steel_gr_3mm
 vis 1rot  bdesk_leg_b steel_pl_3mm    vis 1rot  edrw_b steel_gr_3mm
 vis 1rot  bdesk_leg_c steel_pl_3mm    vis 1rot  edrw_c steel_gr_3mm
 vis 1rot  bdesk_leg_d steel_pl_3mm    vis 1rot  edrw_d steel_gr_3mm
 vis 1rot  cseat      upholstery       vis 1rot  fleft_ver furn_wd10mm
 vis 1rot  cr_arm     upholstery       vis 1rot  fright_ver furn_wd10mm
 vis 1rot  cl_arm     upholstery       vis 1rot  fbil_bk furn_wd10mm
 vis 1rot  cl_arm     upholstery       vis 1rot  fbil_bk furn_wd10mm
 vis 1rot  ccross_a   steel_gr_3mm     vis 1rot  fshelf_b furn_wd10mm
 vis 1rot  ccross_b   steel_gr_3mm     vis 1rot  fshelf_c furn_wd10mm
 vis 1rot  cpost      PH_alu_frame     vis 1rot  fshelf_d furn_wd10mm
 vis 1rot  cr_arm_rest steel_gr_3mm    vis 1rot  fshelf_e furn_wd10mm
 vis 1rot  cl_arm_rest steel_gr_3mm    vis 1rot  fbil_top furn_wd10mm
 vis 1rot  croll_a    sensor_case      vis 1rot  fkick furn_wd10mm
 vis 1rot  croll_b    sensor_case      vis 1rot  flow_books stuffonshelf
 vis 1rot  croll_c    sensor_case      vis 1rot  f2nd_books stuffonshelf
 vis 1rot  croll_d    sensor_case      vis 1rot  f3rd_books booksonshlf
 vis 1rot  dseat      upholstery       vis 1rot  f4th_books booksonshlf
 vis 1rot  dr_arm     upholstery       vis 1rot  ftop_books booksonshlf
 vis 1rot  dl_arm     upholstery       vis 1rot  gdbase IT_case
 vis 1rot  dl_arm     upholstery       vis 1rot  gdbase IT_case
 vis 1rot  dcross_a   steel_gr_3mm     vis 1rot  gdlow_edge IT_case
 vis 1rot  dcross_b   steel_gr_3mm     vis 1rot  gdup_edge IT_case
 vis 1rot  dpost      PH_alu_frame     vis 1rot  gdlft_edge IT_case
 vis 1rot  dr_arm_rest steel_gr_3mm    vis 1rot  gdrt_edge IT_case
                                       vis 1rot  gdscreen   collector_pl
 
 Shading patterns have been calculated for this zone.
 
 Ventilation & infiltration is assessed via network analysis
 and the associated network node is: office_ash
 
Notes:
Uses explicit modeling of occupants.
 
Daytype   Gain Label     Type    Unit Period     Number of      Metabo-  Clo   Air   Radiant    Convec
          No.                         Hours  Men   Women Child  lic Rate Value Velo.  Fraction   Fraction
                                           Sensible  Latent     Radiant    Convec
          No.                              Magn.(W)  Magn.(W)   Fraction   Fraction
weekdays    1 Metabolic  dynamic_p ocu  0- 7  0.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
weekdays    2 Metabolic  dynamic_p ocu  7- 8  1.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
weekdays    3 Metabolic  dynamic_p ocu  8- 9  1.00  1.00  0.00  1.40  0.60  1.00       0.60       0.40
weekdays    4 Metabolic  dynamic_p ocu  9-12  1.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
weekdays    5 Metabolic  dynamic_p ocu 12-14  1.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
weekdays    6 Metabolic  dynamic_p ocu 14-17  1.00  1.00  0.00  1.40  0.60  1.00       0.60       0.40
weekdays    7 Metabolic  dynamic_p ocu 17-24  0.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
weekdays    8 Light      lighting  Wm2  0- 8      0.0      0.0       0.30       0.70
weekdays    9 Light      lighting  Wm2  8-12     10.0      0.0       0.30       0.70
weekdays   10 Light      lighting  Wm2 18-24      0.0      0.0       0.30       0.70
weekdays   11 Equipment  equipment Wm2  0- 8      0.0      0.0       0.40       0.60
weekdays   12 Equipment  equipment Wm2  8-12      5.0      0.0       0.40       0.60
weekdays   13 Equipment  equipment Wm2 18-24      0.0      0.0       0.40       0.60
 
saturday    1 Metabolic  dynamic_p ocu  0- 7  0.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
saturday    2 Metabolic  dynamic_p ocu  7- 8  1.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
saturday    3 Metabolic  dynamic_p ocu  8- 9  1.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
saturday    4 Metabolic  dynamic_p ocu  9-12  1.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
saturday    5 Metabolic  dynamic_p ocu 12-14  1.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
saturday    6 Metabolic  dynamic_p ocu 14-17  1.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
saturday    7 Metabolic  dynamic_p ocu 17-24  0.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
saturday    8 Light      lighting  Wm2  0- 8      0.0      0.0       0.30       0.70
saturday    9 Light      lighting  Wm2  8-12     10.0      0.0       0.30       0.70
saturday   10 Light      lighting  Wm2 12-24      0.0      0.0       0.30       0.70
saturday   11 Equipment  equipment Wm2  0-24      0.0      0.0       0.40       0.60
 
sunday      1 Metabolic  dynamic_p ocu  0-24  0.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
sunday      2 Light      lighting  Wm2  0-24      0.0      0.0       0.30       0.70
sunday      3 Equipment  equipment Wm2  0-24      0.0      0.0       0.40       0.60
 
holiday     1 Metabolic  dynamic_p ocu  0-24  0.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
holiday     2 Light      lighting  Wm2  0-24      0.0      0.0       0.30       0.70
holiday     3 Equipment  equipment Wm2  0-24      0.0      0.0       0.40       0.60
 
winter_wkd  1 Metabolic  dynamic_p ocu  0- 7  0.00  0.00  0.00  1.40  1.10  1.00       0.60       0.40
winter_wkd  2 Metabolic  dynamic_p ocu  7- 8  1.00  0.00  0.00  1.40  1.10  1.00       0.60       0.40
winter_wkd  3 Metabolic  dynamic_p ocu  8- 9  1.00  1.00  0.00  1.40  1.10  1.00       0.60       0.40
winter_wkd  4 Metabolic  dynamic_p ocu  9-12  1.00  0.00  0.00  1.40  1.10  1.00       0.60       0.40
winter_wkd  5 Metabolic  dynamic_p ocu 12-14  1.00  0.00  0.00  1.40  1.10  1.00       0.60       0.40
winter_wkd  6 Metabolic  dynamic_p ocu 14-17  1.00  1.00  0.00  1.40  1.10  1.00       0.60       0.40
winter_wkd  7 Metabolic  dynamic_p ocu 17-24  0.00  0.00  0.00  1.40  1.10  1.00       0.60       0.40
winter_wkd  8 Light      lighting  Wm2  0- 8      0.0      0.0       0.30       0.70
winter_wkd  9 Light      lighting  Wm2  8-12     10.0      0.0       0.30       0.70
winter_wkd 10 Light      lighting  Wm2 18-24      0.0      0.0       0.30       0.70
winter_wkd 11 Equipment  equipment Wm2  0- 8      0.0      0.0       0.40       0.60
winter_wkd 12 Equipment  equipment Wm2  8-12      5.0      0.0       0.40       0.60
winter_wkd 13 Equipment  equipment Wm2 18-24      0.0      0.0       0.40       0.60
 
summer_wkd  1 Metabolic  dynamic_p ocu  0- 7  0.00  0.00  0.00  1.40  0.40  1.00       0.60       0.40
summer_wkd  2 Metabolic  dynamic_p ocu  7- 8  1.00  0.00  0.00  1.40  0.40  1.00       0.60       0.40
summer_wkd  3 Metabolic  dynamic_p ocu  8- 9  1.00  1.00  0.00  1.40  0.40  1.00       0.60       0.40
summer_wkd  4 Metabolic  dynamic_p ocu  9-12  1.00  0.00  0.00  1.40  0.40  1.00       0.60       0.40
summer_wkd  5 Metabolic  dynamic_p ocu 12-14  1.00  0.00  0.00  1.40  0.40  1.00       0.60       0.40
summer_wkd  6 Metabolic  dynamic_p ocu 14-17  1.00  1.00  0.00  1.40  0.40  1.00       0.60       0.40
summer_wkd  7 Metabolic  dynamic_p ocu 17-24  0.00  0.00  0.00  1.40  0.40  1.00       0.60       0.40
summer_wkd  8 Light      lighting  Wm2  0- 8      0.0      0.0       0.30       0.70
summer_wkd  9 Light      lighting  Wm2  8-12     10.0      0.0       0.30       0.70
summer_wkd 10 Light      lighting  Wm2 18-24      0.0      0.0       0.30       0.70
summer_wkd 11 Equipment  equipment Wm2  0- 8      0.0      0.0       0.40       0.60
summer_wkd 12 Equipment  equipment Wm2  8-12      5.0      0.0       0.40       0.60
summer_wkd 13 Equipment  equipment Wm2 18-24      0.0      0.0       0.40       0.60
 
 
 ____________________________________________________________
 
 Zone office_2node ( 4) is composed of 40 surfaces and 80 vertices.
 It encloses a volume of 40.3m^3 of space, with a total surface
 area of 85.4m^2 & approx floor area of 13.5m^2
 office_2node uses dynamic two node occupant model
 There is 9.0000m2 of exposed surface area, 9.0000m2 of which is vertical.
 Facade opaque is 3.6800m2 &   27.3 % of floor area & average U of 0.589 & UA of 2.1693.
 Facade glazing is 5.3200m2 &  39.4 % of floor &  59.1 % facade with average U of 2.811 & UA of 14.953
 Opaque partitions:ceiling:floor 42.668m2 & trasparent partitions:ceiling:floor 4.4800m2.
 
 A summary of the surfaces in office_2node( 4) follows:
 
 Sur| Area  |Azim|Elev|          Surface                           | construction             |environment
    | m^2   |deg |deg | name       |optical|locat| use             | name                     |other side
  1  13.5     90.   0. pt_general   OPAQUE   VERT -:-               gyp_gyp_ptn              ||< identical environment
  2  0.920   360.   0. part_frame   OPAQUE   VERT -:-               alum_hollow_frame        ||< part_fr_2n:corridor
  3  2.32      0.   0. door         OPAQUE   VERT DOOR:UNDERCUT     door                     ||< door_2n:corridor
  4  13.5    270.   0. pt_other     OPAQUE   VERT -:-               gyp_gyp_ptn              ||< pt_general:office_ash
  5  13.5      0.  90. ceiling      OPAQUE   CEIL -:-               ceiling                  ||< ceiling_2n:cl_void_bc
  6  13.5      0. -90. floor        OPAQUE   FLOR -:-               susp_flr_re              ||< identical environment
  7  2.70    180.   0. spandral     OPAQUE   VERT -:-               frc_rs_facade            ||< external
  8  0.980   180.   0. frame        OPAQUE   VERT F-FRAME:CRACK     alu_frame_U1.2           ||< external
  9  5.32    180.   0. glazing      DCF7671_ VERT C-WINDOW:CRACK    dbl_glz                  ||< external
 10  4.48      0.   0. part_glaz    SCF8783_ VERT -:-               single_glaz              ||< ash_glaze:corridor
 11  1.28    360.   0. ptn_corid    OPAQUE   VERT -:-               gyp_gyp_ptn              ||< door_fr_2n:corridor
 12  0.938     0.  90. adesk_t      OPAQUE   CEIL FURNI:-           corian_count             ||< adesk_t_:office_2node
 13  0.938     0. -90. adesk_t_     OPAQUE   FLOR FURNI:-           corian_count             ||< adesk_t:office_2node
 14  0.938     0.  90. bdesk_t      OPAQUE   CEIL FURNI:-           corian_count             ||< bdesk_t_:office_2node
 15  0.938     0. -90. bdesk_t_     OPAQUE   FLOR FURNI:-           corian_count             ||< bdesk_t:office_2node
 16  0.207     0.  90. cseat        OPAQUE   CEIL FURNI:-           upholstery               ||< cseat_:office_2node
 17  0.207     0. -90. cseat_       OPAQUE   FLOR FURNI:-           upholstery               ||< cseat:office_2node
 18  0.231   225.   6. cstback      OPAQUE   SLOP FURNI:-           upholstery               ||< cstback_:office_2node
 19  0.231    45.  -6. cstback_     OPAQUE   SLOP FURNI:-           upholstery               ||< cstback:office_2node
 20  0.207     0.  90. dseat        OPAQUE   CEIL FURNI:-           upholstery               ||< dseat_:office_2node
 21  0.207     0. -90. dseat_       OPAQUE   FLOR FURNI:-           upholstery               ||< dseat:office_2node
 22  0.231   190.   6. dstback      OPAQUE   SLOP FURNI:-           upholstery               ||< dstback_:office_2node
 23  0.231    10.  -6. dstback_     OPAQUE   SLOP FURNI:-           upholstery               ||< dstback:office_2node
 24  0.484   180.   0. ecab_lf      OPAQUE   VERT FURNI:-           steel_pl_3mm             ||< identical environment
 25  0.484   360.   0. ecab_rt      OPAQUE   VERT FURNI:-           steel_pl_3mm             ||< identical environment
 26  0.484    90.   0. ecab_fr      OPAQUE   VERT FURNI:-           file_papers              ||< identical environment
 27  0.484   270.   0. ecab_bk      OPAQUE   VERT FURNI:-           file_papers              ||< identical environment
 28  0.152     0. -90. ecab_to      OPAQUE   FLOR FURNI:-           steel_gr_3mm             ||< identical environment
 29  0.152     0.  90. ecab_bs      OPAQUE   CEIL FURNI:-           steel_gr_3mm             ||< identical environment
 30  0.500   180.   0. fbil_lft     OPAQUE   VERT FURNI:-           furn_wd10mm              ||< fbil_lft_:office_2node
 31  0.500     0.   0. fbil_lft_    OPAQUE   VERT FURNI:-           furn_wd10mm              ||< fbil_lft:office_2node
 32  0.500   180.   0. fbil_rt      OPAQUE   VERT FURNI:-           furn_wd10mm              ||< fbil_rt_:office_2node
 33  0.500   360.   0. fbil_rt_     OPAQUE   VERT FURNI:-           furn_wd10mm              ||< fbil_rt:office_2node
 34  1.55    270.   0. fbooks       OPAQUE   VERT FURNI:-           stuffonshelf             ||< fbooks_:office_2node
 35  1.55     90.   0. fbooks_      OPAQUE   VERT FURNI:-           stuffonshelf             ||< fbooks:office_2node
 36  0.148    90.   0. gcase        OPAQUE   VERT FURNI:-           IT_case                  ||< gcase_:office_2node
 37  0.148   270.   0. gcase_       OPAQUE   VERT FURNI:-           IT_case                  ||< gcase:office_2node
 38  0.123    90.  -0. gcircuit     OPAQUE   VERT FURNI:-           circuit_bd               ||< gcircuit_:office_2node
 39  0.123   270.   0. gcircuit_    OPAQUE   VERT FURNI:-           circuit_bd               ||< gcircuit:office_2node
 40  0.040     0.  90. grill_2n     OPAQUE   CEIL GRILL:INLET       steel_gr_3mm             ||< grill_2n:cl_void_bc
 
Surface      Width(m)   Height(m)  Above ffl...
door            0.80       2.90      0.00    DOOR
frame           3.00       2.10      0.90    F-FRAME
glazing         2.80       1.90      1.00    C-WINDOW
  
In office_2node        m^2     m^2 to   m^2 to  m^2 back  m^2 to  m^2 to
MLC name               total  ambient  other z  -to-back  ground  similar
gyp_gyp_ptn             28.3      0.0     14.8      0.0      0.0     13.5
door                     2.3      0.0      2.3      0.0      0.0      0.0
dbl_glz                  5.3      5.3      0.0      0.0      0.0      0.0
single_glaz              4.5      0.0      4.5      0.0      0.0      0.0
ceiling                 13.5      0.0     13.5      0.0      0.0      0.0
susp_flr_re             13.5      0.0      0.0      0.0      0.0     13.5
steel_pl_3mm             1.0      0.0      0.0      0.0      0.0      1.0
circuit_bd               0.1      0.0      0.0      0.1      0.0      0.0
upholstery               0.9      0.0      0.0      0.9      0.0      0.0
corian_count             1.9      0.0      0.0      1.9      0.0      0.0
IT_case                  0.1      0.0      0.0      0.1      0.0      0.0
furn_wd10mm              1.0      0.0      0.0      1.0      0.0      0.0
steel_gr_3mm             0.3      0.0      0.0      0.0      0.0      0.3
file_papers              1.0      0.0      0.0      0.0      0.0      1.0
stuffonshelf             1.5      0.0      0.0      1.5      0.0      0.0
alum_hollow_frame        0.9      0.0      0.9      0.0      0.0      0.0
alu_frame_U1.2           1.0      1.0      0.0      0.0      0.0      0.0
frc_rs_facade            2.7      2.7      0.0      0.0      0.0      0.0
 
 An hourly solar radiation distribution is used for this zone.
 Surfaces (all applicable) for shading analysis:
spandral frame glazing
 Insolation sources (all applicable):
glazing
 Explicit viewfactors have been derived for this zone.
Block  X-     Y-    Z-coords   DX-    DY-    DZ-values  Orientation   Opacity  Name  Construction
  1     6.2    -0.1     3.1     6.0     0.0     0.3     0.0     0.0 1.00 ob1 door
  2     6.2    -0.3     3.1     6.0     0.0     0.2     0.0     0.0 1.00 ob2 door
  3     6.2    -0.5     3.1     6.0     0.0     0.2     0.0     0.0 1.00 ob3 door
  4     6.2    -0.7     3.1     6.0     0.0     0.2     0.0     0.0 1.00 ob4 door
  5     6.2    -0.9     3.1     6.0     0.0     0.2     0.0     0.0 1.00 ob5 door
  6     6.2    -1.1     3.1     6.0     0.0     0.2     0.0     0.0 1.00 ob6 door
 
visual type name    composition        visual type name    composition
 vis 1rot  adesk_top  corian_count     vis 1rot  dl_arm_rest steel_gr_3mm
 vis 1rot  adesk_leg_a steel_pl_3mm    vis 1rot  droll_a sensor_case
 vis 1rot  adesk_leg_b steel_pl_3mm    vis 1rot  droll_b sensor_case
 vis 1rot  adesk_leg_c steel_pl_3mm    vis 1rot  droll_c sensor_case
 vis 1rot  adesk_leg_d steel_pl_3mm    vis 1rot  droll_d sensor_case
 vis 1rot  bdesk_top  corian_count     vis 1rot  ef_cabinet steel_pl_3mm
 vis 1rot  bdesk_leg_a steel_pl_3mm    vis 1rot  edrw_a steel_gr_3mm
 vis 1rot  bdesk_leg_b steel_pl_3mm    vis 1rot  edrw_b steel_gr_3mm
 vis 1rot  bdesk_leg_c steel_pl_3mm    vis 1rot  edrw_c steel_gr_3mm
 vis 1rot  bdesk_leg_d steel_pl_3mm    vis 1rot  edrw_d steel_gr_3mm
 vis 1rot  cseat      upholstery       vis 1rot  fleft_ver furn_wd10mm
 vis 1rot  cr_arm     upholstery       vis 1rot  fright_ver furn_wd10mm
 vis 1rot  cl_arm     upholstery       vis 1rot  fbil_bk furn_wd10mm
 vis 1rot  cl_arm     upholstery       vis 1rot  fbil_bk furn_wd10mm
 vis 1rot  ccross_a   steel_gr_3mm     vis 1rot  fshelf_b furn_wd10mm
 vis 1rot  ccross_b   steel_gr_3mm     vis 1rot  fshelf_c furn_wd10mm
 vis 1rot  cpost      PH_alu_frame     vis 1rot  fshelf_d furn_wd10mm
 vis 1rot  cr_arm_rest steel_gr_3mm    vis 1rot  fshelf_e furn_wd10mm
 vis 1rot  cl_arm_rest steel_gr_3mm    vis 1rot  fbil_top furn_wd10mm
 vis 1rot  croll_a    sensor_case      vis 1rot  fkick furn_wd10mm
 vis 1rot  croll_b    sensor_case      vis 1rot  flow_books stuffonshelf
 vis 1rot  croll_c    sensor_case      vis 1rot  f2nd_books stuffonshelf
 vis 1rot  croll_d    sensor_case      vis 1rot  f3rd_books booksonshlf
 vis 1rot  dseat      upholstery       vis 1rot  f4th_books booksonshlf
 vis 1rot  dr_arm     upholstery       vis 1rot  ftop_books booksonshlf
 vis 1rot  dl_arm     upholstery       vis 1rot  gdbase IT_case
 vis 1rot  dl_arm     upholstery       vis 1rot  gdbase IT_case
 vis 1rot  dcross_a   steel_gr_3mm     vis 1rot  gdlow_edge IT_case
 vis 1rot  dcross_b   steel_gr_3mm     vis 1rot  gdup_edge IT_case
 vis 1rot  dpost      PH_alu_frame     vis 1rot  gdlft_edge IT_case
 vis 1rot  dr_arm_rest steel_gr_3mm    vis 1rot  gdrt_edge IT_case
                                       vis 1rot  gdscreen   collector_pl
 
 Shading patterns have been calculated for this zone.
 
 Ventilation & infiltration is assessed via network analysis
 and the associated network node is: office_2node
 
Notes:
occupants via core-skin dynamic model.
 
Daytype   Gain Label     Type    Unit Period     Number of      Metabo-  Clo   Air   Radiant    Convec
          No.                         Hours  Men   Women Child  lic Rate Value Velo.  Fraction   Fraction
                                           Sensible  Latent     Radiant    Convec
          No.                              Magn.(W)  Magn.(W)   Fraction   Fraction
weekdays    1 Metabolic  dynamic_p ocu  0- 7  0.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
weekdays    2 Metabolic  dynamic_p ocu  7- 8  1.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
weekdays    3 Metabolic  dynamic_p ocu  8- 9  1.00  1.00  0.00  1.40  0.60  1.00       0.60       0.40
weekdays    4 Metabolic  dynamic_p ocu  9-12  1.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
weekdays    5 Metabolic  dynamic_p ocu 12-14  1.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
weekdays    6 Metabolic  dynamic_p ocu 14-17  1.00  1.00  0.00  1.40  0.60  1.00       0.60       0.40
weekdays    7 Metabolic  dynamic_p ocu 17-24  0.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
weekdays    8 Light      lighting  Wm2  0- 8      0.0      0.0       0.30       0.70
weekdays    9 Light      lighting  Wm2  8-12     10.0      0.0       0.30       0.70
weekdays   10 Light      lighting  Wm2 18-24      0.0      0.0       0.30       0.70
weekdays   11 Equipment  equipment Wm2  0- 8      0.0      0.0       0.40       0.60
weekdays   12 Equipment  equipment Wm2  8-12      5.0      0.0       0.40       0.60
weekdays   13 Equipment  equipment Wm2 18-24      0.0      0.0       0.40       0.60
 
saturday    1 Metabolic  dynamic_p ocu  0- 7  0.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
saturday    2 Metabolic  dynamic_p ocu  7- 8  1.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
saturday    3 Metabolic  dynamic_p ocu  8- 9  1.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
saturday    4 Metabolic  dynamic_p ocu  9-12  1.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
saturday    5 Metabolic  dynamic_p ocu 12-14  1.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
saturday    6 Metabolic  dynamic_p ocu 14-17  1.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
saturday    7 Metabolic  dynamic_p ocu 17-24  0.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
saturday    8 Light      lighting  Wm2  0- 8      0.0      0.0       0.30       0.70
saturday    9 Light      lighting  Wm2  8-12     10.0      0.0       0.30       0.70
saturday   10 Light      lighting  Wm2 12-24      0.0      0.0       0.30       0.70
saturday   11 Equipment  equipment Wm2  0-24      0.0      0.0       0.40       0.60
 
sunday      1 Metabolic  dynamic_p ocu  0-24  0.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
sunday      2 Light      lighting  Wm2  0-24      0.0      0.0       0.30       0.70
sunday      3 Equipment  equipment Wm2  0-24      0.0      0.0       0.40       0.60
 
holiday     1 Metabolic  dynamic_p ocu  0-24  0.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
holiday     2 Light      lighting  Wm2  0-24      0.0      0.0       0.30       0.70
holiday     3 Equipment  equipment Wm2  0-24      0.0      0.0       0.40       0.60
 
winter_wkd  1 Metabolic  dynamic_p ocu  0- 7  0.00  0.00  0.00  1.40  1.10  1.00       0.60       0.40
winter_wkd  2 Metabolic  dynamic_p ocu  7- 8  1.00  0.00  0.00  1.40  1.10  1.00       0.60       0.40
winter_wkd  3 Metabolic  dynamic_p ocu  8- 9  1.00  1.00  0.00  1.40  1.10  1.00       0.60       0.40
winter_wkd  4 Metabolic  dynamic_p ocu  9-12  1.00  0.00  0.00  1.40  1.10  1.00       0.60       0.40
winter_wkd  5 Metabolic  dynamic_p ocu 12-14  1.00  0.00  0.00  1.40  1.10  1.00       0.60       0.40
winter_wkd  6 Metabolic  dynamic_p ocu 14-17  1.00  1.00  0.00  1.40  1.10  1.00       0.60       0.40
winter_wkd  7 Metabolic  dynamic_p ocu 17-24  0.00  0.00  0.00  1.40  1.10  1.00       0.60       0.40
winter_wkd  8 Light      lighting  Wm2  0- 8      0.0      0.0       0.30       0.70
winter_wkd  9 Light      lighting  Wm2  8-12     10.0      0.0       0.30       0.70
winter_wkd 10 Light      lighting  Wm2 18-24      0.0      0.0       0.30       0.70
winter_wkd 11 Equipment  equipment Wm2  0- 8      0.0      0.0       0.40       0.60
winter_wkd 12 Equipment  equipment Wm2  8-12      5.0      0.0       0.40       0.60
winter_wkd 13 Equipment  equipment Wm2 18-24      0.0      0.0       0.40       0.60
 
summer_wkd  1 Metabolic  dynamic_p ocu  0- 7  0.00  0.00  0.00  1.40  0.40  1.00       0.60       0.40
summer_wkd  2 Metabolic  dynamic_p ocu  7- 8  1.00  0.00  0.00  1.40  0.40  1.00       0.60       0.40
summer_wkd  3 Metabolic  dynamic_p ocu  8- 9  1.00  1.00  0.00  1.40  0.40  1.00       0.60       0.40
summer_wkd  4 Metabolic  dynamic_p ocu  9-12  1.00  0.00  0.00  1.40  0.40  1.00       0.60       0.40
summer_wkd  5 Metabolic  dynamic_p ocu 12-14  1.00  0.00  0.00  1.40  0.40  1.00       0.60       0.40
summer_wkd  6 Metabolic  dynamic_p ocu 14-17  1.00  1.00  0.00  1.40  0.40  1.00       0.60       0.40
summer_wkd  7 Metabolic  dynamic_p ocu 17-24  0.00  0.00  0.00  1.40  0.40  1.00       0.60       0.40
summer_wkd  8 Light      lighting  Wm2  0- 8      0.0      0.0       0.30       0.70
summer_wkd  9 Light      lighting  Wm2  8-12     10.0      0.0       0.30       0.70
summer_wkd 10 Light      lighting  Wm2 18-24      0.0      0.0       0.30       0.70
summer_wkd 11 Equipment  equipment Wm2  0- 8      0.0      0.0       0.40       0.60
summer_wkd 12 Equipment  equipment Wm2  8-12      5.0      0.0       0.40       0.60
summer_wkd 13 Equipment  equipment Wm2 18-24      0.0      0.0       0.40       0.60
 
 
 ____________________________________________________________
 
 Zone corridor ( 5) is composed of 25 surfaces and 62 vertices.
 It encloses a volume of 36.9m^3 of space, with a total surface
 area of 104.m^2 & approx floor area of 14.6m^2
 corridor describes passage adjacent to offices
 Opaque partitions:ceiling:floor 30.380m2 & trasparent partitions:ceiling:floor 17.920m2.
 
 A summary of the surfaces in corridor( 5) follows:
 
 Sur| Area  |Azim|Elev|          Surface                           | construction             |environment
    | m^2   |deg |deg | name       |optical|locat| use             | name                     |other side
  1  3.00     90.   0. right        OPAQUE   VERT -:-               door                     ||< identical environment
  2  36.9      0.   0. wall         OPAQUE   VERT -:-               gyp_blk_ptn              ||< identical environment
  3  3.00    270.   0. left         OPAQUE   VERT -:-               door                     ||< identical environment
  4  12.1      0.  90. ceiling      OPAQUE   CEIL -:-               ceiling                  ||< ceiling_cor:cl_void_bc
  5  12.3      0. -90. floor        OPAQUE   FLOR -:-               single_glaz              ||< identical environment
  6  2.32    180.   0. door         OPAQUE   VERT DOOR:UNDERCUT     door                     ||< door:office_bc
  7  1.28    180.   0. ptn_corid    OPAQUE   VERT -:-               gyp_gyp_ptn              ||< ptn_corid:office_bc
  8  0.920   180.  -0. part_frame   OPAQUE   VERT -:-               alum_hollow_frame        ||< part_frame:office_bc
  9  4.48    180.   0. part_glaz    SCF8783_ VERT -:-               single_glaz              ||< part_glaz:office_bc
 10  0.300   180.   0. filler       OPAQUE   VERT -:-               gyp_gyp_ptn              ||< adiabatic
 11  0.920   180.   0. part_frm_e+  OPAQUE   VERT -:-               alum_hollow_frame        ||< part_frame:office_e+
 12  2.32    180.   0. door_e+      OPAQUE   VERT DOOR:UNDERCUT     door                     ||< door:office_e+
 13  1.28    180.   0. ptn_corid_e+ OPAQUE   VERT -:-               gyp_gyp_ptn              ||< ptn_corid:office_e+
 14  4.48    180.   0. glass_e+     SCF8783_ VERT -:-               single_glaz              ||< part_glaz:office_e+
 15  0.920   180.   0. part_fr_ash  OPAQUE   VERT -:-               alum_hollow_frame        ||< part_frame:office_ash
 16  2.32    180.   0. door_ash     OPAQUE   VERT DOOR:UNDERCUT     door                     ||< door:office_ash
 17  4.48    180.   0. glaz_ash     SCF8783_ VERT -:-               single_glaz              ||< part_glaz:office_ash
 18  1.43    180.   0. ptn_door_ash OPAQUE   VERT -:-               gyp_gyp_ptn              ||< ptn_corid:office_ash
 19  0.920   180.   0. part_fr_2n   OPAQUE   VERT -:-               alum_hollow_frame        ||< part_frame:office_2node
 20  4.48    180.   0. ash_glaze    SCF8783_ VERT -:-               single_glaz              ||< part_glaz:office_2node
 21  2.32    180.   0. door_2n      OPAQUE   VERT DOOR:UNDERCUT     door                     ||< door:office_2node
 22  1.13    180.   0. door_fr_2n   OPAQUE   VERT -:-               gyp_gyp_ptn              ||< ptn_corid:office_2node
 23  0.300   180.   0. filler_b     OPAQUE   VERT -:-               gyp_gyp_ptn              ||< adiabatic
 24  0.300   180.   0. filler_c     OPAQUE   VERT -:-               gyp_gyp_ptn              ||< adiabatic
 25  0.160     0.  90. cor_grill    OPAQUE   CEIL GRILL:OPEN        steel_gr_3mm             ||< cor_grill:cl_void_bc
 
Surface      Width(m)   Height(m)  Above ffl...
door            0.80       2.90      0.00    DOOR
door_e+         0.80       2.90      0.00    DOOR
door_ash        0.80       2.90      0.00    DOOR
door_2n         0.80       2.90      0.00    DOOR
  
In corridor            m^2     m^2 to   m^2 to  m^2 back  m^2 to  m^2 to
MLC name               total  ambient  other z  -to-back  ground  similar
gyp_blk_ptn             36.9      0.0      0.0      0.0      0.0     36.9
gyp_gyp_ptn              6.0      0.0      5.1      0.0      0.0      0.9
door                    15.3      0.0      9.3      0.0      0.0      6.0
single_glaz             30.2      0.0     17.9      0.0      0.0     12.3
ceiling                 12.1      0.0     12.1      0.0      0.0      0.0
steel_gr_3mm             0.2      0.0      0.2      0.0      0.0      0.0
alum_hollow_frame        3.7      0.0      3.7      0.0      0.0      0.0
 
 All surfaces will receive diffuse insolation (if shading not calculated).
 No shading analysis requested.
 No insolation analysis requested.
 
 Ventilation & infiltration is assessed via network analysis
 and the associated network node is: corridor
 
Notes:
half a person and 50-100W lighting weekdays 10W weekends with
electrical properties
 
Daytype   Gain Label     Type    Unit Period Sensible  Latent      Radiant    Convec
          No.                          Hours Magn.(W)  Magn.(W)    Fraction   Fraction
weekdays    1 Occupt     people    W    0- 8      0.0      0.0       0.60       0.40
weekdays    2 Occupt     people    W    8-20    100.0     50.0       0.60       0.40
weekdays    3 Occupt     people    W   20-24      0.0      0.0       0.60       0.40
weekdays    4 Lights     lighting  W    0- 8     50.0      0.0       0.30       0.70
weekdays    5 Lights     lighting  W    8-20    100.0      0.0       0.30       0.70
weekdays    6 Lights     lighting  W   20-24     50.0      0.0       0.30       0.70
 
saturday    1 Occupt     people    W    0- 8      0.0      0.0       0.60       0.40
saturday    2 Occupt     people    W    8-20    100.0     50.0       0.60       0.40
saturday    3 Occupt     people    W   20-24      0.0      0.0       0.60       0.40
saturday    4 Lights     lighting  W    0- 8      0.0      0.0       0.30       0.70
saturday    5 Lights     lighting  W    8-20     10.0      0.0       0.30       0.70
saturday    6 Lights     lighting  W   20-24      0.0      0.0       0.30       0.70
 
sunday      1 Occupt     people    W    0- 8      0.0      0.0       0.60       0.40
sunday      2 Occupt     people    W    8-20    100.0     50.0       0.60       0.40
sunday      3 Occupt     people    W   20-24      0.0      0.0       0.60       0.40
sunday      4 Lights     lighting  W    0- 8      0.0      0.0       0.30       0.70
sunday      5 Lights     lighting  W    8-20     10.0      0.0       0.30       0.70
sunday      6 Lights     lighting  W   20-24      0.0      0.0       0.30       0.70
 
holiday     1 Occupt     people    W    0-24      0.0      0.0       0.60       0.40
holiday     2 Lights     lighting  W    0-24      0.0      0.0       0.30       0.70
holiday     3 Equipt     equipment W    0-24      0.0      0.0       0.40       0.60
 
winter_wkd  1 Occupt     people    W    0- 8      0.0      0.0       0.60       0.40
winter_wkd  2 Occupt     people    W    8-20    100.0     50.0       0.60       0.40
winter_wkd  3 Occupt     people    W   20-24      0.0      0.0       0.60       0.40
winter_wkd  4 Lights     lighting  W    0- 8     50.0      0.0       0.30       0.70
winter_wkd  5 Lights     lighting  W    8-20    100.0      0.0       0.30       0.70
winter_wkd  6 Lights     lighting  W   20-24     50.0      0.0       0.30       0.70
 
summer_wkd  1 Occupt     people    W    0- 8      0.0      0.0       0.60       0.40
summer_wkd  2 Occupt     people    W    8-20    100.0     50.0       0.60       0.40
summer_wkd  3 Occupt     people    W   20-24      0.0      0.0       0.60       0.40
summer_wkd  4 Lights     lighting  W    0- 8     50.0      0.0       0.30       0.70
summer_wkd  5 Lights     lighting  W    8-20    100.0      0.0       0.30       0.70
summer_wkd  6 Lights     lighting  W   20-24     50.0      0.0       0.30       0.70
 
 
 ____________________________________________________________
 
 Zone mix_op_man ( 6) is composed of 6 surfaces and 8 vertices.
 It encloses a volume of 0.180m^3 of space, with a total surface
 area of 2.16m^2 & approx floor area of 0.600m^2
 mixing_box is a zonal representation of ahu
 Opaque partitions:ceiling:floor 2.1600m2.
 
 A summary of the surfaces in mix_op_man( 6) follows:
 
 Sur| Area  |Azim|Elev|          Surface                           | construction             |environment
    | m^2   |deg |deg | name       |optical|locat| use             | name                     |other side
  1  0.300   180.   0. mb_o_front   OPAQUE   VERT PARTN:-           tank_i_50mmi             ||< mb_o_front:cl_void_bc
  2  0.180    90.   0. mb_o_right   OPAQUE   VERT PARTN:-           tank_i_50mmi             ||< mb_o_right:cl_void_bc
  3  0.300     0.   0. mb_o_back    OPAQUE   VERT PARTN:-           tank_i_50mmi             ||< mb_o_back:cl_void_bc
  4  0.180   270.   0. mb_o_left    OPAQUE   VERT PARTN:-           tank_i_50mmi             ||< mb_o_left:cl_void_bc
  5  0.600     0.  90. mb_o_top     OPAQUE   CEIL -:-               tank_i_50mmi             ||< mb_o_top:cl_void_bc
  6  0.600     0. -90. mb_o_base    OPAQUE   FLOR -:-               tank_i_50mmi             ||< mb_o_base:cl_void_bc
 
  
In mix_op_man          m^2     m^2 to   m^2 to  m^2 back  m^2 to  m^2 to
MLC name               total  ambient  other z  -to-back  ground  similar
tank_i_50mmi             2.2      0.0      2.2      0.0      0.0      0.0
 
 All surfaces will receive diffuse insolation (if shading not calculated).
 No shading analysis requested.
 No insolation analysis requested.
 
 Ventilation & infiltration is assessed via network analysis
 and the associated network node is: mix_op_man
 
Notes:
nothing happens in the mixing box
 
Daytype   Gain Label     Type    Unit Period Sensible  Latent      Radiant    Convec
          No.                          Hours Magn.(W)  Magn.(W)    Fraction   Fraction
 
 ____________________________________________________________
 
 Zone off_bc_ctm ( 7) is composed of 40 surfaces and 80 vertices.
 It encloses a volume of 40.3m^3 of space, with a total surface
 area of 85.4m^2 & approx floor area of 13.5m^2
 off_bc_ctm as base case but with contaminate 8lps
 There is 9.0000m2 of exposed surface area, 9.0000m2 of which is vertical.
 Facade opaque is 3.6800m2 &   27.3 % of floor area & average U of 0.589 & UA of 2.1693.
 Facade glazing is 5.3200m2 &  39.4 % of floor &  59.1 % facade with average U of 2.811 & UA of 14.953
 Opaque partitions:ceiling:floor 56.168m2 & trasparent partitions:ceiling:floor 4.4800m2.
 
 A summary of the surfaces in off_bc_ctm( 7) follows:
 
 Sur| Area  |Azim|Elev|          Surface                           | construction             |environment
    | m^2   |deg |deg | name       |optical|locat| use             | name                     |other side
  1  13.5     90.   0. pt_general   OPAQUE   VERT -:-               gyp_gyp_ptn              ||< pt_other:off_e+_ctm
  2  0.920   360.   0. part_frame   OPAQUE   VERT -:-               alum_hollow_frame        ||< part_frame:corrodpr_m
  3  2.32      0.   0. door         OPAQUE   VERT DOOR:UNDERCUT     door                     ||< door:corrodpr_m
  4  13.5    270.   0. pt_other     OPAQUE   VERT -:-               gyp_gyp_ptn              ||< identical environment
  5  13.5      0.  90. ceiling      OPAQUE   CEIL -:-               ceiling                  ||< ceiling:cl_void_ctm
  6  13.5      0. -90. floor        OPAQUE   FLOR -:-               susp_flr_re              ||< floor_bc_ctm:cl_void_bc
  7  2.70    180.   0. spandral     OPAQUE   VERT -:-               frc_rs_facade            ||< external
  8  0.980   180.   0. frame        OPAQUE   VERT F-FRAME:CRACK     alu_frame_U1.2           ||< external
  9  5.32    180.   0. glazing      DCF7671_ VERT C-WINDOW:CRACK    dbl_glz                  ||< external
 10  4.48    360.   0. part_glaz    SCF8783_ VERT -:-               single_glaz              ||< part_glaz:corrodpr_m
 11  1.28      0.   0. ptn_corid    OPAQUE   VERT -:-               gyp_gyp_ptn              ||< ptn_corid:corrodpr_m
 12  0.938     0.  90. adesk_t      OPAQUE   CEIL FURNI:-           corian_count             ||< adesk_t_:off_bc_ctm
 13  0.938     0. -90. adesk_t_     OPAQUE   FLOR FURNI:-           corian_count             ||< adesk_t:off_bc_ctm
 14  0.938     0.  90. bdesk_t      OPAQUE   CEIL FURNI:-           corian_count             ||< bdesk_t_:off_bc_ctm
 15  0.938     0. -90. bdesk_t_     OPAQUE   FLOR FURNI:-           corian_count             ||< bdesk_t:off_bc_ctm
 16  0.207     0.  90. cseat        OPAQUE   CEIL FURNI:-           upholstery               ||< cseat_:off_bc_ctm
 17  0.207     0. -90. cseat_       OPAQUE   FLOR FURNI:-           upholstery               ||< cseat:off_bc_ctm
 18  0.231   225.   6. cstback      OPAQUE   SLOP FURNI:-           upholstery               ||< cstback_:off_bc_ctm
 19  0.231    45.  -6. cstback_     OPAQUE   SLOP FURNI:-           upholstery               ||< cstback:off_bc_ctm
 20  0.207     0.  90. dseat        OPAQUE   CEIL FURNI:-           upholstery               ||< dseat_:off_bc_ctm
 21  0.207     0. -90. dseat_       OPAQUE   FLOR FURNI:-           upholstery               ||< dseat:off_bc_ctm
 22  0.231   190.   6. dstback      OPAQUE   SLOP FURNI:-           upholstery               ||< dstback_:off_bc_ctm
 23  0.231    10.  -6. dstback_     OPAQUE   SLOP FURNI:-           upholstery               ||< dstback:off_bc_ctm
 24  0.484   180.   0. ecab_lf      OPAQUE   VERT FURNI:-           steel_pl_3mm             ||< identical environment
 25  0.484     0.   0. ecab_rt      OPAQUE   VERT FURNI:-           steel_pl_3mm             ||< identical environment
 26  0.484    90.   0. ecab_fr      OPAQUE   VERT FURNI:-           file_papers              ||< identical environment
 27  0.484   270.   0. ecab_bk      OPAQUE   VERT FURNI:-           file_papers              ||< identical environment
 28  0.152     0. -90. ecab_to      OPAQUE   FLOR FURNI:-           steel_gr_3mm             ||< identical environment
 29  0.152     0.  90. ecab_bs      OPAQUE   CEIL FURNI:-           steel_gr_3mm             ||< identical environment
 30  0.500   180.   0. fbil_lft     OPAQUE   VERT FURNI:-           furn_wd10mm              ||< fbil_lft_:off_bc_ctm
 31  0.500     0.   0. fbil_lft_    OPAQUE   VERT FURNI:-           furn_wd10mm              ||< fbil_lft:off_bc_ctm
 32  0.500   180.   0. fbil_rt      OPAQUE   VERT FURNI:-           furn_wd10mm              ||< fbil_rt_:off_bc_ctm
 33  0.500     0.   0. fbil_rt_     OPAQUE   VERT FURNI:-           furn_wd10mm              ||< fbil_rt:off_bc_ctm
 34  1.55    270.   0. fbooks       OPAQUE   VERT FURNI:-           stuffonshelf             ||< fbooks_:off_bc_ctm
 35  1.55     90.   0. fbooks_      OPAQUE   VERT FURNI:-           stuffonshelf             ||< fbooks:off_bc_ctm
 36  0.148    90.   0. gcase        OPAQUE   VERT FURNI:-           IT_case                  ||< gcase_:off_bc_ctm
 37  0.148   270.   0. gcase_       OPAQUE   VERT FURNI:-           IT_case                  ||< gcase:off_bc_ctm
 38  0.123    90.   0. gcircuit     OPAQUE   VERT FURNI:-           circuit_bd               ||< gcircuit_:off_bc_ctm
 39  0.123   270.   0. gcircuit_    OPAQUE   VERT FURNI:-           circuit_bd               ||< gcircuit:off_bc_ctm
 40  0.040     0.  90. grill        OPAQUE   CEIL GRILL:INLET       steel_gr_3mm             ||< grill_bc:cl_void_ctm
 
Surface      Width(m)   Height(m)  Above ffl...
door            0.80       2.90      0.00    DOOR
frame           3.00       2.10      0.90    F-FRAME
glazing         2.80       1.90      1.00    C-WINDOW
  
In off_bc_ctm          m^2     m^2 to   m^2 to  m^2 back  m^2 to  m^2 to
MLC name               total  ambient  other z  -to-back  ground  similar
gyp_gyp_ptn             28.3      0.0     14.8      0.0      0.0     13.5
door                     2.3      0.0      2.3      0.0      0.0      0.0
dbl_glz                  5.3      5.3      0.0      0.0      0.0      0.0
single_glaz              4.5      0.0      4.5      0.0      0.0      0.0
ceiling                 13.5      0.0     13.5      0.0      0.0      0.0
susp_flr_re             13.5      0.0     13.5      0.0      0.0      0.0
steel_pl_3mm             1.0      0.0      0.0      0.0      0.0      1.0
circuit_bd               0.1      0.0      0.0      0.1      0.0      0.0
upholstery               0.9      0.0      0.0      0.9      0.0      0.0
corian_count             1.9      0.0      0.0      1.9      0.0      0.0
IT_case                  0.1      0.0      0.0      0.1      0.0      0.0
furn_wd10mm              1.0      0.0      0.0      1.0      0.0      0.0
steel_gr_3mm             0.3      0.0      0.0      0.0      0.0      0.3
file_papers              1.0      0.0      0.0      0.0      0.0      1.0
stuffonshelf             1.6      0.0      0.0      1.6      0.0      0.0
alum_hollow_frame        0.9      0.0      0.9      0.0      0.0      0.0
alu_frame_U1.2           1.0      1.0      0.0      0.0      0.0      0.0
frc_rs_facade            2.7      2.7      0.0      0.0      0.0      0.0
 
 An hourly solar radiation distribution is used for this zone.
 Surfaces (all applicable) for shading analysis:
spandral frame glazing
 Insolation sources (all applicable):
glazing
 Explicit viewfactors have been derived for this zone.
Block  X-     Y-    Z-coords   DX-    DY-    DZ-values  Orientation   Opacity  Name  Construction
  1     0.0    -0.1     6.7     6.0     0.0     0.3     0.0     0.0 1.00 ob1 door
  2     0.0    -0.3     6.7     6.0     0.0     0.2     0.0     0.0 1.00 ob2 door
  3     0.0    -0.5     6.7     6.0     0.0     0.2     0.0     0.0 1.00 ob3 door
  4     0.0    -0.7     6.7     6.0     0.0     0.2     0.0     0.0 1.00 ob4 door
  5     0.0    -0.9     6.7     6.0     0.0     0.2     0.0     0.0 1.00 ob5 door
  6     0.0    -1.1     6.7     6.0     0.0     0.2     0.0     0.0 1.00 ob6 door
 
visual type name    composition        visual type name    composition
 vis 1rot  adesk_top  corian_count     vis 1rot  dl_arm_rest steel_gr_3mm
 vis 1rot  adesk_leg_a steel_pl_3mm    vis 1rot  droll_a sensor_case
 vis 1rot  adesk_leg_b steel_pl_3mm    vis 1rot  droll_b sensor_case
 vis 1rot  adesk_leg_c steel_pl_3mm    vis 1rot  droll_c sensor_case
 vis 1rot  adesk_leg_d steel_pl_3mm    vis 1rot  droll_d sensor_case
 vis 1rot  bdesk_top  corian_count     vis 1rot  ef_cabinet steel_pl_3mm
 vis 1rot  bdesk_leg_a steel_pl_3mm    vis 1rot  edrw_a steel_gr_3mm
 vis 1rot  bdesk_leg_b steel_pl_3mm    vis 1rot  edrw_b steel_gr_3mm
 vis 1rot  bdesk_leg_c steel_pl_3mm    vis 1rot  edrw_c steel_gr_3mm
 vis 1rot  bdesk_leg_d steel_pl_3mm    vis 1rot  edrw_d steel_gr_3mm
 vis 1rot  cseat      upholstery       vis 1rot  fleft_ver furn_wd10mm
 vis 1rot  cr_arm     upholstery       vis 1rot  fright_ver furn_wd10mm
 vis 1rot  cl_arm     upholstery       vis 1rot  fbil_bk furn_wd10mm
 vis 1rot  cl_arm     upholstery       vis 1rot  fbil_bk furn_wd10mm
 vis 1rot  ccross_a   steel_gr_3mm     vis 1rot  fshelf_b furn_wd10mm
 vis 1rot  ccross_b   steel_gr_3mm     vis 1rot  fshelf_c furn_wd10mm
 vis 1rot  cpost      PH_alu_frame     vis 1rot  fshelf_d furn_wd10mm
 vis 1rot  cr_arm_rest steel_gr_3mm    vis 1rot  fshelf_e furn_wd10mm
 vis 1rot  cl_arm_rest steel_gr_3mm    vis 1rot  fbil_top furn_wd10mm
 vis 1rot  croll_a    sensor_case      vis 1rot  fkick furn_wd10mm
 vis 1rot  croll_b    sensor_case      vis 1rot  flow_books stuffonshelf
 vis 1rot  croll_c    sensor_case      vis 1rot  f2nd_books stuffonshelf
 vis 1rot  croll_d    sensor_case      vis 1rot  f3rd_books booksonshlf
 vis 1rot  dseat      upholstery       vis 1rot  f4th_books booksonshlf
 vis 1rot  dr_arm     upholstery       vis 1rot  ftop_books booksonshlf
 vis 1rot  dl_arm     upholstery       vis 1rot  gdbase IT_case
 vis 1rot  dl_arm     upholstery       vis 1rot  gdbase IT_case
 vis 1rot  dcross_a   steel_gr_3mm     vis 1rot  gdlow_edge IT_case
 vis 1rot  dcross_b   steel_gr_3mm     vis 1rot  gdup_edge IT_case
 vis 1rot  dpost      PH_alu_frame     vis 1rot  gdlft_edge IT_case
 vis 1rot  dr_arm_rest steel_gr_3mm    vis 1rot  gdrt_edge IT_case
                                       vis 1rot  gdscreen   collector_pl
 
 Shading patterns have been calculated for this zone.
 
 Ventilation & infiltration is assessed via network analysis
 and the associated network node is: off_bc_ctm
 
Notes:
office with diversity of occupancy (half time 2nd occupant) lights at
10W/m2 and small power on weekdays at 5W/m2 standby light & power on
holidays. Uses simple occupant definitions.
 
Daytype   Gain Label     Type    Unit Period Sensible  Latent      Radiant    Convec
          No.                          Hours Magn.(W)  Magn.(W)    Fraction   Fraction
weekdays    1 Occupt     people    W    0- 7      0.0      0.0       0.60       0.40
weekdays    2 Occupt     people    W    7- 8     20.0     10.0       0.60       0.40
weekdays    3 Occupt     people    W    8- 9     60.0     30.0       0.60       0.40
weekdays    4 Occupt     people    W    9-12    100.0     50.0       0.60       0.40
weekdays    5 Occupt     people    W   12-14     65.0     32.5       0.60       0.40
weekdays    6 Occupt     people    W   14-17    150.0     75.0       0.60       0.40
weekdays    7 Occupt     people    W   17-24      0.0      0.0       0.50       0.50
weekdays    8 Lights     lighting  Wm2  0- 8      0.0      0.0       0.50       0.50
weekdays    9 Lights     lighting  Wm2  8-18     10.0      0.0       0.30       0.70
weekdays   10 Lights     lighting  Wm2 18-24      0.0      0.0       0.50       0.50
weekdays   11 Equipt     equipment Wm2  0- 8      0.0      0.0       0.50       0.50
weekdays   12 Equipt     equipment Wm2  8-14      5.0      0.0       0.40       0.60
weekdays   13 Equipt     equipment Wm2 14-18      8.0      0.0       0.40       0.60
weekdays   14 Equipt     equipment Wm2 18-24      0.0      0.0       0.50       0.50
 
saturday    1 Occupt     people    W    0- 7      0.0      0.0       0.50       0.50
saturday    2 Occupt     people    W    7- 8     20.0     10.0       0.60       0.40
saturday    3 Occupt     people    W    8- 9     60.0     30.0       0.60       0.40
saturday    4 Occupt     people    W    9-12    160.0     80.0       0.60       0.40
saturday    5 Occupt     people    W   12-14     65.0     32.5       0.60       0.40
saturday    6 Occupt     people    W   14-17    100.0     50.0       0.60       0.40
saturday    7 Occupt     people    W   17-24      0.0      0.0       0.60       0.40
saturday    8 Lights     lighting  Wm2  0- 8      0.0      0.0       0.50       0.50
saturday    9 Lights     lighting  Wm2  8-12     10.0      0.0       0.30       0.70
saturday   10 Lights     lighting  Wm2 12-24      0.0      0.0       0.50       0.50
saturday   11 Equipt     equipment Wm2  0- 9      2.0      0.0       0.50       0.50
saturday   12 Equipt     equipment Wm2  9-14      5.0      0.0       0.50       0.50
saturday   13 Equipt     equipment Wm2 14-24      0.0      0.0       0.50       0.50
 
sunday      1 Occupt     people    W    0-24      0.0      0.0       0.60       0.40
sunday      2 Lights     lighting  Wm2  0-24      1.0      0.0       0.50       0.50
sunday      3 Equipt     equipment Wm2  0-24      2.0      0.0       0.50       0.50
 
holiday     1 Occupt     people    W    0-24      0.0      0.0       0.60       0.40
holiday     2 Lights     lighting  Wm2  0-24      1.0      0.0       0.30       0.70
holiday     3 Equipt     equipment Wm2  0-24      2.0      0.0       0.50       0.50
 
winter_wkd  1 Occupt     people    W    0- 7      0.0      0.0       0.60       0.40
winter_wkd  2 Occupt     people    W    7- 8     20.0     10.0       0.60       0.40
winter_wkd  3 Occupt     people    W    8- 9     60.0     30.0       0.60       0.40
winter_wkd  4 Occupt     people    W    9-12    100.0     50.0       0.60       0.40
winter_wkd  5 Occupt     people    W   12-14     65.0     32.5       0.60       0.40
winter_wkd  6 Occupt     people    W   14-17    150.0     75.0       0.60       0.40
winter_wkd  7 Occupt     people    W   17-24      0.0      0.0       0.50       0.50
winter_wkd  8 Lights     lighting  Wm2  0- 8      0.0      0.0       0.50       0.50
winter_wkd  9 Lights     lighting  Wm2  8-18     10.0      0.0       0.30       0.70
winter_wkd 10 Lights     lighting  Wm2 18-24      0.0      0.0       0.50       0.50
winter_wkd 11 Equipt     equipment Wm2  0- 8      0.0      0.0       0.50       0.50
winter_wkd 12 Equipt     equipment Wm2  8-14      5.0      0.0       0.40       0.60
winter_wkd 13 Equipt     equipment Wm2 14-18      8.0      0.0       0.40       0.60
winter_wkd 14 Equipt     equipment Wm2 18-24      0.0      0.0       0.50       0.50
 
summer_wkd  1 Occupt     people    W    0- 7      0.0      0.0       0.60       0.40
summer_wkd  2 Occupt     people    W    7- 8     20.0     10.0       0.60       0.40
summer_wkd  3 Occupt     people    W    8- 9     60.0     30.0       0.60       0.40
summer_wkd  4 Occupt     people    W    9-12    100.0     50.0       0.60       0.40
summer_wkd  5 Occupt     people    W   12-14     65.0     32.5       0.60       0.40
summer_wkd  6 Occupt     people    W   14-17    150.0     75.0       0.60       0.40
summer_wkd  7 Occupt     people    W   17-24      0.0      0.0       0.50       0.50
summer_wkd  8 Lights     lighting  Wm2  0- 8      0.0      0.0       0.50       0.50
summer_wkd  9 Lights     lighting  Wm2  8-18     10.0      0.0       0.30       0.70
summer_wkd 10 Lights     lighting  Wm2 18-24      0.0      0.0       0.50       0.50
summer_wkd 11 Equipt     equipment Wm2  0- 8      0.0      0.0       0.50       0.50
summer_wkd 12 Equipt     equipment Wm2  8-14      5.0      0.0       0.40       0.60
summer_wkd 13 Equipt     equipment Wm2 14-18      8.0      0.0       0.40       0.60
summer_wkd 14 Equipt     equipment Wm2 18-24      0.0      0.0       0.50       0.50
 
 
 ____________________________________________________________
 
 Zone off_e+_ctm ( 8) is composed of 40 surfaces and 80 vertices.
 It encloses a volume of 40.3m^3 of space, with a total surface
 area of 85.4m^2 & approx floor area of 13.5m^2
 off_e+_ctm with e+ occupant model and contaminate 8lpp
 There is 9.0000m2 of exposed surface area, 9.0000m2 of which is vertical.
 Facade opaque is 3.6800m2 &   27.3 % of floor area & average U of 0.589 & UA of 2.1693.
 Facade glazing is 5.3200m2 &  39.4 % of floor &  59.1 % facade with average U of 2.811 & UA of 14.953
 Opaque partitions:ceiling:floor 69.668m2 & trasparent partitions:ceiling:floor 4.4800m2.
 
 A summary of the surfaces in off_e+_ctm( 8) follows:
 
 Sur| Area  |Azim|Elev|          Surface                           | construction             |environment
    | m^2   |deg |deg | name       |optical|locat| use             | name                     |other side
  1  13.5     90.   0. pt_general   OPAQUE   VERT -:-               gyp_gyp_ptn              ||< pt_other:off_ash_ctm
  2  0.920   360.   0. part_frame   OPAQUE   VERT -:-               alum_hollow_frame        ||< part_frm_e+:corrodpr_m
  3  2.32      0.   0. door         OPAQUE   VERT DOOR:UNDERCUT     door                     ||< door_e+:corrodpr_m
  4  13.5    270.   0. pt_other     OPAQUE   VERT -:-               gyp_gyp_ptn              ||< pt_general:off_bc_ctm
  5  13.5      0.  90. ceiling      OPAQUE   CEIL -:-               ceiling                  ||< ceiling_e+:cl_void_ctm
  6  13.5      0. -90. floor        OPAQUE   FLOR -:-               susp_flr_re              ||< floor_e+_ctm:cl_void_bc
  7  2.70    180.   0. spandral     OPAQUE   VERT -:-               frc_rs_facade            ||< external
  8  0.980   180.   0. frame        OPAQUE   VERT F-FRAME:CRACK     alu_frame_U1.2           ||< external
  9  5.32    180.   0. glazing      DCF7671_ VERT C-WINDOW:CRACK    dbl_glz                  ||< external
 10  4.48    360.   0. part_glaz    SCF8783_ VERT -:-               single_glaz              ||< glass_e+:corrodpr_m
 11  1.28      0.   0. ptn_corid    OPAQUE   VERT -:-               gyp_gyp_ptn              ||< ptn_corid_e+:corrodpr_m
 12  0.938     0.  90. adesk_t      OPAQUE   CEIL FURNI:-           corian_count             ||< adesk_t_:off_e+_ctm
 13  0.938     0. -90. adesk_t_     OPAQUE   FLOR FURNI:-           corian_count             ||< adesk_t:off_e+_ctm
 14  0.938     0.  90. bdesk_t      OPAQUE   CEIL FURNI:-           corian_count             ||< bdesk_t_:off_e+_ctm
 15  0.938     0. -90. bdesk_t_     OPAQUE   FLOR FURNI:-           corian_count             ||< bdesk_t:off_e+_ctm
 16  0.207     0.  90. cseat        OPAQUE   CEIL FURNI:-           upholstery               ||< cseat_:off_e+_ctm
 17  0.207     0. -90. cseat_       OPAQUE   FLOR FURNI:-           upholstery               ||< cseat:off_e+_ctm
 18  0.231   225.   6. cstback      OPAQUE   SLOP FURNI:-           upholstery               ||< cstback_:off_e+_ctm
 19  0.231    45.  -6. cstback_     OPAQUE   SLOP FURNI:-           upholstery               ||< cstback:off_e+_ctm
 20  0.207     0.  90. dseat        OPAQUE   CEIL FURNI:-           upholstery               ||< dseat_:off_e+_ctm
 21  0.207     0. -90. dseat_       OPAQUE   FLOR FURNI:-           upholstery               ||< dseat:off_e+_ctm
 22  0.231   190.   6. dstback      OPAQUE   SLOP FURNI:-           upholstery               ||< dstback_:off_e+_ctm
 23  0.231    10.  -6. dstback_     OPAQUE   SLOP FURNI:-           upholstery               ||< dstback:off_e+_ctm
 24  0.484   180.   0. ecab_lf      OPAQUE   VERT FURNI:-           steel_pl_3mm             ||< identical environment
 25  0.484     0.   0. ecab_rt      OPAQUE   VERT FURNI:-           steel_pl_3mm             ||< identical environment
 26  0.484    90.   0. ecab_fr      OPAQUE   VERT FURNI:-           file_papers              ||< identical environment
 27  0.484   270.   0. ecab_bk      OPAQUE   VERT FURNI:-           file_papers              ||< identical environment
 28  0.152     0. -90. ecab_to      OPAQUE   FLOR FURNI:-           steel_gr_3mm             ||< identical environment
 29  0.152     0.  90. ecab_bs      OPAQUE   CEIL FURNI:-           steel_gr_3mm             ||< identical environment
 30  0.500   180.   0. fbil_lft     OPAQUE   VERT FURNI:-           furn_wd10mm              ||< fbil_lft_:off_e+_ctm
 31  0.500     0.   0. fbil_lft_    OPAQUE   VERT FURNI:-           furn_wd10mm              ||< fbil_lft:off_e+_ctm
 32  0.500   180.   0. fbil_rt      OPAQUE   VERT FURNI:-           furn_wd10mm              ||< fbil_rt_:off_e+_ctm
 33  0.500     0.   0. fbil_rt_     OPAQUE   VERT FURNI:-           furn_wd10mm              ||< fbil_rt:off_e+_ctm
 34  1.55    270.   0. fbooks       OPAQUE   VERT FURNI:-           stuffonshelf             ||< fbooks_:off_e+_ctm
 35  1.55     90.   0. fbooks_      OPAQUE   VERT FURNI:-           stuffonshelf             ||< fbooks:off_e+_ctm
 36  0.148    90.   0. gcase        OPAQUE   VERT FURNI:-           IT_case                  ||< gcase_:off_e+_ctm
 37  0.148   270.   0. gcase_       OPAQUE   VERT FURNI:-           IT_case                  ||< gcase:off_e+_ctm
 38  0.123    90.   0. gcircuit     OPAQUE   VERT FURNI:-           circuit_bd               ||< gcircuit_:off_e+_ctm
 39  0.123   270.   0. gcircuit_    OPAQUE   VERT FURNI:-           circuit_bd               ||< gcircuit:off_e+_ctm
 40  0.040     0.  90. grill        OPAQUE   CEIL GRILL:INLET       steel_gr_3mm             ||< grill_e+:cl_void_ctm
 
Surface      Width(m)   Height(m)  Above ffl...
door            0.80       2.90      0.00    DOOR
frame           3.00       2.10      0.90    F-FRAME
glazing         2.80       1.90      1.00    C-WINDOW
 There are   1 edges which are not bounded (zone might be incomplete)
  
In off_e+_ctm          m^2     m^2 to   m^2 to  m^2 back  m^2 to  m^2 to
MLC name               total  ambient  other z  -to-back  ground  similar
gyp_gyp_ptn             28.3      0.0     28.3      0.0      0.0      0.0
door                     2.3      0.0      2.3      0.0      0.0      0.0
dbl_glz                  5.3      5.3      0.0      0.0      0.0      0.0
single_glaz              4.5      0.0      4.5      0.0      0.0      0.0
ceiling                 13.5      0.0     13.5      0.0      0.0      0.0
susp_flr_re             13.5      0.0     13.5      0.0      0.0      0.0
steel_pl_3mm             1.0      0.0      0.0      0.0      0.0      1.0
circuit_bd               0.1      0.0      0.0      0.1      0.0      0.0
upholstery               0.9      0.0      0.0      0.9      0.0      0.0
corian_count             1.9      0.0      0.0      1.9      0.0      0.0
IT_case                  0.1      0.0      0.0      0.1      0.0      0.0
furn_wd10mm              1.0      0.0      0.0      1.0      0.0      0.0
steel_gr_3mm             0.3      0.0      0.0      0.0      0.0      0.3
file_papers              1.0      0.0      0.0      0.0      0.0      1.0
stuffonshelf             1.6      0.0      0.0      1.6      0.0      0.0
alum_hollow_frame        0.9      0.0      0.9      0.0      0.0      0.0
alu_frame_U1.2           1.0      1.0      0.0      0.0      0.0      0.0
frc_rs_facade            2.7      2.7      0.0      0.0      0.0      0.0
 
 An hourly solar radiation distribution is used for this zone.
 Surfaces (all applicable) for shading analysis:
spandral frame glazing
 Insolation sources (all applicable):
glazing
 Explicit viewfactors have been derived for this zone.
Block  X-     Y-    Z-coords   DX-    DY-    DZ-values  Orientation   Opacity  Name  Construction
  1     3.1    -0.1     6.7     6.0     0.0     0.3     0.0     0.0 1.00 ob1 door
  2     3.1    -0.3     6.7     6.0     0.0     0.2     0.0     0.0 1.00 ob2 door
  3     3.1    -0.5     6.7     6.0     0.0     0.2     0.0     0.0 1.00 ob3 door
  4     3.1    -0.7     6.7     6.0     0.0     0.2     0.0     0.0 1.00 ob4 door
  5     3.1    -0.9     6.7     6.0     0.0     0.2     0.0     0.0 1.00 ob5 door
  6     3.1    -1.1     6.7     6.0     0.0     0.2     0.0     0.0 1.00 ob6 door
 
visual type name    composition        visual type name    composition
 vis 1rot  adesk_top  corian_count     vis 1rot  dl_arm_rest steel_gr_3mm
 vis 1rot  adesk_leg_a steel_pl_3mm    vis 1rot  droll_a sensor_case
 vis 1rot  adesk_leg_b steel_pl_3mm    vis 1rot  droll_b sensor_case
 vis 1rot  adesk_leg_c steel_pl_3mm    vis 1rot  droll_c sensor_case
 vis 1rot  adesk_leg_d steel_pl_3mm    vis 1rot  droll_d sensor_case
 vis 1rot  bdesk_top  corian_count     vis 1rot  ef_cabinet steel_pl_3mm
 vis 1rot  bdesk_leg_a steel_pl_3mm    vis 1rot  edrw_a steel_gr_3mm
 vis 1rot  bdesk_leg_b steel_pl_3mm    vis 1rot  edrw_b steel_gr_3mm
 vis 1rot  bdesk_leg_c steel_pl_3mm    vis 1rot  edrw_c steel_gr_3mm
 vis 1rot  bdesk_leg_d steel_pl_3mm    vis 1rot  edrw_d steel_gr_3mm
 vis 1rot  cseat      upholstery       vis 1rot  fleft_ver furn_wd10mm
 vis 1rot  cr_arm     upholstery       vis 1rot  fright_ver furn_wd10mm
 vis 1rot  cl_arm     upholstery       vis 1rot  fbil_bk furn_wd10mm
 vis 1rot  cl_arm     upholstery       vis 1rot  fbil_bk furn_wd10mm
 vis 1rot  ccross_a   steel_gr_3mm     vis 1rot  fshelf_b furn_wd10mm
 vis 1rot  ccross_b   steel_gr_3mm     vis 1rot  fshelf_c furn_wd10mm
 vis 1rot  cpost      PH_alu_frame     vis 1rot  fshelf_d furn_wd10mm
 vis 1rot  cr_arm_rest steel_gr_3mm    vis 1rot  fshelf_e furn_wd10mm
 vis 1rot  cl_arm_rest steel_gr_3mm    vis 1rot  fbil_top furn_wd10mm
 vis 1rot  croll_a    sensor_case      vis 1rot  fkick furn_wd10mm
 vis 1rot  croll_b    sensor_case      vis 1rot  flow_books stuffonshelf
 vis 1rot  croll_c    sensor_case      vis 1rot  f2nd_books stuffonshelf
 vis 1rot  croll_d    sensor_case      vis 1rot  f3rd_books booksonshlf
 vis 1rot  dseat      upholstery       vis 1rot  f4th_books booksonshlf
 vis 1rot  dr_arm     upholstery       vis 1rot  ftop_books booksonshlf
 vis 1rot  dl_arm     upholstery       vis 1rot  gdbase IT_case
 vis 1rot  dl_arm     upholstery       vis 1rot  gdbase IT_case
 vis 1rot  dcross_a   steel_gr_3mm     vis 1rot  gdlow_edge IT_case
 vis 1rot  dcross_b   steel_gr_3mm     vis 1rot  gdup_edge IT_case
 vis 1rot  dpost      PH_alu_frame     vis 1rot  gdlft_edge IT_case
 vis 1rot  dr_arm_rest steel_gr_3mm    vis 1rot  gdrt_edge IT_case
                                       vis 1rot  gdscreen   collector_pl
 
 Shading patterns have been calculated for this zone.
 
 Ventilation & infiltration is assessed via network analysis
 and the associated network node is: off_e+_ctm
 
Notes:
dynamic occupancy via energyplus polynomial technique
 
Daytype   Gain Label     Type    Unit Period     Number of      Metabo-  Clo   Air   Radiant    Convec
          No.                         Hours  Men   Women Child  lic Rate Value Velo.  Fraction   Fraction
                                           Sensible  Latent     Radiant    Convec
          No.                              Magn.(W)  Magn.(W)   Fraction   Fraction
weekdays    1 Metabolic  dynamic_p ocu  0- 7  0.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
weekdays    2 Metabolic  dynamic_p ocu  7- 8  1.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
weekdays    3 Metabolic  dynamic_p ocu  8- 9  1.00  1.00  0.00  1.40  0.60  1.00       0.60       0.40
weekdays    4 Metabolic  dynamic_p ocu  9-12  1.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
weekdays    5 Metabolic  dynamic_p ocu 12-14  1.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
weekdays    6 Metabolic  dynamic_p ocu 14-17  1.00  1.00  0.00  1.40  0.60  1.00       0.60       0.40
weekdays    7 Metabolic  dynamic_p ocu 17-24  0.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
weekdays    8 Light      lighting  Wm2  0- 8      0.0      0.0       0.30       0.70
weekdays    9 Light      lighting  Wm2  8-12     10.0      0.0       0.30       0.70
weekdays   10 Light      lighting  Wm2 18-24      0.0      0.0       0.30       0.70
weekdays   11 Equipment  equipment Wm2  0- 8      0.0      0.0       0.40       0.60
weekdays   12 Equipment  equipment Wm2  8-12      5.0      0.0       0.40       0.60
weekdays   13 Equipment  equipment Wm2 18-24      0.0      0.0       0.40       0.60
 
saturday    1 Metabolic  dynamic_p ocu  0- 7  0.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
saturday    2 Metabolic  dynamic_p ocu  7- 8  1.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
saturday    3 Metabolic  dynamic_p ocu  8- 9  1.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
saturday    4 Metabolic  dynamic_p ocu  9-12  1.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
saturday    5 Metabolic  dynamic_p ocu 12-14  1.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
saturday    6 Metabolic  dynamic_p ocu 14-17  1.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
saturday    7 Metabolic  dynamic_p ocu 17-24  0.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
saturday    8 Light      lighting  Wm2  0- 8      0.0      0.0       0.30       0.70
saturday    9 Light      lighting  Wm2  8-12     10.0      0.0       0.30       0.70
saturday   10 Light      lighting  Wm2 12-24      0.0      0.0       0.30       0.70
saturday   11 Equipment  equipment Wm2  0-24      0.0      0.0       0.40       0.60
 
sunday      1 Metabolic  dynamic_p ocu  0-24  0.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
sunday      2 Light      lighting  Wm2  0-24      0.0      0.0       0.30       0.70
sunday      3 Equipment  equipment Wm2  0-24      0.0      0.0       0.40       0.60
 
holiday     1 Metabolic  dynamic_p ocu  0-24  0.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
holiday     2 Light      lighting  Wm2  0-24      0.0      0.0       0.30       0.70
holiday     3 Equipment  equipment Wm2  0-24      0.0      0.0       0.40       0.60
 
winter_wkd  1 Metabolic  dynamic_p ocu  0- 7  0.00  0.00  0.00  1.40  1.10  1.00       0.60       0.40
winter_wkd  2 Metabolic  dynamic_p ocu  7- 8  1.00  0.00  0.00  1.40  1.10  1.00       0.60       0.40
winter_wkd  3 Metabolic  dynamic_p ocu  8- 9  1.00  1.00  0.00  1.40  1.10  1.00       0.60       0.40
winter_wkd  4 Metabolic  dynamic_p ocu  9-12  1.00  0.00  0.00  1.40  1.10  1.00       0.60       0.40
winter_wkd  5 Metabolic  dynamic_p ocu 12-14  1.00  0.00  0.00  1.40  1.10  1.00       0.60       0.40
winter_wkd  6 Metabolic  dynamic_p ocu 14-17  1.00  1.00  0.00  1.40  1.10  1.00       0.60       0.40
winter_wkd  7 Metabolic  dynamic_p ocu 17-24  0.00  0.00  0.00  1.40  1.10  1.00       0.60       0.40
winter_wkd  8 Light      lighting  Wm2  0- 8      0.0      0.0       0.30       0.70
winter_wkd  9 Light      lighting  Wm2  8-12     10.0      0.0       0.30       0.70
winter_wkd 10 Light      lighting  Wm2 18-24      0.0      0.0       0.30       0.70
winter_wkd 11 Equipment  equipment Wm2  0- 8      0.0      0.0       0.40       0.60
winter_wkd 12 Equipment  equipment Wm2  8-12      5.0      0.0       0.40       0.60
winter_wkd 13 Equipment  equipment Wm2 18-24      0.0      0.0       0.40       0.60
 
summer_wkd  1 Metabolic  dynamic_p ocu  0- 7  0.00  0.00  0.00  1.40  0.40  1.00       0.60       0.40
summer_wkd  2 Metabolic  dynamic_p ocu  7- 8  1.00  0.00  0.00  1.40  0.40  1.00       0.60       0.40
summer_wkd  3 Metabolic  dynamic_p ocu  8- 9  1.00  1.00  0.00  1.40  0.40  1.00       0.60       0.40
summer_wkd  4 Metabolic  dynamic_p ocu  9-12  1.00  0.00  0.00  1.40  0.40  1.00       0.60       0.40
summer_wkd  5 Metabolic  dynamic_p ocu 12-14  1.00  0.00  0.00  1.40  0.40  1.00       0.60       0.40
summer_wkd  6 Metabolic  dynamic_p ocu 14-17  1.00  1.00  0.00  1.40  0.40  1.00       0.60       0.40
summer_wkd  7 Metabolic  dynamic_p ocu 17-24  0.00  0.00  0.00  1.40  0.40  1.00       0.60       0.40
summer_wkd  8 Light      lighting  Wm2  0- 8      0.0      0.0       0.30       0.70
summer_wkd  9 Light      lighting  Wm2  8-12     10.0      0.0       0.30       0.70
summer_wkd 10 Light      lighting  Wm2 18-24      0.0      0.0       0.30       0.70
summer_wkd 11 Equipment  equipment Wm2  0- 8      0.0      0.0       0.40       0.60
summer_wkd 12 Equipment  equipment Wm2  8-12      5.0      0.0       0.40       0.60
summer_wkd 13 Equipment  equipment Wm2 18-24      0.0      0.0       0.40       0.60
 
 
 ____________________________________________________________
 
 Zone off_ash_ctm ( 9) is composed of 40 surfaces and 80 vertices.
 It encloses a volume of 40.3m^3 of space, with a total surface
 area of 85.4m^2 & approx floor area of 13.5m^2
 off_ash_ctm with ESP-r polyn occupant contam 8 lpp
 There is 9.0000m2 of exposed surface area, 9.0000m2 of which is vertical.
 Facade opaque is 3.6800m2 &   27.3 % of floor area & average U of 0.589 & UA of 2.1693.
 Facade glazing is 5.3200m2 &  39.4 % of floor &  59.1 % facade with average U of 2.811 & UA of 14.953
 Opaque partitions:ceiling:floor 69.668m2 & trasparent partitions:ceiling:floor 4.4800m2.
 
 A summary of the surfaces in off_ash_ctm( 9) follows:
 
 Sur| Area  |Azim|Elev|          Surface                           | construction             |environment
    | m^2   |deg |deg | name       |optical|locat| use             | name                     |other side
  1  13.5     90.   0. pt_general   OPAQUE   VERT -:-               gyp_gyp_ptn              ||< pt_other:off_2n_ctm
  2  0.920   360.   0. part_frame   OPAQUE   VERT -:-               alum_hollow_frame        ||< part_fr_ash:corrodpr_m
  3  2.32      0.   0. door         OPAQUE   VERT DOOR:UNDERCUT     door                     ||< door_ash:corrodpr_m
  4  13.5    270.   0. pt_other     OPAQUE   VERT -:-               gyp_gyp_ptn              ||< pt_general:off_e+_ctm
  5  13.5      0.  90. ceiling      OPAQUE   CEIL -:-               ceiling                  ||< ceiling_ash:cl_void_ctm
  6  13.5      0. -90. floor        OPAQUE   FLOR -:-               susp_flr_re              ||< floor_ash:cl_void_bc
  7  2.70    180.   0. spandral     OPAQUE   VERT -:-               frc_rs_facade            ||< external
  8  0.980   180.   0. frame        OPAQUE   VERT F-FRAME:CRACK     alu_frame_U1.2           ||< external
  9  5.32    180.   0. glazing      DCF7671_ VERT C-WINDOW:CRACK    dbl_glz                  ||< external
 10  4.48    360.   0. part_glaz    SCF8783_ VERT -:-               single_glaz              ||< glaz_ash:corrodpr_m
 11  1.28      0.   0. ptn_corid    OPAQUE   VERT -:-               gyp_gyp_ptn              ||< ptn_door_ash:corrodpr_m
 12  0.938     0.  90. adesk_t      OPAQUE   CEIL FURNI:-           corian_count             ||< adesk_t_:off_ash_ctm
 13  0.938     0. -90. adesk_t_     OPAQUE   FLOR FURNI:-           corian_count             ||< adesk_t:off_ash_ctm
 14  0.938     0.  90. bdesk_t      OPAQUE   CEIL FURNI:-           corian_count             ||< bdesk_t_:off_ash_ctm
 15  0.938     0. -90. bdesk_t_     OPAQUE   FLOR FURNI:-           corian_count             ||< bdesk_t:off_ash_ctm
 16  0.207     0.  90. cseat        OPAQUE   CEIL FURNI:-           upholstery               ||< cseat_:off_ash_ctm
 17  0.207     0. -90. cseat_       OPAQUE   FLOR FURNI:-           upholstery               ||< cseat:off_ash_ctm
 18  0.231   225.   6. cstback      OPAQUE   SLOP FURNI:-           upholstery               ||< cstback_:off_ash_ctm
 19  0.231    45.  -6. cstback_     OPAQUE   SLOP FURNI:-           upholstery               ||< cstback:off_ash_ctm
 20  0.207     0.  90. dseat        OPAQUE   CEIL FURNI:-           upholstery               ||< dseat_:off_ash_ctm
 21  0.207     0. -90. dseat_       OPAQUE   FLOR FURNI:-           upholstery               ||< dseat:off_ash_ctm
 22  0.231   190.   6. dstback      OPAQUE   SLOP FURNI:-           upholstery               ||< dstback_:off_ash_ctm
 23  0.231    10.  -6. dstback_     OPAQUE   SLOP FURNI:-           upholstery               ||< dstback:off_ash_ctm
 24  0.484   180.   0. ecab_lf      OPAQUE   VERT FURNI:-           steel_pl_3mm             ||< identical environment
 25  0.484     0.   0. ecab_rt      OPAQUE   VERT FURNI:-           steel_pl_3mm             ||< identical environment
 26  0.484    90.   0. ecab_fr      OPAQUE   VERT FURNI:-           file_papers              ||< identical environment
 27  0.484   270.   0. ecab_bk      OPAQUE   VERT FURNI:-           file_papers              ||< identical environment
 28  0.152     0. -90. ecab_to      OPAQUE   FLOR FURNI:-           steel_gr_3mm             ||< identical environment
 29  0.152     0.  90. ecab_bs      OPAQUE   CEIL FURNI:-           steel_gr_3mm             ||< identical environment
 30  0.500   180.   0. fbil_lft     OPAQUE   VERT FURNI:-           furn_wd10mm              ||< fbil_lft_:off_ash_ctm
 31  0.500     0.   0. fbil_lft_    OPAQUE   VERT FURNI:-           furn_wd10mm              ||< fbil_lft:off_ash_ctm
 32  0.500   180.   0. fbil_rt      OPAQUE   VERT FURNI:-           furn_wd10mm              ||< fbil_rt_:off_ash_ctm
 33  0.500     0.   0. fbil_rt_     OPAQUE   VERT FURNI:-           furn_wd10mm              ||< fbil_rt:off_ash_ctm
 34  1.55    270.   0. fbooks       OPAQUE   VERT FURNI:-           stuffonshelf             ||< fbooks_:off_ash_ctm
 35  1.55     90.   0. fbooks_      OPAQUE   VERT FURNI:-           stuffonshelf             ||< fbooks:off_ash_ctm
 36  0.148    90.   0. gcase        OPAQUE   VERT FURNI:-           IT_case                  ||< gcase_:off_ash_ctm
 37  0.148   270.   0. gcase_       OPAQUE   VERT FURNI:-           IT_case                  ||< gcase:off_ash_ctm
 38  0.123    90.   0. gcircuit     OPAQUE   VERT FURNI:-           circuit_bd               ||< gcircuit_:off_ash_ctm
 39  0.123   270.   0. gcircuit_    OPAQUE   VERT FURNI:-           circuit_bd               ||< gcircuit:off_ash_ctm
 40  0.040     0.  90. grill_ash    OPAQUE   CEIL GRILL:INLET       steel_gr_3mm             ||< grill_ash:cl_void_ctm
 
Surface      Width(m)   Height(m)  Above ffl...
door            0.80       2.90      0.00    DOOR
frame           3.00       2.10      0.90    F-FRAME
glazing         2.80       1.90      1.00    C-WINDOW
 There are   1 edges which are not bounded (zone might be incomplete)
  
In off_ash_ctm         m^2     m^2 to   m^2 to  m^2 back  m^2 to  m^2 to
MLC name               total  ambient  other z  -to-back  ground  similar
gyp_gyp_ptn             28.3      0.0     28.3      0.0      0.0      0.0
door                     2.3      0.0      2.3      0.0      0.0      0.0
dbl_glz                  5.3      5.3      0.0      0.0      0.0      0.0
single_glaz              4.5      0.0      4.5      0.0      0.0      0.0
ceiling                 13.5      0.0     13.5      0.0      0.0      0.0
susp_flr_re             13.5      0.0     13.5      0.0      0.0      0.0
steel_pl_3mm             1.0      0.0      0.0      0.0      0.0      1.0
circuit_bd               0.1      0.0      0.0      0.1      0.0      0.0
upholstery               0.9      0.0      0.0      0.9      0.0      0.0
corian_count             1.9      0.0      0.0      1.9      0.0      0.0
IT_case                  0.1      0.0      0.0      0.1      0.0      0.0
furn_wd10mm              1.0      0.0      0.0      1.0      0.0      0.0
steel_gr_3mm             0.3      0.0      0.0      0.0      0.0      0.3
file_papers              1.0      0.0      0.0      0.0      0.0      1.0
stuffonshelf             1.6      0.0      0.0      1.6      0.0      0.0
alum_hollow_frame        0.9      0.0      0.9      0.0      0.0      0.0
alu_frame_U1.2           1.0      1.0      0.0      0.0      0.0      0.0
frc_rs_facade            2.7      2.7      0.0      0.0      0.0      0.0
 
 An hourly solar radiation distribution is used for this zone.
 Surfaces (all applicable) for shading analysis:
spandral frame glazing
 Insolation sources (all applicable):
glazing
 Explicit viewfactors have been derived for this zone.
Block  X-     Y-    Z-coords   DX-    DY-    DZ-values  Orientation   Opacity  Name  Construction
  1     6.2    -0.1     6.7     6.0     0.0     0.3     0.0     0.0 1.00 ob1 door
  2     6.2    -0.3     6.7     6.0     0.0     0.2     0.0     0.0 1.00 ob2 door
  3     6.2    -0.5     6.7     6.0     0.0     0.2     0.0     0.0 1.00 ob3 door
  4     6.2    -0.7     6.7     6.0     0.0     0.2     0.0     0.0 1.00 ob4 door
  5     6.2    -0.9     6.7     6.0     0.0     0.2     0.0     0.0 1.00 ob5 door
  6     6.2    -1.1     6.7     6.0     0.0     0.2     0.0     0.0 1.00 ob6 door
 
visual type name    composition        visual type name    composition
 vis 1rot  adesk_top  corian_count     vis 1rot  dl_arm_rest steel_gr_3mm
 vis 1rot  adesk_leg_a steel_pl_3mm    vis 1rot  droll_a sensor_case
 vis 1rot  adesk_leg_b steel_pl_3mm    vis 1rot  droll_b sensor_case
 vis 1rot  adesk_leg_c steel_pl_3mm    vis 1rot  droll_c sensor_case
 vis 1rot  adesk_leg_d steel_pl_3mm    vis 1rot  droll_d sensor_case
 vis 1rot  bdesk_top  corian_count     vis 1rot  ef_cabinet steel_pl_3mm
 vis 1rot  bdesk_leg_a steel_pl_3mm    vis 1rot  edrw_a steel_gr_3mm
 vis 1rot  bdesk_leg_b steel_pl_3mm    vis 1rot  edrw_b steel_gr_3mm
 vis 1rot  bdesk_leg_c steel_pl_3mm    vis 1rot  edrw_c steel_gr_3mm
 vis 1rot  bdesk_leg_d steel_pl_3mm    vis 1rot  edrw_d steel_gr_3mm
 vis 1rot  cseat      upholstery       vis 1rot  fleft_ver furn_wd10mm
 vis 1rot  cr_arm     upholstery       vis 1rot  fright_ver furn_wd10mm
 vis 1rot  cl_arm     upholstery       vis 1rot  fbil_bk furn_wd10mm
 vis 1rot  cl_arm     upholstery       vis 1rot  fbil_bk furn_wd10mm
 vis 1rot  ccross_a   steel_gr_3mm     vis 1rot  fshelf_b furn_wd10mm
 vis 1rot  ccross_b   steel_gr_3mm     vis 1rot  fshelf_c furn_wd10mm
 vis 1rot  cpost      PH_alu_frame     vis 1rot  fshelf_d furn_wd10mm
 vis 1rot  cr_arm_rest steel_gr_3mm    vis 1rot  fshelf_e furn_wd10mm
 vis 1rot  cl_arm_rest steel_gr_3mm    vis 1rot  fbil_top furn_wd10mm
 vis 1rot  croll_a    sensor_case      vis 1rot  fkick furn_wd10mm
 vis 1rot  croll_b    sensor_case      vis 1rot  flow_books stuffonshelf
 vis 1rot  croll_c    sensor_case      vis 1rot  f2nd_books stuffonshelf
 vis 1rot  croll_d    sensor_case      vis 1rot  f3rd_books booksonshlf
 vis 1rot  dseat      upholstery       vis 1rot  f4th_books booksonshlf
 vis 1rot  dr_arm     upholstery       vis 1rot  ftop_books booksonshlf
 vis 1rot  dl_arm     upholstery       vis 1rot  gdbase IT_case
 vis 1rot  dl_arm     upholstery       vis 1rot  gdbase IT_case
 vis 1rot  dcross_a   steel_gr_3mm     vis 1rot  gdlow_edge IT_case
 vis 1rot  dcross_b   steel_gr_3mm     vis 1rot  gdup_edge IT_case
 vis 1rot  dpost      PH_alu_frame     vis 1rot  gdlft_edge IT_case
 vis 1rot  dr_arm_rest steel_gr_3mm    vis 1rot  gdrt_edge IT_case
                                       vis 1rot  gdscreen   collector_pl
 
 Shading patterns have been calculated for this zone.
 
 Ventilation & infiltration is assessed via network analysis
 and the associated network node is: off_ash_ctm
 
Notes:
Uses explicit modeling of occupants.
 
Daytype   Gain Label     Type    Unit Period     Number of      Metabo-  Clo   Air   Radiant    Convec
          No.                         Hours  Men   Women Child  lic Rate Value Velo.  Fraction   Fraction
                                           Sensible  Latent     Radiant    Convec
          No.                              Magn.(W)  Magn.(W)   Fraction   Fraction
weekdays    1 Metabolic  dynamic_p ocu  0- 7  0.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
weekdays    2 Metabolic  dynamic_p ocu  7- 8  1.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
weekdays    3 Metabolic  dynamic_p ocu  8- 9  1.00  1.00  0.00  1.40  0.60  1.00       0.60       0.40
weekdays    4 Metabolic  dynamic_p ocu  9-12  1.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
weekdays    5 Metabolic  dynamic_p ocu 12-14  1.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
weekdays    6 Metabolic  dynamic_p ocu 14-17  1.00  1.00  0.00  1.40  0.60  1.00       0.60       0.40
weekdays    7 Metabolic  dynamic_p ocu 17-24  0.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
weekdays    8 Light      lighting  Wm2  0- 8      0.0      0.0       0.30       0.70
weekdays    9 Light      lighting  Wm2  8-12     10.0      0.0       0.30       0.70
weekdays   10 Light      lighting  Wm2 18-24      0.0      0.0       0.30       0.70
weekdays   11 Equipment  equipment Wm2  0- 8      0.0      0.0       0.40       0.60
weekdays   12 Equipment  equipment Wm2  8-12      5.0      0.0       0.40       0.60
weekdays   13 Equipment  equipment Wm2 18-24      0.0      0.0       0.40       0.60
 
saturday    1 Metabolic  dynamic_p ocu  0- 7  0.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
saturday    2 Metabolic  dynamic_p ocu  7- 8  1.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
saturday    3 Metabolic  dynamic_p ocu  8- 9  1.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
saturday    4 Metabolic  dynamic_p ocu  9-12  1.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
saturday    5 Metabolic  dynamic_p ocu 12-14  1.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
saturday    6 Metabolic  dynamic_p ocu 14-17  1.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
saturday    7 Metabolic  dynamic_p ocu 17-24  0.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
saturday    8 Light      lighting  Wm2  0- 8      0.0      0.0       0.30       0.70
saturday    9 Light      lighting  Wm2  8-12     10.0      0.0       0.30       0.70
saturday   10 Light      lighting  Wm2 12-24      0.0      0.0       0.30       0.70
saturday   11 Equipment  equipment Wm2  0-24      0.0      0.0       0.40       0.60
 
sunday      1 Metabolic  dynamic_p ocu  0-24  0.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
sunday      2 Light      lighting  Wm2  0-24      0.0      0.0       0.30       0.70
sunday      3 Equipment  equipment Wm2  0-24      0.0      0.0       0.40       0.60
 
holiday     1 Metabolic  dynamic_p ocu  0-24  0.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
holiday     2 Light      lighting  Wm2  0-24      0.0      0.0       0.30       0.70
holiday     3 Equipment  equipment Wm2  0-24      0.0      0.0       0.40       0.60
 
winter_wkd  1 Metabolic  dynamic_p ocu  0- 7  0.00  0.00  0.00  1.40  1.10  1.00       0.60       0.40
winter_wkd  2 Metabolic  dynamic_p ocu  7- 8  1.00  0.00  0.00  1.40  1.10  1.00       0.60       0.40
winter_wkd  3 Metabolic  dynamic_p ocu  8- 9  1.00  1.00  0.00  1.40  1.10  1.00       0.60       0.40
winter_wkd  4 Metabolic  dynamic_p ocu  9-12  1.00  0.00  0.00  1.40  1.10  1.00       0.60       0.40
winter_wkd  5 Metabolic  dynamic_p ocu 12-14  1.00  0.00  0.00  1.40  1.10  1.00       0.60       0.40
winter_wkd  6 Metabolic  dynamic_p ocu 14-17  1.00  1.00  0.00  1.40  1.10  1.00       0.60       0.40
winter_wkd  7 Metabolic  dynamic_p ocu 17-24  0.00  0.00  0.00  1.40  1.10  1.00       0.60       0.40
winter_wkd  8 Light      lighting  Wm2  0- 8      0.0      0.0       0.30       0.70
winter_wkd  9 Light      lighting  Wm2  8-12     10.0      0.0       0.30       0.70
winter_wkd 10 Light      lighting  Wm2 18-24      0.0      0.0       0.30       0.70
winter_wkd 11 Equipment  equipment Wm2  0- 8      0.0      0.0       0.40       0.60
winter_wkd 12 Equipment  equipment Wm2  8-12      5.0      0.0       0.40       0.60
winter_wkd 13 Equipment  equipment Wm2 18-24      0.0      0.0       0.40       0.60
 
summer_wkd  1 Metabolic  dynamic_p ocu  0- 7  0.00  0.00  0.00  1.40  0.40  1.00       0.60       0.40
summer_wkd  2 Metabolic  dynamic_p ocu  7- 8  1.00  0.00  0.00  1.40  0.40  1.00       0.60       0.40
summer_wkd  3 Metabolic  dynamic_p ocu  8- 9  1.00  1.00  0.00  1.40  0.40  1.00       0.60       0.40
summer_wkd  4 Metabolic  dynamic_p ocu  9-12  1.00  0.00  0.00  1.40  0.40  1.00       0.60       0.40
summer_wkd  5 Metabolic  dynamic_p ocu 12-14  1.00  0.00  0.00  1.40  0.40  1.00       0.60       0.40
summer_wkd  6 Metabolic  dynamic_p ocu 14-17  1.00  1.00  0.00  1.40  0.40  1.00       0.60       0.40
summer_wkd  7 Metabolic  dynamic_p ocu 17-24  0.00  0.00  0.00  1.40  0.40  1.00       0.60       0.40
summer_wkd  8 Light      lighting  Wm2  0- 8      0.0      0.0       0.30       0.70
summer_wkd  9 Light      lighting  Wm2  8-12     10.0      0.0       0.30       0.70
summer_wkd 10 Light      lighting  Wm2 18-24      0.0      0.0       0.30       0.70
summer_wkd 11 Equipment  equipment Wm2  0- 8      0.0      0.0       0.40       0.60
summer_wkd 12 Equipment  equipment Wm2  8-12      5.0      0.0       0.40       0.60
summer_wkd 13 Equipment  equipment Wm2 18-24      0.0      0.0       0.40       0.60
 
 
 ____________________________________________________________
 
 Zone off_2n_ctm (10) is composed of 40 surfaces and 80 vertices.
 It encloses a volume of 40.3m^3 of space, with a total surface
 area of 85.4m^2 & approx floor area of 13.5m^2
 off_2n_ctm with 2 node occupants and contaminated 8 lpp
 There is 9.0000m2 of exposed surface area, 9.0000m2 of which is vertical.
 Facade opaque is 3.6800m2 &   27.3 % of floor area & average U of 0.589 & UA of 2.1693.
 Facade glazing is 5.3200m2 &  39.4 % of floor &  59.1 % facade with average U of 2.811 & UA of 14.953
 Opaque partitions:ceiling:floor 56.168m2 & trasparent partitions:ceiling:floor 4.4800m2.
 
 A summary of the surfaces in off_2n_ctm(10) follows:
 
 Sur| Area  |Azim|Elev|          Surface                           | construction             |environment
    | m^2   |deg |deg | name       |optical|locat| use             | name                     |other side
  1  13.5     90.   0. pt_general   OPAQUE   VERT -:-               gyp_gyp_ptn              ||< identical environment
  2  0.920   360.   0. part_frame   OPAQUE   VERT -:-               alum_hollow_frame        ||< part_fr_2n:corrodpr_m
  3  2.32      0.   0. door         OPAQUE   VERT DOOR:UNDERCUT     door                     ||< door_2n:corrodpr_m
  4  13.5    270.   0. pt_other     OPAQUE   VERT -:-               gyp_gyp_ptn              ||< pt_general:off_ash_ctm
  5  13.5      0.  90. ceiling      OPAQUE   CEIL -:-               ceiling                  ||< ceiling_2n:cl_void_ctm
  6  13.5      0. -90. floor        OPAQUE   FLOR -:-               susp_flr_re              ||< floor_2n_ctm:cl_void_bc
  7  2.70    180.   0. spandral     OPAQUE   VERT -:-               frc_rs_facade            ||< external
  8  0.980   180.   0. frame        OPAQUE   VERT F-FRAME:CRACK     alu_frame_U1.2           ||< external
  9  5.32    180.   0. glazing      DCF7671_ VERT C-WINDOW:CRACK    dbl_glz                  ||< external
 10  4.48    360.   0. part_glaz    SCF8783_ VERT -:-               single_glaz              ||< ash_glaze:corrodpr_m
 11  1.28      0.   0. ptn_corid    OPAQUE   VERT -:-               gyp_gyp_ptn              ||< door_fr_2n:corrodpr_m
 12  0.938     0.  90. adesk_t      OPAQUE   CEIL FURNI:-           corian_count             ||< adesk_t_:off_2n_ctm
 13  0.938     0. -90. adesk_t_     OPAQUE   FLOR FURNI:-           corian_count             ||< adesk_t:off_2n_ctm
 14  0.938     0.  90. bdesk_t      OPAQUE   CEIL FURNI:-           corian_count             ||< bdesk_t_:off_2n_ctm
 15  0.938     0. -90. bdesk_t_     OPAQUE   FLOR FURNI:-           corian_count             ||< bdesk_t:off_2n_ctm
 16  0.207     0.  90. cseat        OPAQUE   CEIL FURNI:-           upholstery               ||< cseat_:off_2n_ctm
 17  0.207     0. -90. cseat_       OPAQUE   FLOR FURNI:-           upholstery               ||< cseat:off_2n_ctm
 18  0.231   225.   6. cstback      OPAQUE   SLOP FURNI:-           upholstery               ||< cstback_:off_2n_ctm
 19  0.231    45.  -6. cstback_     OPAQUE   SLOP FURNI:-           upholstery               ||< cstback:off_2n_ctm
 20  0.207     0.  90. dseat        OPAQUE   CEIL FURNI:-           upholstery               ||< dseat_:off_2n_ctm
 21  0.207     0. -90. dseat_       OPAQUE   FLOR FURNI:-           upholstery               ||< dseat:off_2n_ctm
 22  0.231   190.   6. dstback      OPAQUE   SLOP FURNI:-           upholstery               ||< dstback_:off_2n_ctm
 23  0.231    10.  -6. dstback_     OPAQUE   SLOP FURNI:-           upholstery               ||< dstback:off_2n_ctm
 24  0.484   180.   0. ecab_lf      OPAQUE   VERT FURNI:-           steel_pl_3mm             ||< identical environment
 25  0.484     0.   0. ecab_rt      OPAQUE   VERT FURNI:-           steel_pl_3mm             ||< identical environment
 26  0.484    90.   0. ecab_fr      OPAQUE   VERT FURNI:-           file_papers              ||< identical environment
 27  0.484   270.   0. ecab_bk      OPAQUE   VERT FURNI:-           file_papers              ||< identical environment
 28  0.152     0. -90. ecab_to      OPAQUE   FLOR FURNI:-           steel_gr_3mm             ||< identical environment
 29  0.152     0.  90. ecab_bs      OPAQUE   CEIL FURNI:-           steel_gr_3mm             ||< identical environment
 30  0.500   180.   0. fbil_lft     OPAQUE   VERT FURNI:-           furn_wd10mm              ||< fbil_lft_:off_2n_ctm
 31  0.500     0.   0. fbil_lft_    OPAQUE   VERT FURNI:-           furn_wd10mm              ||< fbil_lft:off_2n_ctm
 32  0.500   180.   0. fbil_rt      OPAQUE   VERT FURNI:-           furn_wd10mm              ||< fbil_rt_:off_2n_ctm
 33  0.500     0.   0. fbil_rt_     OPAQUE   VERT FURNI:-           furn_wd10mm              ||< fbil_rt:off_2n_ctm
 34  1.55    270.   0. fbooks       OPAQUE   VERT FURNI:-           stuffonshelf             ||< fbooks_:off_2n_ctm
 35  1.55     90.   0. fbooks_      OPAQUE   VERT FURNI:-           stuffonshelf             ||< fbooks:off_2n_ctm
 36  0.148    90.   0. gcase        OPAQUE   VERT FURNI:-           IT_case                  ||< gcase_:off_2n_ctm
 37  0.148   270.   0. gcase_       OPAQUE   VERT FURNI:-           IT_case                  ||< gcase:off_2n_ctm
 38  0.123    90.  -0. gcircuit     OPAQUE   VERT FURNI:-           circuit_bd               ||< gcircuit_:off_2n_ctm
 39  0.123   270.   0. gcircuit_    OPAQUE   VERT FURNI:-           circuit_bd               ||< gcircuit:off_2n_ctm
 40  0.040     0.  90. grill_2n     OPAQUE   CEIL GRILL:INLET       steel_gr_3mm             ||< grill_2n:cl_void_ctm
 
Surface      Width(m)   Height(m)  Above ffl...
door            0.80       2.90      0.00    DOOR
frame           3.00       2.10      0.90    F-FRAME
glazing         2.80       1.90      1.00    C-WINDOW
  
In off_2n_ctm          m^2     m^2 to   m^2 to  m^2 back  m^2 to  m^2 to
MLC name               total  ambient  other z  -to-back  ground  similar
gyp_gyp_ptn             28.3      0.0     14.8      0.0      0.0     13.5
door                     2.3      0.0      2.3      0.0      0.0      0.0
dbl_glz                  5.3      5.3      0.0      0.0      0.0      0.0
single_glaz              4.5      0.0      4.5      0.0      0.0      0.0
ceiling                 13.5      0.0     13.5      0.0      0.0      0.0
susp_flr_re             13.5      0.0     13.5      0.0      0.0      0.0
steel_pl_3mm             1.0      0.0      0.0      0.0      0.0      1.0
circuit_bd               0.1      0.0      0.0      0.1      0.0      0.0
upholstery               0.9      0.0      0.0      0.9      0.0      0.0
corian_count             1.9      0.0      0.0      1.9      0.0      0.0
IT_case                  0.1      0.0      0.0      0.1      0.0      0.0
furn_wd10mm              1.0      0.0      0.0      1.0      0.0      0.0
steel_gr_3mm             0.3      0.0      0.0      0.0      0.0      0.3
file_papers              1.0      0.0      0.0      0.0      0.0      1.0
stuffonshelf             1.6      0.0      0.0      1.6      0.0      0.0
alum_hollow_frame        0.9      0.0      0.9      0.0      0.0      0.0
alu_frame_U1.2           1.0      1.0      0.0      0.0      0.0      0.0
frc_rs_facade            2.7      2.7      0.0      0.0      0.0      0.0
 
 An hourly solar radiation distribution is used for this zone.
 Surfaces (all applicable) for shading analysis:
spandral frame glazing
 Insolation sources (all applicable):
glazing
 Explicit viewfactors have been derived for this zone.
Block  X-     Y-    Z-coords   DX-    DY-    DZ-values  Orientation   Opacity  Name  Construction
  1     6.2    -0.1     6.7     6.0     0.0     0.3     0.0     0.0 1.00 ob1 door
  2     6.2    -0.3     6.7     6.0     0.0     0.2     0.0     0.0 1.00 ob2 door
  3     6.2    -0.5     6.7     6.0     0.0     0.2     0.0     0.0 1.00 ob3 door
  4     6.2    -0.7     6.7     6.0     0.0     0.2     0.0     0.0 1.00 ob4 door
  5     6.2    -0.9     6.7     6.0     0.0     0.2     0.0     0.0 1.00 ob5 door
  6     6.2    -1.1     6.7     6.0     0.0     0.2     0.0     0.0 1.00 ob6 door
 
visual type name    composition        visual type name    composition
 vis 1rot  adesk_top  corian_count     vis 1rot  dl_arm_rest steel_gr_3mm
 vis 1rot  adesk_leg_a steel_pl_3mm    vis 1rot  droll_a sensor_case
 vis 1rot  adesk_leg_b steel_pl_3mm    vis 1rot  droll_b sensor_case
 vis 1rot  adesk_leg_c steel_pl_3mm    vis 1rot  droll_c sensor_case
 vis 1rot  adesk_leg_d steel_pl_3mm    vis 1rot  droll_d sensor_case
 vis 1rot  bdesk_top  corian_count     vis 1rot  ef_cabinet steel_pl_3mm
 vis 1rot  bdesk_leg_a steel_pl_3mm    vis 1rot  edrw_a steel_gr_3mm
 vis 1rot  bdesk_leg_b steel_pl_3mm    vis 1rot  edrw_b steel_gr_3mm
 vis 1rot  bdesk_leg_c steel_pl_3mm    vis 1rot  edrw_c steel_gr_3mm
 vis 1rot  bdesk_leg_d steel_pl_3mm    vis 1rot  edrw_d steel_gr_3mm
 vis 1rot  cseat      upholstery       vis 1rot  fleft_ver furn_wd10mm
 vis 1rot  cr_arm     upholstery       vis 1rot  fright_ver furn_wd10mm
 vis 1rot  cl_arm     upholstery       vis 1rot  fbil_bk furn_wd10mm
 vis 1rot  cl_arm     upholstery       vis 1rot  fbil_bk furn_wd10mm
 vis 1rot  ccross_a   steel_gr_3mm     vis 1rot  fshelf_b furn_wd10mm
 vis 1rot  ccross_b   steel_gr_3mm     vis 1rot  fshelf_c furn_wd10mm
 vis 1rot  cpost      PH_alu_frame     vis 1rot  fshelf_d furn_wd10mm
 vis 1rot  cr_arm_rest steel_gr_3mm    vis 1rot  fshelf_e furn_wd10mm
 vis 1rot  cl_arm_rest steel_gr_3mm    vis 1rot  fbil_top furn_wd10mm
 vis 1rot  croll_a    sensor_case      vis 1rot  fkick furn_wd10mm
 vis 1rot  croll_b    sensor_case      vis 1rot  flow_books stuffonshelf
 vis 1rot  croll_c    sensor_case      vis 1rot  f2nd_books stuffonshelf
 vis 1rot  croll_d    sensor_case      vis 1rot  f3rd_books booksonshlf
 vis 1rot  dseat      upholstery       vis 1rot  f4th_books booksonshlf
 vis 1rot  dr_arm     upholstery       vis 1rot  ftop_books booksonshlf
 vis 1rot  dl_arm     upholstery       vis 1rot  gdbase IT_case
 vis 1rot  dl_arm     upholstery       vis 1rot  gdbase IT_case
 vis 1rot  dcross_a   steel_gr_3mm     vis 1rot  gdlow_edge IT_case
 vis 1rot  dcross_b   steel_gr_3mm     vis 1rot  gdup_edge IT_case
 vis 1rot  dpost      PH_alu_frame     vis 1rot  gdlft_edge IT_case
 vis 1rot  dr_arm_rest steel_gr_3mm    vis 1rot  gdrt_edge IT_case
                                       vis 1rot  gdscreen   collector_pl
 
 Shading patterns have been calculated for this zone.
 
 Ventilation & infiltration is assessed via network analysis
 and the associated network node is: off_2n_ctm
 
Notes:
occupants via core-skin dynamic model.
 
Daytype   Gain Label     Type    Unit Period     Number of      Metabo-  Clo   Air   Radiant    Convec
          No.                         Hours  Men   Women Child  lic Rate Value Velo.  Fraction   Fraction
                                           Sensible  Latent     Radiant    Convec
          No.                              Magn.(W)  Magn.(W)   Fraction   Fraction
weekdays    1 Metabolic  dynamic_p ocu  0- 7  0.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
weekdays    2 Metabolic  dynamic_p ocu  7- 8  1.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
weekdays    3 Metabolic  dynamic_p ocu  8- 9  1.00  1.00  0.00  1.40  0.60  1.00       0.60       0.40
weekdays    4 Metabolic  dynamic_p ocu  9-12  1.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
weekdays    5 Metabolic  dynamic_p ocu 12-14  1.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
weekdays    6 Metabolic  dynamic_p ocu 14-17  1.00  1.00  0.00  1.40  0.60  1.00       0.60       0.40
weekdays    7 Metabolic  dynamic_p ocu 17-24  0.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
weekdays    8 Light      lighting  Wm2  0- 8      0.0      0.0       0.30       0.70
weekdays    9 Light      lighting  Wm2  8-12     10.0      0.0       0.30       0.70
weekdays   10 Light      lighting  Wm2 18-24      0.0      0.0       0.30       0.70
weekdays   11 Equipment  equipment Wm2  0- 8      0.0      0.0       0.40       0.60
weekdays   12 Equipment  equipment Wm2  8-12      5.0      0.0       0.40       0.60
weekdays   13 Equipment  equipment Wm2 18-24      0.0      0.0       0.40       0.60
 
saturday    1 Metabolic  dynamic_p ocu  0- 7  0.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
saturday    2 Metabolic  dynamic_p ocu  7- 8  1.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
saturday    3 Metabolic  dynamic_p ocu  8- 9  1.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
saturday    4 Metabolic  dynamic_p ocu  9-12  1.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
saturday    5 Metabolic  dynamic_p ocu 12-14  1.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
saturday    6 Metabolic  dynamic_p ocu 14-17  1.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
saturday    7 Metabolic  dynamic_p ocu 17-24  0.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
saturday    8 Light      lighting  Wm2  0- 8      0.0      0.0       0.30       0.70
saturday    9 Light      lighting  Wm2  8-12     10.0      0.0       0.30       0.70
saturday   10 Light      lighting  Wm2 12-24      0.0      0.0       0.30       0.70
saturday   11 Equipment  equipment Wm2  0-24      0.0      0.0       0.40       0.60
 
sunday      1 Metabolic  dynamic_p ocu  0-24  0.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
sunday      2 Light      lighting  Wm2  0-24      0.0      0.0       0.30       0.70
sunday      3 Equipment  equipment Wm2  0-24      0.0      0.0       0.40       0.60
 
holiday     1 Metabolic  dynamic_p ocu  0-24  0.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
holiday     2 Light      lighting  Wm2  0-24      0.0      0.0       0.30       0.70
holiday     3 Equipment  equipment Wm2  0-24      0.0      0.0       0.40       0.60
 
winter_wkd  1 Metabolic  dynamic_p ocu  0- 7  0.00  0.00  0.00  1.40  1.10  1.00       0.60       0.40
winter_wkd  2 Metabolic  dynamic_p ocu  7- 8  1.00  0.00  0.00  1.40  1.10  1.00       0.60       0.40
winter_wkd  3 Metabolic  dynamic_p ocu  8- 9  1.00  1.00  0.00  1.40  1.10  1.00       0.60       0.40
winter_wkd  4 Metabolic  dynamic_p ocu  9-12  1.00  0.00  0.00  1.40  1.10  1.00       0.60       0.40
winter_wkd  5 Metabolic  dynamic_p ocu 12-14  1.00  0.00  0.00  1.40  1.10  1.00       0.60       0.40
winter_wkd  6 Metabolic  dynamic_p ocu 14-17  1.00  1.00  0.00  1.40  1.10  1.00       0.60       0.40
winter_wkd  7 Metabolic  dynamic_p ocu 17-24  0.00  0.00  0.00  1.40  1.10  1.00       0.60       0.40
winter_wkd  8 Light      lighting  Wm2  0- 8      0.0      0.0       0.30       0.70
winter_wkd  9 Light      lighting  Wm2  8-12     10.0      0.0       0.30       0.70
winter_wkd 10 Light      lighting  Wm2 18-24      0.0      0.0       0.30       0.70
winter_wkd 11 Equipment  equipment Wm2  0- 8      0.0      0.0       0.40       0.60
winter_wkd 12 Equipment  equipment Wm2  8-12      5.0      0.0       0.40       0.60
winter_wkd 13 Equipment  equipment Wm2 18-24      0.0      0.0       0.40       0.60
 
summer_wkd  1 Metabolic  dynamic_p ocu  0- 7  0.00  0.00  0.00  1.40  0.40  1.00       0.60       0.40
summer_wkd  2 Metabolic  dynamic_p ocu  7- 8  1.00  0.00  0.00  1.40  0.40  1.00       0.60       0.40
summer_wkd  3 Metabolic  dynamic_p ocu  8- 9  1.00  1.00  0.00  1.40  0.40  1.00       0.60       0.40
summer_wkd  4 Metabolic  dynamic_p ocu  9-12  1.00  0.00  0.00  1.40  0.40  1.00       0.60       0.40
summer_wkd  5 Metabolic  dynamic_p ocu 12-14  1.00  0.00  0.00  1.40  0.40  1.00       0.60       0.40
summer_wkd  6 Metabolic  dynamic_p ocu 14-17  1.00  1.00  0.00  1.40  0.40  1.00       0.60       0.40
summer_wkd  7 Metabolic  dynamic_p ocu 17-24  0.00  0.00  0.00  1.40  0.40  1.00       0.60       0.40
summer_wkd  8 Light      lighting  Wm2  0- 8      0.0      0.0       0.30       0.70
summer_wkd  9 Light      lighting  Wm2  8-12     10.0      0.0       0.30       0.70
summer_wkd 10 Light      lighting  Wm2 18-24      0.0      0.0       0.30       0.70
summer_wkd 11 Equipment  equipment Wm2  0- 8      0.0      0.0       0.40       0.60
summer_wkd 12 Equipment  equipment Wm2  8-12      5.0      0.0       0.40       0.60
summer_wkd 13 Equipment  equipment Wm2 18-24      0.0      0.0       0.40       0.60
 
 
 ____________________________________________________________
 
 Zone corrodpr_m (11) is composed of 25 surfaces and 62 vertices.
 It encloses a volume of 36.9m^3 of space, with a total surface
 area of 104.m^2 & approx floor area of 14.6m^2
 corrodpr_m is a mid-level corridor at contaminate level offic
 Opaque partitions:ceiling:floor 42.680m2 & trasparent partitions:ceiling:floor 17.920m2.
 
 A summary of the surfaces in corrodpr_m(11) follows:
 
 Sur| Area  |Azim|Elev|          Surface                           | construction             |environment
    | m^2   |deg |deg | name       |optical|locat| use             | name                     |other side
  1  3.00     90.   0. right        OPAQUE   VERT -:-               door                     ||< identical environment
  2  36.9      0.   0. wall         OPAQUE   VERT -:-               gyp_blk_ptn              ||< identical environment
  3  3.00    270.   0. left         OPAQUE   VERT -:-               door                     ||< identical environment
  4  12.1      0.  90. ceiling      OPAQUE   CEIL -:-               ceiling                  ||< ceiling_cor:cl_void_ctm
  5  12.3      0. -90. floor        OPAQUE   FLOR -:-               susp_flr_re              ||< floor:cl_void_bc
  6  2.32    180.   0. door         OPAQUE   VERT DOOR:UNDERCUT     door                     ||< door:off_bc_ctm
  7  1.28    180.   0. ptn_corid    OPAQUE   VERT -:-               gyp_gyp_ptn              ||< ptn_corid:off_bc_ctm
  8  0.920   180.  -0. part_frame   OPAQUE   VERT -:-               alum_hollow_frame        ||< part_frame:off_bc_ctm
  9  4.48    180.   0. part_glaz    SCF8783_ VERT -:-               single_glaz              ||< part_glaz:off_bc_ctm
 10  0.300   180.   0. filler       OPAQUE   VERT -:-               gyp_gyp_ptn              ||< adiabatic
 11  0.920   180.   0. part_frm_e+  OPAQUE   VERT -:-               alum_hollow_frame        ||< part_frame:off_e+_ctm
 12  2.32    180.   0. door_e+      OPAQUE   VERT DOOR:UNDERCUT     door                     ||< door:off_e+_ctm
 13  1.28    180.   0. ptn_corid_e+ OPAQUE   VERT -:-               gyp_gyp_ptn              ||< ptn_corid:off_e+_ctm
 14  4.48    180.   0. glass_e+     SCF8783_ VERT -:-               single_glaz              ||< part_glaz:off_e+_ctm
 15  0.920   180.   0. part_fr_ash  OPAQUE   VERT -:-               alum_hollow_frame        ||< part_frame:off_ash_ctm
 16  2.32    180.   0. door_ash     OPAQUE   VERT DOOR:UNDERCUT     door                     ||< door:off_ash_ctm
 17  4.48    180.   0. glaz_ash     SCF8783_ VERT -:-               single_glaz              ||< part_glaz:off_ash_ctm
 18  1.43    180.   0. ptn_door_ash OPAQUE   VERT -:-               gyp_gyp_ptn              ||< ptn_corid:off_ash_ctm
 19  0.920   180.   0. part_fr_2n   OPAQUE   VERT -:-               alum_hollow_frame        ||< part_frame:off_2n_ctm
 20  4.48    180.   0. ash_glaze    SCF8783_ VERT -:-               single_glaz              ||< part_glaz:off_2n_ctm
 21  2.32    180.   0. door_2n      OPAQUE   VERT DOOR:UNDERCUT     door                     ||< door:off_2n_ctm
 22  1.13    180.   0. door_fr_2n   OPAQUE   VERT -:-               gyp_gyp_ptn              ||< ptn_corid:off_2n_ctm
 23  0.300   180.   0. filler_b     OPAQUE   VERT -:-               gyp_gyp_ptn              ||< adiabatic
 24  0.300   180.   0. filler_c     OPAQUE   VERT -:-               gyp_gyp_ptn              ||< adiabatic
 25  0.160     0.  90. cor_grill    OPAQUE   CEIL GRILL:OPEN        steel_gr_3mm             ||< cor_grill:cl_void_ctm
 
Surface      Width(m)   Height(m)  Above ffl...
door            0.80       2.90      0.00    DOOR
door_e+         0.80       2.90      0.00    DOOR
door_ash        0.80       2.90      0.00    DOOR
door_2n         0.80       2.90      0.00    DOOR
  
In corrodpr_m          m^2     m^2 to   m^2 to  m^2 back  m^2 to  m^2 to
MLC name               total  ambient  other z  -to-back  ground  similar
gyp_blk_ptn             36.9      0.0      0.0      0.0      0.0     36.9
gyp_gyp_ptn              6.0      0.0      5.1      0.0      0.0      0.9
door                    15.3      0.0      9.3      0.0      0.0      6.0
single_glaz             17.9      0.0     17.9      0.0      0.0      0.0
ceiling                 12.1      0.0     12.1      0.0      0.0      0.0
susp_flr_re             12.3      0.0     12.3      0.0      0.0      0.0
steel_gr_3mm             0.2      0.0      0.2      0.0      0.0      0.0
alum_hollow_frame        3.7      0.0      3.7      0.0      0.0      0.0
 
 All surfaces will receive diffuse insolation (if shading not calculated).
 No shading analysis requested.
 No insolation analysis requested.
 
 Ventilation & infiltration is assessed via network analysis
 and the associated network node is: corrodpr_m
 
Notes:
half a person and 50-100W lighting weekdays 10W weekends with
electrical properties
 
Daytype   Gain Label     Type    Unit Period Sensible  Latent      Radiant    Convec
          No.                          Hours Magn.(W)  Magn.(W)    Fraction   Fraction
weekdays    1 Occupt     people    W    0- 8      0.0      0.0       0.60       0.40
weekdays    2 Occupt     people    W    8-20    100.0     50.0       0.60       0.40
weekdays    3 Occupt     people    W   20-24      0.0      0.0       0.60       0.40
weekdays    4 Lights     lighting  W    0- 8     50.0      0.0       0.30       0.70
weekdays    5 Lights     lighting  W    8-20    100.0      0.0       0.30       0.70
weekdays    6 Lights     lighting  W   20-24     50.0      0.0       0.30       0.70
 
saturday    1 Occupt     people    W    0- 8      0.0      0.0       0.60       0.40
saturday    2 Occupt     people    W    8-20    100.0     50.0       0.60       0.40
saturday    3 Occupt     people    W   20-24      0.0      0.0       0.60       0.40
saturday    4 Lights     lighting  W    0- 8      0.0      0.0       0.30       0.70
saturday    5 Lights     lighting  W    8-20     10.0      0.0       0.30       0.70
saturday    6 Lights     lighting  W   20-24      0.0      0.0       0.30       0.70
 
sunday      1 Occupt     people    W    0- 8      0.0      0.0       0.60       0.40
sunday      2 Occupt     people    W    8-20    100.0     50.0       0.60       0.40
sunday      3 Occupt     people    W   20-24      0.0      0.0       0.60       0.40
sunday      4 Lights     lighting  W    0- 8      0.0      0.0       0.30       0.70
sunday      5 Lights     lighting  W    8-20     10.0      0.0       0.30       0.70
sunday      6 Lights     lighting  W   20-24      0.0      0.0       0.30       0.70
 
holiday     1 Occupt     people    W    0-24      0.0      0.0       0.60       0.40
holiday     2 Lights     lighting  W    0-24      0.0      0.0       0.30       0.70
holiday     3 Equipt     equipment W    0-24      0.0      0.0       0.40       0.60
 
winter_wkd  1 Occupt     people    W    0- 8      0.0      0.0       0.60       0.40
winter_wkd  2 Occupt     people    W    8-20    100.0     50.0       0.60       0.40
winter_wkd  3 Occupt     people    W   20-24      0.0      0.0       0.60       0.40
winter_wkd  4 Lights     lighting  W    0- 8     50.0      0.0       0.30       0.70
winter_wkd  5 Lights     lighting  W    8-20    100.0      0.0       0.30       0.70
winter_wkd  6 Lights     lighting  W   20-24     50.0      0.0       0.30       0.70
 
summer_wkd  1 Occupt     people    W    0- 8      0.0      0.0       0.60       0.40
summer_wkd  2 Occupt     people    W    8-20    100.0     50.0       0.60       0.40
summer_wkd  3 Occupt     people    W   20-24      0.0      0.0       0.60       0.40
summer_wkd  4 Lights     lighting  W    0- 8     50.0      0.0       0.30       0.70
summer_wkd  5 Lights     lighting  W    8-20    100.0      0.0       0.30       0.70
summer_wkd  6 Lights     lighting  W   20-24     50.0      0.0       0.30       0.70
 
 
 ____________________________________________________________
 
 Zone cl_void_bc (12) is composed of 34 surfaces and 84 vertices.
 It encloses a volume of 40.8m^3 of space, with a total surface
 area of 160.m^2 & approx floor area of 68.9m^2
 cl_void_bc ceiling void over occupant model zones
 There is 7.3800m2 of exposed surface area, 7.3800m2 of which is vertical.
 Facade opaque is 7.3800m2 &   10.7 % of floor area & average U of 0.344 & UA of 2.5390.
 Opaque partitions:ceiling:floor 134.76m2.
 
 A summary of the surfaces in cl_void_bc(12) follows:
 
 Sur| Area  |Azim|Elev|          Surface                           | construction             |environment
    | m^2   |deg |deg | name       |optical|locat| use             | name                     |other side
  1  13.5      0. -90. ceiling      OPAQUE   FLOR -:-               ceiling_rev              ||< ceiling:office_bc
  2  0.040     0. -90. grill_bc     OPAQUE   FLOR GRILL:DUCT        steel_gr_3mm             ||< grill:office_bc
  3  13.5      0. -90. ceiling_e+   OPAQUE   FLOR -:-               ceiling_rev              ||< ceiling:office_e+
  4  0.040     0. -90. grill_e+     OPAQUE   FLOR GRILL:-           steel_gr_3mm             ||< grill:office_e+
  5  13.5      0. -90. ceiling_ash  OPAQUE   FLOR -:-               ceiling_rev              ||< ceiling:office_ash
  6  0.040     0. -90. grill_ash    OPAQUE   FLOR GRILL:-           steel_gr_3mm             ||< grill_ash:office_ash
  7  13.5      0. -90. ceiling_2n   OPAQUE   FLOR -:-               ceiling_rev              ||< ceiling:office_2node
  8  0.040     0. -90. grill_2n     OPAQUE   FLOR GRILL:-           steel_gr_3mm             ||< grill_2n:office_2node
  9  12.1      0. -90. ceiling_cor  OPAQUE   FLOR -:-               ceiling_rev              ||< ceiling:corridor
 10  0.160     0. -90. cor_grill    OPAQUE   FLOR GRILL:OPEN        steel_gr_3mm             ||< cor_grill:corridor
 11  0.300     0.   0. mb_o_front   OPAQUE   VERT PARTN:-           tank_w_50mm              ||< mb_o_front:mix_op_man
 12  0.180   270.   0. mb_o_right   OPAQUE   VERT PARTN:-           tank_w_50mm              ||< mb_o_right:mix_op_man
 13  0.300   180.   0. mb_o_back    OPAQUE   VERT PARTN:-           tank_w_50mm              ||< mb_o_back:mix_op_man
 14  0.180    90.   0. mb_o_left    OPAQUE   VERT PARTN:-           tank_w_50mm              ||< mb_o_left:mix_op_man
 15  0.600     0. -90. mb_o_top     OPAQUE   FLOR -:-               tank_w_50mm              ||< mb_o_top:mix_op_man
 16  0.600     0.  90. mb_o_base    OPAQUE   CEIL -:-               tank_w_50mm              ||< mb_o_base:mix_op_man
 17  13.5      0.  90. floor_bc_ctm OPAQUE   CEIL -:-               susp_floor               ||< floor:off_bc_ctm
 18  13.5      0.  90. floor_e+_ctm OPAQUE   CEIL -:-               susp_floor               ||< floor:off_e+_ctm
 19  13.5      0.  90. floor_ash    OPAQUE   CEIL -:-               susp_floor               ||< floor:off_ash_ctm
 20  13.5      0.  90. floor_2n_ctm OPAQUE   CEIL -:-               susp_floor               ||< floor:off_2n_ctm
 21  12.3      0.  90. floor        OPAQUE   CEIL -:-               susp_floor               ||< floor:corrodpr_m
 22  7.38    180.   0. facade       OPAQUE   VERT -:-               frc_rs_facade            ||< external
 23  3.24    270.   0. left         OPAQUE   VERT -:-               mass_part                ||< identical environment
 24  7.38      0.   0. back_of      OPAQUE   VERT -:-               mass_part                ||< identical environment
 25  3.33     90.  -0. right        OPAQUE   VERT -:-               mass_part                ||< identical environment
 26  0.605     0. -90. fill_bc_cl   OPAQUE   FLOR -:-               gyp_gyp_ptn              ||< adiabatic
 27  0.605     0. -90. fill_e+_cl   OPAQUE   FLOR -:-               gyp_gyp_ptn              ||< adiabatic
 28  0.606     0. -90. fill_ash_cl  OPAQUE   FLOR -:-               gyp_gyp_ptn              ||< adiabatic
 29  0.149     0. -90. fill_2n_cl   OPAQUE   FLOR -:-               gyp_gyp_ptn              ||< adiabatic
 30  0.605     0.  90. fill_bc_up   OPAQUE   CEIL -:-               gyp_gyp_ptn              ||< adiabatic
 31  0.605     0.  90. fill_e+_up   OPAQUE   CEIL -:-               gyp_gyp_ptn              ||< adiabatic
 32  0.606     0.  90. fill_ash_up  OPAQUE   CEIL -:-               gyp_gyp_ptn              ||< adiabatic
 33  0.149     0.  90. fill_2n_up   OPAQUE   CEIL -:-               gyp_gyp_ptn              ||< adiabatic
 34  0.090   270.   0. exh_grill    OPAQUE   VERT GRILL:EXTRACT     tank_w_50mm              ||< identical environment
 
  
In cl_void_bc          m^2     m^2 to   m^2 to  m^2 back  m^2 to  m^2 to
MLC name               total  ambient  other z  -to-back  ground  similar
mass_part               13.9      0.0      0.0      0.0      0.0     13.9
gyp_gyp_ptn              3.9      0.0      0.0      0.0      0.0      3.9
ceiling_rev             66.0      0.0     66.0      0.0      0.0      0.0
susp_floor              66.3      0.0     66.3      0.0      0.0      0.0
tank_w_50mm              2.2      0.0      2.2      0.0      0.0      0.1
steel_gr_3mm             0.3      0.0      0.3      0.0      0.0      0.0
frc_rs_facade            7.4      7.4      0.0      0.0      0.0      0.0
 
 All surfaces will receive diffuse insolation (if shading not calculated).
 No shading analysis requested.
 No insolation analysis requested.
 
 Ventilation & infiltration is assessed via network analysis
 and the associated network node is: cl_void_bc
 
Notes:
Nothing happens in this zone i.e. no occupants lights and small power.
Initial period of 0-24 hour for each.
 
Daytype   Gain Label     Type    Unit Period Sensible  Latent      Radiant    Convec
          No.                          Hours Magn.(W)  Magn.(W)    Fraction   Fraction
weekdays    1 Occupants  people    W    0-24      0.0      0.0       0.60       0.40
weekdays    2 Lights     lighting  W    0-24      0.0      0.0       0.30       0.70
weekdays    3 SmallPower equipment W    0-24      0.0      0.0       0.40       0.60
 
saturday    1 Occupants  people    W    0-24      0.0      0.0       0.60       0.40
saturday    2 Lights     lighting  W    0-24      0.0      0.0       0.30       0.70
saturday    3 SmallPower equipment W    0-24      0.0      0.0       0.40       0.60
 
sunday      1 Occupants  people    W    0-24      0.0      0.0       0.60       0.40
sunday      2 Lights     lighting  W    0-24      0.0      0.0       0.30       0.70
sunday      3 SmallPower equipment W    0-24      0.0      0.0       0.40       0.60
 
holiday     1 Occupants  people    W    0-24      0.0      0.0       0.60       0.40
holiday     2 Lights     lighting  W    0-24      0.0      0.0       0.30       0.70
holiday     3 SmallPower equipment W    0-24      0.0      0.0       0.40       0.60
 
winter_wkd  1 Occupants  people    W    0-24      0.0      0.0       0.60       0.40
winter_wkd  2 Lights     lighting  W    0-24      0.0      0.0       0.30       0.70
winter_wkd  3 SmallPower equipment W    0-24      0.0      0.0       0.40       0.60
 
summer_wkd  1 Occupants  people    W    0-24      0.0      0.0       0.60       0.40
summer_wkd  2 Lights     lighting  W    0-24      0.0      0.0       0.30       0.70
summer_wkd  3 SmallPower equipment W    0-24      0.0      0.0       0.40       0.60
 
 
 ____________________________________________________________
 
 Zone mix_ctm (13) is composed of 6 surfaces and 8 vertices.
 It encloses a volume of 0.180m^3 of space, with a total surface
 area of 2.16m^2 & approx floor area of 0.600m^2
 mix_ctm mixing box for fresh air to control CO2
 Opaque partitions:ceiling:floor 2.1600m2.
 
 A summary of the surfaces in mix_ctm(13) follows:
 
 Sur| Area  |Azim|Elev|          Surface                           | construction             |environment
    | m^2   |deg |deg | name       |optical|locat| use             | name                     |other side
  1  0.300   180.   0. mb_o_front   OPAQUE   VERT PARTN:-           tank_i_50mmi             ||< mb_o_front:cl_void_ctm
  2  0.180    90.   0. mb_o_right   OPAQUE   VERT PARTN:-           tank_i_50mmi             ||< mb_o_right:cl_void_ctm
  3  0.300     0.   0. mb_o_back    OPAQUE   VERT PARTN:-           tank_i_50mmi             ||< mb_o_back:cl_void_ctm
  4  0.180   270.   0. mb_o_left    OPAQUE   VERT PARTN:-           tank_i_50mmi             ||< mb_o_left:cl_void_ctm
  5  0.600     0.  90. mb_o_top     OPAQUE   CEIL -:-               tank_i_50mmi             ||< mb_o_top:cl_void_ctm
  6  0.600     0. -90. mb_o_base    OPAQUE   FLOR -:-               tank_i_50mmi             ||< mb_o_base:cl_void_ctm
 
  
In mix_ctm             m^2     m^2 to   m^2 to  m^2 back  m^2 to  m^2 to
MLC name               total  ambient  other z  -to-back  ground  similar
tank_i_50mmi             2.2      0.0      2.2      0.0      0.0      0.0
 
 All surfaces will receive diffuse insolation (if shading not calculated).
 No shading analysis requested.
 No insolation analysis requested.
 
 Ventilation & infiltration is assessed via network analysis
 and the associated network node is: mix_ctm
 
Notes:
nothing happens in the mixing box
 
Daytype   Gain Label     Type    Unit Period Sensible  Latent      Radiant    Convec
          No.                          Hours Magn.(W)  Magn.(W)    Fraction   Fraction
 
 ____________________________________________________________
 
 Zone cl_void_ctm (14) is composed of 34 surfaces and 84 vertices.
 It encloses a volume of 40.8m^3 of space, with a total surface
 area of 160.m^2 & approx floor area of 68.9m^2
 cl_void_ctm void above offices with contaminate controls
 There is 7.3800m2 of exposed surface area, 7.3800m2 of which is vertical.
 Facade opaque is 7.3800m2 &   10.7 % of floor area & average U of 0.344 & UA of 2.5390.
 Opaque partitions:ceiling:floor 134.76m2.
 
 A summary of the surfaces in cl_void_ctm(14) follows:
 
 Sur| Area  |Azim|Elev|          Surface                           | construction             |environment
    | m^2   |deg |deg | name       |optical|locat| use             | name                     |other side
  1  13.5      0. -90. ceiling      OPAQUE   FLOR -:-               ceiling_rev              ||< ceiling:off_bc_ctm
  2  0.040     0. -90. grill_bc     OPAQUE   FLOR GRILL:-           steel_gr_3mm             ||< grill:off_bc_ctm
  3  13.5      0. -90. ceiling_e+   OPAQUE   FLOR -:-               ceiling_rev              ||< ceiling:off_e+_ctm
  4  0.040     0. -90. grill_e+     OPAQUE   FLOR GRILL:-           steel_gr_3mm             ||< grill:off_e+_ctm
  5  13.5      0. -90. ceiling_ash  OPAQUE   FLOR -:-               ceiling_rev              ||< ceiling:off_ash_ctm
  6  0.040     0. -90. grill_ash    OPAQUE   FLOR GRILL:-           steel_gr_3mm             ||< grill_ash:off_ash_ctm
  7  13.5      0. -90. ceiling_2n   OPAQUE   FLOR -:-               ceiling_rev              ||< ceiling:off_2n_ctm
  8  0.040     0. -90. grill_2n     OPAQUE   FLOR GRILL:-           steel_gr_3mm             ||< grill_2n:off_2n_ctm
  9  12.1      0. -90. ceiling_cor  OPAQUE   FLOR -:-               ceiling_rev              ||< ceiling:corrodpr_m
 10  0.160     0. -90. cor_grill    OPAQUE   FLOR GRILL:OPEN        steel_gr_3mm             ||< cor_grill:corrodpr_m
 11  0.300     0.   0. mb_o_front   OPAQUE   VERT PARTN:-           tank_w_50mm              ||< mb_o_front:mix_ctm
 12  0.180   270.   0. mb_o_right   OPAQUE   VERT PARTN:-           tank_w_50mm              ||< mb_o_right:mix_ctm
 13  0.300   180.   0. mb_o_back    OPAQUE   VERT PARTN:-           tank_w_50mm              ||< mb_o_back:mix_ctm
 14  0.180    90.   0. mb_o_left    OPAQUE   VERT PARTN:-           tank_w_50mm              ||< mb_o_left:mix_ctm
 15  0.600     0. -90. mb_o_top     OPAQUE   FLOR -:-               tank_w_50mm              ||< mb_o_top:mix_ctm
 16  0.600     0.  90. mb_o_base    OPAQUE   CEIL -:-               tank_w_50mm              ||< mb_o_base:mix_ctm
 17  13.5      0.  90. floor_bc_ctm OPAQUE   CEIL -:-               susp_floor               ||< floor:off_bc_ho
 18  13.5      0.  90. floor_e+_ctm OPAQUE   CEIL -:-               susp_floor               ||< floor:off_nat_vnt
 19  13.5      0.  90. floor_ash    OPAQUE   CEIL -:-               susp_floor               ||< floor:off_2z_nv
 20  13.5      0.  90. floor_2n_ctm OPAQUE   CEIL -:-               susp_floor               ||< floor:off_2z_ho
 21  12.3      0.  90. floor        OPAQUE   CEIL -:-               susp_floor               ||< floor:corridor_h
 22  7.38    180.   0. facade       OPAQUE   VERT -:-               frc_rs_facade            ||< external
 23  3.24    270.   0. left         OPAQUE   VERT -:-               mass_part                ||< identical environment
 24  7.38      0.   0. back_of      OPAQUE   VERT -:-               mass_part                ||< identical environment
 25  3.33     90.  -0. right        OPAQUE   VERT -:-               mass_part                ||< identical environment
 26  0.605     0. -90. fill_bc_cl   OPAQUE   FLOR -:-               gyp_gyp_ptn              ||< adiabatic
 27  0.605     0. -90. fill_e+_cl   OPAQUE   FLOR -:-               gyp_gyp_ptn              ||< adiabatic
 28  0.606     0. -90. fill_ash_cl  OPAQUE   FLOR -:-               gyp_gyp_ptn              ||< adiabatic
 29  0.149     0. -90. fill_2n_cl   OPAQUE   FLOR -:-               gyp_gyp_ptn              ||< adiabatic
 30  0.605     0.  90. fill_bc_up   OPAQUE   CEIL -:-               gyp_gyp_ptn              ||< adiabatic
 31  0.605     0.  90. fill_e+_up   OPAQUE   CEIL -:-               gyp_gyp_ptn              ||< adiabatic
 32  0.606     0.  90. fill_ash_up  OPAQUE   CEIL -:-               gyp_gyp_ptn              ||< adiabatic
 33  0.149     0.  90. fill_2n_up   OPAQUE   CEIL -:-               gyp_gyp_ptn              ||< adiabatic
 34  0.090   270.   0. extr_grill   OPAQUE   VERT GRILL:EXTRACT     tank_w_50mm              ||< identical environment
 
  
In cl_void_ctm         m^2     m^2 to   m^2 to  m^2 back  m^2 to  m^2 to
MLC name               total  ambient  other z  -to-back  ground  similar
mass_part               13.9      0.0      0.0      0.0      0.0     13.9
gyp_gyp_ptn              3.9      0.0      0.0      0.0      0.0      3.9
ceiling_rev             66.0      0.0     66.0      0.0      0.0      0.0
susp_floor              66.3      0.0     66.3      0.0      0.0      0.0
tank_w_50mm              2.2      0.0      2.2      0.0      0.0      0.1
steel_gr_3mm             0.3      0.0      0.3      0.0      0.0      0.0
frc_rs_facade            7.4      7.4      0.0      0.0      0.0      0.0
 
 All surfaces will receive diffuse insolation (if shading not calculated).
 No shading analysis requested.
 No insolation analysis requested.
 
 Ventilation & infiltration is assessed via network analysis
 and the associated network node is: cl_void_ctm
 
Notes:
Nothing happens in this zone i.e. no occupants lights and small power.
Initial period of 0-24 hour for each.
 
Daytype   Gain Label     Type    Unit Period Sensible  Latent      Radiant    Convec
          No.                          Hours Magn.(W)  Magn.(W)    Fraction   Fraction
weekdays    1 Occupants  people    W    0-24      0.0      0.0       0.60       0.40
weekdays    2 Lights     lighting  W    0-24      0.0      0.0       0.30       0.70
weekdays    3 SmallPower equipment W    0-24      0.0      0.0       0.40       0.60
 
saturday    1 Occupants  people    W    0-24      0.0      0.0       0.60       0.40
saturday    2 Lights     lighting  W    0-24      0.0      0.0       0.30       0.70
saturday    3 SmallPower equipment W    0-24      0.0      0.0       0.40       0.60
 
sunday      1 Occupants  people    W    0-24      0.0      0.0       0.60       0.40
sunday      2 Lights     lighting  W    0-24      0.0      0.0       0.30       0.70
sunday      3 SmallPower equipment W    0-24      0.0      0.0       0.40       0.60
 
holiday     1 Occupants  people    W    0-24      0.0      0.0       0.60       0.40
holiday     2 Lights     lighting  W    0-24      0.0      0.0       0.30       0.70
holiday     3 SmallPower equipment W    0-24      0.0      0.0       0.40       0.60
 
winter_wkd  1 Occupants  people    W    0-24      0.0      0.0       0.60       0.40
winter_wkd  2 Lights     lighting  W    0-24      0.0      0.0       0.30       0.70
winter_wkd  3 SmallPower equipment W    0-24      0.0      0.0       0.40       0.60
 
summer_wkd  1 Occupants  people    W    0-24      0.0      0.0       0.60       0.40
summer_wkd  2 Lights     lighting  W    0-24      0.0      0.0       0.30       0.70
summer_wkd  3 SmallPower equipment W    0-24      0.0      0.0       0.40       0.60
 
 
 ____________________________________________________________
 
 Zone off_bc_ho (15) is composed of 40 surfaces and 80 vertices.
 It encloses a volume of 40.3m^3 of space, with a total surface
 area of 85.4m^2 & approx floor area of 13.5m^2
 off_bc_ho high occupancy simple occ type.
 There is 9.0000m2 of exposed surface area, 9.0000m2 of which is vertical.
 Facade opaque is 3.6800m2 &   27.3 % of floor area & average U of 0.589 & UA of 2.1693.
 Facade glazing is 5.3200m2 &  39.4 % of floor &  59.1 % facade with average U of 2.811 & UA of 14.953
 Opaque partitions:ceiling:floor 56.168m2 & trasparent partitions:ceiling:floor 4.4800m2.
 
 A summary of the surfaces in off_bc_ho(15) follows:
 
 Sur| Area  |Azim|Elev|          Surface                           | construction             |environment
    | m^2   |deg |deg | name       |optical|locat| use             | name                     |other side
  1  13.5     90.   0. pt_general   OPAQUE   VERT -:-               gyp_gyp_ptn              ||< pt_other:off_nat_vnt
  2  0.920     0.   0. part_frame   OPAQUE   VERT -:-               alum_hollow_frame        ||< part_frame:corridor_h
  3  2.32      0.   0. door         OPAQUE   VERT DOOR:UNDERCUT     door                     ||< door:corridor_h
  4  13.5    270.   0. pt_other     OPAQUE   VERT -:-               gyp_gyp_ptn              ||< identical environment
  5  13.5      0.  90. ceiling      OPAQUE   CEIL -:-               ceiling                  ||< ceiling:void_high
  6  13.5      0. -90. floor        OPAQUE   FLOR -:-               susp_flr_re              ||< floor_bc_ctm:cl_void_ctm
  7  2.70    180.   0. spandral     OPAQUE   VERT -:-               frc_rs_facade            ||< external
  8  0.980   180.   0. frame        OPAQUE   VERT F-FRAME:CRACK     alu_frame_U1.2           ||< external
  9  5.32    180.   0. glazing      DCF7671_ VERT C-WINDOW:CRACK    dbl_glz                  ||< external
 10  4.48      0.   0. part_glaz    SCF8783_ VERT -:-               single_glaz              ||< part_glaz:corridor_h
 11  1.28      0.   0. ptn_corid    OPAQUE   VERT -:-               gyp_gyp_ptn              ||< ptn_corid:corridor_h
 12  0.938     0.  90. adesk_t      OPAQUE   CEIL FURNI:-           corian_count             ||< adesk_t_:off_bc_ho
 13  0.938     0. -90. adesk_t_     OPAQUE   FLOR FURNI:-           corian_count             ||< adesk_t:off_bc_ho
 14  0.938     0.  90. bdesk_t      OPAQUE   CEIL FURNI:-           corian_count             ||< bdesk_t_:off_bc_ho
 15  0.938     0. -90. bdesk_t_     OPAQUE   FLOR FURNI:-           corian_count             ||< bdesk_t:off_bc_ho
 16  0.207     0.  90. cseat        OPAQUE   CEIL FURNI:-           upholstery               ||< cseat_:off_bc_ho
 17  0.207     0. -90. cseat_       OPAQUE   FLOR FURNI:-           upholstery               ||< cseat:off_bc_ho
 18  0.231   225.   6. cstback      OPAQUE   SLOP FURNI:-           upholstery               ||< cstback_:off_bc_ho
 19  0.231    45.  -6. cstback_     OPAQUE   SLOP FURNI:-           upholstery               ||< cstback:off_bc_ho
 20  0.207     0.  90. dseat        OPAQUE   CEIL FURNI:-           upholstery               ||< dseat_:off_bc_ho
 21  0.207     0. -90. dseat_       OPAQUE   FLOR FURNI:-           upholstery               ||< dseat:off_bc_ho
 22  0.231   190.   6. dstback      OPAQUE   SLOP FURNI:-           upholstery               ||< dstback_:off_bc_ho
 23  0.231    10.  -6. dstback_     OPAQUE   SLOP FURNI:-           upholstery               ||< dstback:off_bc_ho
 24  0.484   180.   0. ecab_lf      OPAQUE   VERT FURNI:-           steel_pl_3mm             ||< identical environment
 25  0.484     0.   0. ecab_rt      OPAQUE   VERT FURNI:-           steel_pl_3mm             ||< identical environment
 26  0.484    90.   0. ecab_fr      OPAQUE   VERT FURNI:-           file_papers              ||< identical environment
 27  0.484   270.   0. ecab_bk      OPAQUE   VERT FURNI:-           file_papers              ||< identical environment
 28  0.152     0. -90. ecab_to      OPAQUE   FLOR FURNI:-           steel_gr_3mm             ||< identical environment
 29  0.152     0.  90. ecab_bs      OPAQUE   CEIL FURNI:-           steel_gr_3mm             ||< identical environment
 30  0.500   180.   0. fbil_lft     OPAQUE   VERT FURNI:-           furn_wd10mm              ||< fbil_lft_:off_bc_ho
 31  0.500     0.   0. fbil_lft_    OPAQUE   VERT FURNI:-           furn_wd10mm              ||< fbil_lft:off_bc_ho
 32  0.500   180.   0. fbil_rt      OPAQUE   VERT FURNI:-           furn_wd10mm              ||< fbil_rt_:off_bc_ho
 33  0.500     0.   0. fbil_rt_     OPAQUE   VERT FURNI:-           furn_wd10mm              ||< fbil_rt:off_bc_ho
 34  1.55    270.   0. fbooks       OPAQUE   VERT FURNI:-           stuffonshelf             ||< fbooks_:off_bc_ho
 35  1.55     90.   0. fbooks_      OPAQUE   VERT FURNI:-           stuffonshelf             ||< fbooks:off_bc_ho
 36  0.148    90.   0. gcase        OPAQUE   VERT FURNI:-           IT_case                  ||< gcase_:off_bc_ho
 37  0.148   270.   0. gcase_       OPAQUE   VERT FURNI:-           IT_case                  ||< gcase:off_bc_ho
 38  0.123    90.   0. gcircuit     OPAQUE   VERT FURNI:-           circuit_bd               ||< gcircuit_:off_bc_ho
 39  0.123   270.   0. gcircuit_    OPAQUE   VERT FURNI:-           circuit_bd               ||< gcircuit:off_bc_ho
 40  0.040     0.  90. grill        OPAQUE   CEIL GRILL:INLET       steel_gr_3mm             ||< grill_bc:void_high
 
Surface      Width(m)   Height(m)  Above ffl...
door            0.80       2.90      0.00    DOOR
frame           3.00       2.10      0.90    F-FRAME
glazing         2.80       1.90      1.00    C-WINDOW
  
In off_bc_ho           m^2     m^2 to   m^2 to  m^2 back  m^2 to  m^2 to
MLC name               total  ambient  other z  -to-back  ground  similar
gyp_gyp_ptn             28.3      0.0     14.8      0.0      0.0     13.5
door                     2.3      0.0      2.3      0.0      0.0      0.0
dbl_glz                  5.3      5.3      0.0      0.0      0.0      0.0
single_glaz              4.5      0.0      4.5      0.0      0.0      0.0
ceiling                 13.5      0.0     13.5      0.0      0.0      0.0
susp_flr_re             13.5      0.0     13.5      0.0      0.0      0.0
steel_pl_3mm             1.0      0.0      0.0      0.0      0.0      1.0
circuit_bd               0.1      0.0      0.0      0.1      0.0      0.0
upholstery               0.9      0.0      0.0      0.9      0.0      0.0
corian_count             1.9      0.0      0.0      1.9      0.0      0.0
IT_case                  0.1      0.0      0.0      0.1      0.0      0.0
furn_wd10mm              1.0      0.0      0.0      1.0      0.0      0.0
steel_gr_3mm             0.3      0.0      0.0      0.0      0.0      0.3
file_papers              1.0      0.0      0.0      0.0      0.0      1.0
stuffonshelf             1.6      0.0      0.0      1.6      0.0      0.0
alum_hollow_frame        0.9      0.0      0.9      0.0      0.0      0.0
alu_frame_U1.2           1.0      1.0      0.0      0.0      0.0      0.0
frc_rs_facade            2.7      2.7      0.0      0.0      0.0      0.0
 
 An hourly solar radiation distribution is used for this zone.
 Surfaces (all applicable) for shading analysis:
spandral frame glazing
 Insolation sources (all applicable):
glazing
 Explicit viewfactors have been derived for this zone.
Block  X-     Y-    Z-coords   DX-    DY-    DZ-values  Orientation   Opacity  Name  Construction
  1     0.0    -0.1    10.3     6.0     0.0     0.3     0.0     0.0 1.00 ob1 door
  2     0.0    -0.3    10.3     6.0     0.0     0.2     0.0     0.0 1.00 ob2 door
  3     0.0    -0.5    10.3     6.0     0.0     0.2     0.0     0.0 1.00 ob3 door
  4     0.0    -0.7    10.3     6.0     0.0     0.2     0.0     0.0 1.00 ob4 door
  5     0.0    -0.9    10.3     6.0     0.0     0.2     0.0     0.0 1.00 ob5 door
  6     0.0    -1.1    10.3     6.0     0.0     0.2     0.0     0.0 1.00 ob6 door
 
visual type name    composition        visual type name    composition
 vis 1rot  adesk_top  corian_count     vis 1rot  dl_arm_rest steel_gr_3mm
 vis 1rot  adesk_leg_a steel_pl_3mm    vis 1rot  droll_a sensor_case
 vis 1rot  adesk_leg_b steel_pl_3mm    vis 1rot  droll_b sensor_case
 vis 1rot  adesk_leg_c steel_pl_3mm    vis 1rot  droll_c sensor_case
 vis 1rot  adesk_leg_d steel_pl_3mm    vis 1rot  droll_d sensor_case
 vis 1rot  bdesk_top  corian_count     vis 1rot  ef_cabinet steel_pl_3mm
 vis 1rot  bdesk_leg_a steel_pl_3mm    vis 1rot  edrw_a steel_gr_3mm
 vis 1rot  bdesk_leg_b steel_pl_3mm    vis 1rot  edrw_b steel_gr_3mm
 vis 1rot  bdesk_leg_c steel_pl_3mm    vis 1rot  edrw_c steel_gr_3mm
 vis 1rot  bdesk_leg_d steel_pl_3mm    vis 1rot  edrw_d steel_gr_3mm
 vis 1rot  cseat      upholstery       vis 1rot  fleft_ver furn_wd10mm
 vis 1rot  cr_arm     upholstery       vis 1rot  fright_ver furn_wd10mm
 vis 1rot  cl_arm     upholstery       vis 1rot  fbil_bk furn_wd10mm
 vis 1rot  cl_arm     upholstery       vis 1rot  fbil_bk furn_wd10mm
 vis 1rot  ccross_a   steel_gr_3mm     vis 1rot  fshelf_b furn_wd10mm
 vis 1rot  ccross_b   steel_gr_3mm     vis 1rot  fshelf_c furn_wd10mm
 vis 1rot  cpost      PH_alu_frame     vis 1rot  fshelf_d furn_wd10mm
 vis 1rot  cr_arm_rest steel_gr_3mm    vis 1rot  fshelf_e furn_wd10mm
 vis 1rot  cl_arm_rest steel_gr_3mm    vis 1rot  fbil_top furn_wd10mm
 vis 1rot  croll_a    sensor_case      vis 1rot  fkick furn_wd10mm
 vis 1rot  croll_b    sensor_case      vis 1rot  flow_books stuffonshelf
 vis 1rot  croll_c    sensor_case      vis 1rot  f2nd_books stuffonshelf
 vis 1rot  croll_d    sensor_case      vis 1rot  f3rd_books booksonshlf
 vis 1rot  dseat      upholstery       vis 1rot  f4th_books booksonshlf
 vis 1rot  dr_arm     upholstery       vis 1rot  ftop_books booksonshlf
 vis 1rot  dl_arm     upholstery       vis 1rot  gdbase IT_case
 vis 1rot  dl_arm     upholstery       vis 1rot  gdbase IT_case
 vis 1rot  dcross_a   steel_gr_3mm     vis 1rot  gdlow_edge IT_case
 vis 1rot  dcross_b   steel_gr_3mm     vis 1rot  gdup_edge IT_case
 vis 1rot  dpost      PH_alu_frame     vis 1rot  gdlft_edge IT_case
 vis 1rot  dr_arm_rest steel_gr_3mm    vis 1rot  gdrt_edge IT_case
                                       vis 1rot  gdscreen   collector_pl
 
 Shading patterns have been calculated for this zone.
 
 Ventilation & infiltration is assessed via network analysis
 and the associated network node is: off_bc_ho
 
Notes:
office with diversity of higher occupancy lights at 10W/m2 and small
power on weekdays at 5W/m2 standby light & power on holidays. Uses
simple occupant definitions.
 
Daytype   Gain Label     Type    Unit Period Sensible  Latent      Radiant    Convec
          No.                          Hours Magn.(W)  Magn.(W)    Fraction   Fraction
weekdays    1 Occupt     people    W    0- 7      0.0      0.0       0.60       0.40
weekdays    2 Occupt     people    W    7- 8     20.0     10.0       0.60       0.40
weekdays    3 Occupt     people    W    8- 9     80.0     40.0       0.60       0.40
weekdays    4 Occupt     people    W    9-12    200.0    100.0       0.60       0.40
weekdays    5 Occupt     people    W   12-14     65.0     32.5       0.60       0.40
weekdays    6 Occupt     people    W   14-17    180.0     90.0       0.60       0.40
weekdays    7 Occupt     people    W   17-24      0.0      0.0       0.50       0.50
weekdays    8 Lights     lighting  Wm2  0- 8      0.0      0.0       0.50       0.50
weekdays    9 Lights     lighting  Wm2  8-18     10.0      0.0       0.30       0.70
weekdays   10 Lights     lighting  Wm2 18-24      0.0      0.0       0.50       0.50
weekdays   11 Equipt     equipment Wm2  0- 8      0.0      0.0       0.50       0.50
weekdays   12 Equipt     equipment Wm2  8-14      5.0      0.0       0.40       0.60
weekdays   13 Equipt     equipment Wm2 14-18      8.0      0.0       0.40       0.60
weekdays   14 Equipt     equipment Wm2 18-24      0.0      0.0       0.50       0.50
 
saturday    1 Occupt     people    W    0- 7      0.0      0.0       0.50       0.50
saturday    2 Occupt     people    W    7- 8     20.0     10.0       0.60       0.40
saturday    3 Occupt     people    W    8- 9     60.0     30.0       0.60       0.40
saturday    4 Occupt     people    W    9-12    190.0     90.0       0.60       0.40
saturday    5 Occupt     people    W   12-14     65.0     32.5       0.60       0.40
saturday    6 Occupt     people    W   14-17     40.0     30.0       0.60       0.40
saturday    7 Occupt     people    W   17-24      0.0      0.0       0.60       0.40
saturday    8 Lights     lighting  Wm2  0- 8      0.0      0.0       0.50       0.50
saturday    9 Lights     lighting  Wm2  8-12     10.0      0.0       0.30       0.70
saturday   10 Lights     lighting  Wm2 12-24      0.0      0.0       0.50       0.50
saturday   11 Equipt     equipment Wm2  0- 9      2.0      0.0       0.50       0.50
saturday   12 Equipt     equipment Wm2  9-14      5.0      0.0       0.50       0.50
saturday   13 Equipt     equipment Wm2 14-24      0.0      0.0       0.50       0.50
 
sunday      1 Occupt     people    W    0-24      0.0      0.0       0.60       0.40
sunday      2 Lights     lighting  Wm2  0-24      1.0      0.0       0.50       0.50
sunday      3 Equipt     equipment Wm2  0-24      2.0      0.0       0.50       0.50
 
holiday     1 Occupt     people    W    0-24      0.0      0.0       0.60       0.40
holiday     2 Lights     lighting  Wm2  0-24      1.0      0.0       0.30       0.70
holiday     3 Equipt     equipment Wm2  0-24      2.0      0.0       0.50       0.50
 
winter_wkd  1 Occupt     people    W    0- 7      0.0      0.0       0.60       0.40
winter_wkd  2 Occupt     people    W    7- 8     20.0     10.0       0.60       0.40
winter_wkd  3 Occupt     people    W    8- 9     80.0     40.0       0.60       0.40
winter_wkd  4 Occupt     people    W    9-12    200.0    100.0       0.60       0.40
winter_wkd  5 Occupt     people    W   12-14     65.0     32.5       0.60       0.40
winter_wkd  6 Occupt     people    W   14-17    180.0     90.0       0.60       0.40
winter_wkd  7 Occupt     people    W   17-24      0.0      0.0       0.50       0.50
winter_wkd  8 Lights     lighting  Wm2  0- 8      0.0      0.0       0.50       0.50
winter_wkd  9 Lights     lighting  Wm2  8-18     10.0      0.0       0.30       0.70
winter_wkd 10 Lights     lighting  Wm2 18-24      0.0      0.0       0.50       0.50
winter_wkd 11 Equipt     equipment Wm2  0- 8      0.0      0.0       0.50       0.50
winter_wkd 12 Equipt     equipment Wm2  8-14      5.0      0.0       0.40       0.60
winter_wkd 13 Equipt     equipment Wm2 14-18      8.0      0.0       0.40       0.60
winter_wkd 14 Equipt     equipment Wm2 18-24      0.0      0.0       0.50       0.50
 
summer_wkd  1 Occupt     people    W    0- 7      0.0      0.0       0.60       0.40
summer_wkd  2 Occupt     people    W    7- 8     20.0     10.0       0.60       0.40
summer_wkd  3 Occupt     people    W    8- 9     80.0     40.0       0.60       0.40
summer_wkd  4 Occupt     people    W    9-12    200.0    100.0       0.60       0.40
summer_wkd  5 Occupt     people    W   12-14     65.0     32.5       0.60       0.40
summer_wkd  6 Occupt     people    W   14-17    180.0     90.0       0.60       0.40
summer_wkd  7 Occupt     people    W   17-24      0.0      0.0       0.50       0.50
summer_wkd  8 Lights     lighting  Wm2  0- 8      0.0      0.0       0.50       0.50
summer_wkd  9 Lights     lighting  Wm2  8-18     10.0      0.0       0.30       0.70
summer_wkd 10 Lights     lighting  Wm2 18-24      0.0      0.0       0.50       0.50
summer_wkd 11 Equipt     equipment Wm2  0- 8      0.0      0.0       0.50       0.50
summer_wkd 12 Equipt     equipment Wm2  8-14      5.0      0.0       0.40       0.60
summer_wkd 13 Equipt     equipment Wm2 14-18      8.0      0.0       0.40       0.60
summer_wkd 14 Equipt     equipment Wm2 18-24      0.0      0.0       0.50       0.50
 
 
 ____________________________________________________________
 
 Zone off_nat_vnt (16) is composed of 42 surfaces and 84 vertices.
 It encloses a volume of 40.3m^3 of space, with a total surface
 area of 85.4m^2 & approx floor area of 13.5m^2
 off_nat_vnt with 2 node occupants high occupancy nat vent
 There is 9.0000m2 of exposed surface area, 9.0000m2 of which is vertical.
 Facade opaque is 3.6800m2 &   27.3 % of floor area & average U of 0.589 & UA of 2.1693.
 Facade glazing is 5.3200m2 &  39.4 % of floor &  59.1 % facade with average U of 2.811 & UA of 14.953
 Opaque partitions:ceiling:floor 69.668m2 & trasparent partitions:ceiling:floor 4.4800m2.
 
 A summary of the surfaces in off_nat_vnt(16) follows:
 
 Sur| Area  |Azim|Elev|          Surface                           | construction             |environment
    | m^2   |deg |deg | name       |optical|locat| use             | name                     |other side
  1  13.5     90.   0. pt_general   OPAQUE   VERT -:-               gyp_gyp_ptn              ||< pt_other:off_2z_nv
  2  0.920     0.   0. part_frame   OPAQUE   VERT -:-               alum_hollow_frame        ||< part_frm_e+:corridor_h
  3  2.32      0.   0. door         OPAQUE   VERT DOOR:UNDERCUT     door                     ||< door_e+:corridor_h
  4  13.5    270.   0. pt_other     OPAQUE   VERT -:-               gyp_gyp_ptn              ||< pt_general:off_bc_ho
  5  13.5      0.  90. ceiling      OPAQUE   CEIL -:-               ceiling                  ||< ceiling_e+:void_high
  6  13.5      0. -90. floor        OPAQUE   FLOR -:-               susp_flr_re              ||< floor_e+_ctm:cl_void_ctm
  7  2.70    180.   0. spandral     OPAQUE   VERT -:-               frc_rs_facade            ||< external
  8  0.980   180.   0. frame        OPAQUE   VERT F-FRAME:CRACK     alu_frame_U1.2           ||< external
  9  4.20    180.   0. glazing      DCF7671_ VERT C-WINDOW:CRACK    dbl_glz                  ||< external
 10  4.48      0.   0. part_glaz    SCF8783_ VERT -:-               single_glaz              ||< glass_e+:corridor_h
 11  1.28      0.   0. ptn_corid    OPAQUE   VERT -:-               gyp_gyp_ptn              ||< ptn_corid_e+:corridor_h
 12  0.938     0.  90. adesk_t      OPAQUE   CEIL FURNI:-           corian_count             ||< adesk_t_:off_nat_vnt
 13  0.938     0. -90. adesk_t_     OPAQUE   FLOR FURNI:-           corian_count             ||< adesk_t:off_nat_vnt
 14  0.938     0.  90. bdesk_t      OPAQUE   CEIL FURNI:-           corian_count             ||< bdesk_t_:off_nat_vnt
 15  0.938     0. -90. bdesk_t_     OPAQUE   FLOR FURNI:-           corian_count             ||< bdesk_t:off_nat_vnt
 16  0.207     0.  90. cseat        OPAQUE   CEIL FURNI:-           upholstery               ||< cseat_:off_nat_vnt
 17  0.207     0. -90. cseat_       OPAQUE   FLOR FURNI:-           upholstery               ||< cseat:off_nat_vnt
 18  0.231   225.   6. cstback      OPAQUE   SLOP FURNI:-           upholstery               ||< cstback_:off_nat_vnt
 19  0.231    45.  -6. cstback_     OPAQUE   SLOP FURNI:-           upholstery               ||< cstback:off_nat_vnt
 20  0.207     0.  90. dseat        OPAQUE   CEIL FURNI:-           upholstery               ||< dseat_:off_nat_vnt
 21  0.207     0. -90. dseat_       OPAQUE   FLOR FURNI:-           upholstery               ||< dseat:off_nat_vnt
 22  0.231   190.   6. dstback      OPAQUE   SLOP FURNI:-           upholstery               ||< dstback_:off_nat_vnt
 23  0.231    10.  -6. dstback_     OPAQUE   SLOP FURNI:-           upholstery               ||< dstback:off_nat_vnt
 24  0.484   180.   0. ecab_lf      OPAQUE   VERT FURNI:-           steel_pl_3mm             ||< identical environment
 25  0.484     0.   0. ecab_rt      OPAQUE   VERT FURNI:-           steel_pl_3mm             ||< identical environment
 26  0.484    90.   0. ecab_fr      OPAQUE   VERT FURNI:-           file_papers              ||< identical environment
 27  0.484   270.   0. ecab_bk      OPAQUE   VERT FURNI:-           file_papers              ||< identical environment
 28  0.152     0. -90. ecab_to      OPAQUE   FLOR FURNI:-           steel_gr_3mm             ||< identical environment
 29  0.152     0.  90. ecab_bs      OPAQUE   CEIL FURNI:-           steel_gr_3mm             ||< identical environment
 30  0.500   180.   0. fbil_lft     OPAQUE   VERT FURNI:-           furn_wd10mm              ||< fbil_lft_:off_nat_vnt
 31  0.500     0.   0. fbil_lft_    OPAQUE   VERT FURNI:-           furn_wd10mm              ||< fbil_lft:off_nat_vnt
 32  0.500   180.   0. fbil_rt      OPAQUE   VERT FURNI:-           furn_wd10mm              ||< fbil_rt_:off_nat_vnt
 33  0.500     0.   0. fbil_rt_     OPAQUE   VERT FURNI:-           furn_wd10mm              ||< fbil_rt:off_nat_vnt
 34  1.55    270.   0. fbooks       OPAQUE   VERT FURNI:-           stuffonshelf             ||< fbooks_:off_nat_vnt
 35  1.55     90.   0. fbooks_      OPAQUE   VERT FURNI:-           stuffonshelf             ||< fbooks:off_nat_vnt
 36  0.148    90.   0. gcase        OPAQUE   VERT FURNI:-           IT_case                  ||< gcase_:off_nat_vnt
 37  0.148   270.   0. gcase_       OPAQUE   VERT FURNI:-           IT_case                  ||< gcase:off_nat_vnt
 38  0.123    90.   0. gcircuit     OPAQUE   VERT FURNI:-           circuit_bd               ||< gcircuit_:off_nat_vnt
 39  0.123   270.   0. gcircuit_    OPAQUE   VERT FURNI:-           circuit_bd               ||< gcircuit:off_nat_vnt
 40  0.040     0.  90. grill        OPAQUE   CEIL GRILL:INLET       steel_gr_3mm             ||< grill_e+:void_high
 41  0.560   180.   0. top_gl_open  DCF7671_ VERT C-WINDOW:-        dbl_glz                  ||< external
 42  0.560   180.   0. low_glaze_ve DCF7671_ VERT C-WINDOW:-        dbl_glz                  ||< external
 
Surface      Width(m)   Height(m)  Above ffl...
door            0.80       2.90      0.00    DOOR
frame           3.00       2.10      0.90    F-FRAME
glazing         2.80       1.50      1.20    C-WINDOW
top_gl_open     2.80       0.20      2.70    C-WINDOW
low_glaze_ve    2.80       0.20      1.00    C-WINDOW
  
In off_nat_vnt         m^2     m^2 to   m^2 to  m^2 back  m^2 to  m^2 to
MLC name               total  ambient  other z  -to-back  ground  similar
gyp_gyp_ptn             28.3      0.0     28.3      0.0      0.0      0.0
door                     2.3      0.0      2.3      0.0      0.0      0.0
dbl_glz                  5.3      5.3      0.0      0.0      0.0      0.0
single_glaz              4.5      0.0      4.5      0.0      0.0      0.0
ceiling                 13.5      0.0     13.5      0.0      0.0      0.0
susp_flr_re             13.5      0.0     13.5      0.0      0.0      0.0
steel_pl_3mm             1.0      0.0      0.0      0.0      0.0      1.0
circuit_bd               0.1      0.0      0.0      0.1      0.0      0.0
upholstery               0.9      0.0      0.0      0.9      0.0      0.0
corian_count             1.9      0.0      0.0      1.9      0.0      0.0
IT_case                  0.1      0.0      0.0      0.1      0.0      0.0
furn_wd10mm              1.0      0.0      0.0      1.0      0.0      0.0
steel_gr_3mm             0.3      0.0      0.0      0.0      0.0      0.3
file_papers              1.0      0.0      0.0      0.0      0.0      1.0
stuffonshelf             1.6      0.0      0.0      1.6      0.0      0.0
alum_hollow_frame        0.9      0.0      0.9      0.0      0.0      0.0
alu_frame_U1.2           1.0      1.0      0.0      0.0      0.0      0.0
frc_rs_facade            2.7      2.7      0.0      0.0      0.0      0.0
 
 An hourly solar radiation distribution is used for this zone.
 Surfaces (all applicable) for shading analysis:
spandral frame glazing
 Insolation sources (all applicable):
glazing
 Explicit viewfactors have been derived for this zone.
Block  X-     Y-    Z-coords   DX-    DY-    DZ-values  Orientation   Opacity  Name  Construction
  1     3.1    -0.1    10.3     6.0     0.0     0.3     0.0     0.0 1.00 ob1 door
  2     3.1    -0.3    10.3     6.0     0.0     0.2     0.0     0.0 1.00 ob2 door
  3     3.1    -0.5    10.3     6.0     0.0     0.2     0.0     0.0 1.00 ob3 door
  4     3.1    -0.7    10.3     6.0     0.0     0.2     0.0     0.0 1.00 ob4 door
  5     3.1    -0.9    10.3     6.0     0.0     0.2     0.0     0.0 1.00 ob5 door
  6     3.1    -1.1    10.3     6.0     0.0     0.2     0.0     0.0 1.00 ob6 door
 
visual type name    composition        visual type name    composition
 vis 1rot  adesk_top  corian_count     vis 1rot  dl_arm_rest steel_gr_3mm
 vis 1rot  adesk_leg_a steel_pl_3mm    vis 1rot  droll_a sensor_case
 vis 1rot  adesk_leg_b steel_pl_3mm    vis 1rot  droll_b sensor_case
 vis 1rot  adesk_leg_c steel_pl_3mm    vis 1rot  droll_c sensor_case
 vis 1rot  adesk_leg_d steel_pl_3mm    vis 1rot  droll_d sensor_case
 vis 1rot  bdesk_top  corian_count     vis 1rot  ef_cabinet steel_pl_3mm
 vis 1rot  bdesk_leg_a steel_pl_3mm    vis 1rot  edrw_a steel_gr_3mm
 vis 1rot  bdesk_leg_b steel_pl_3mm    vis 1rot  edrw_b steel_gr_3mm
 vis 1rot  bdesk_leg_c steel_pl_3mm    vis 1rot  edrw_c steel_gr_3mm
 vis 1rot  bdesk_leg_d steel_pl_3mm    vis 1rot  edrw_d steel_gr_3mm
 vis 1rot  cseat      upholstery       vis 1rot  fleft_ver furn_wd10mm
 vis 1rot  cr_arm     upholstery       vis 1rot  fright_ver furn_wd10mm
 vis 1rot  cl_arm     upholstery       vis 1rot  fbil_bk furn_wd10mm
 vis 1rot  cl_arm     upholstery       vis 1rot  fbil_bk furn_wd10mm
 vis 1rot  ccross_a   steel_gr_3mm     vis 1rot  fshelf_b furn_wd10mm
 vis 1rot  ccross_b   steel_gr_3mm     vis 1rot  fshelf_c furn_wd10mm
 vis 1rot  cpost      PH_alu_frame     vis 1rot  fshelf_d furn_wd10mm
 vis 1rot  cr_arm_rest steel_gr_3mm    vis 1rot  fshelf_e furn_wd10mm
 vis 1rot  cl_arm_rest steel_gr_3mm    vis 1rot  fbil_top furn_wd10mm
 vis 1rot  croll_a    sensor_case      vis 1rot  fkick furn_wd10mm
 vis 1rot  croll_b    sensor_case      vis 1rot  flow_books stuffonshelf
 vis 1rot  croll_c    sensor_case      vis 1rot  f2nd_books stuffonshelf
 vis 1rot  croll_d    sensor_case      vis 1rot  f3rd_books booksonshlf
 vis 1rot  dseat      upholstery       vis 1rot  f4th_books booksonshlf
 vis 1rot  dr_arm     upholstery       vis 1rot  ftop_books booksonshlf
 vis 1rot  dl_arm     upholstery       vis 1rot  gdbase IT_case
 vis 1rot  dl_arm     upholstery       vis 1rot  gdbase IT_case
 vis 1rot  dcross_a   steel_gr_3mm     vis 1rot  gdlow_edge IT_case
 vis 1rot  dcross_b   steel_gr_3mm     vis 1rot  gdup_edge IT_case
 vis 1rot  dpost      PH_alu_frame     vis 1rot  gdlft_edge IT_case
 vis 1rot  dr_arm_rest steel_gr_3mm    vis 1rot  gdrt_edge IT_case
                                       vis 1rot  gdscreen   collector_pl
 
 Shading patterns have been calculated for this zone.
 
 Ventilation & infiltration is assessed via network analysis
 and the associated network node is: off_nat_vnt
 
Notes:
higher dynamic occupancy via energyplus polynomial technique
 
Daytype   Gain Label     Type    Unit Period     Number of      Metabo-  Clo   Air   Radiant    Convec
          No.                         Hours  Men   Women Child  lic Rate Value Velo.  Fraction   Fraction
                                           Sensible  Latent     Radiant    Convec
          No.                              Magn.(W)  Magn.(W)   Fraction   Fraction
weekdays    1 Metabolic  dynamic_p ocu  0- 7  0.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
weekdays    2 Metabolic  dynamic_p ocu  7- 8  1.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
weekdays    3 Metabolic  dynamic_p ocu  8-11  1.00  1.00  0.00  1.40  0.60  1.00       0.60       0.40
weekdays    4 Metabolic  dynamic_p ocu 11-12  1.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
weekdays    5 Metabolic  dynamic_p ocu 12-14  1.00  0.50  0.00  1.40  0.60  1.00       0.60       0.40
weekdays    6 Metabolic  dynamic_p ocu 14-17  1.00  1.00  0.00  1.40  0.60  1.00       0.60       0.40
weekdays    7 Metabolic  dynamic_p ocu 17-24  0.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
weekdays    8 Light      lighting  Wm2  0- 8      0.0      0.0       0.30       0.70
weekdays    9 Light      lighting  Wm2  8-12     10.0      0.0       0.30       0.70
weekdays   10 Light      lighting  Wm2 18-24      0.0      0.0       0.30       0.70
weekdays   11 Equipment  equipment Wm2  0- 8      0.0      0.0       0.40       0.60
weekdays   12 Equipment  equipment Wm2  8-12      5.0      0.0       0.40       0.60
weekdays   13 Equipment  equipment Wm2 18-24      0.0      0.0       0.40       0.60
 
saturday    1 Metabolic  dynamic_p ocu  0- 7  0.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
saturday    2 Metabolic  dynamic_p ocu  7- 8  1.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
saturday    3 Metabolic  dynamic_p ocu  8- 9  1.00  1.00  0.00  1.40  0.60  1.00       0.60       0.40
saturday    4 Metabolic  dynamic_p ocu  9-12  1.00  1.00  0.00  1.40  0.60  1.00       0.60       0.40
saturday    5 Metabolic  dynamic_p ocu 12-14  1.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
saturday    6 Metabolic  dynamic_p ocu 14-17  1.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
saturday    7 Metabolic  dynamic_p ocu 17-24  0.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
saturday    8 Light      lighting  Wm2  0- 8      0.0      0.0       0.30       0.70
saturday    9 Light      lighting  Wm2  8-12     10.0      0.0       0.30       0.70
saturday   10 Light      lighting  Wm2 12-24      0.0      0.0       0.30       0.70
saturday   11 Equipment  equipment Wm2  0-24      0.0      0.0       0.40       0.60
 
sunday      1 Metabolic  dynamic_p ocu  0-24  0.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
sunday      2 Light      lighting  Wm2  0-24      0.0      0.0       0.30       0.70
sunday      3 Equipment  equipment Wm2  0-24      0.0      0.0       0.40       0.60
 
holiday     1 Metabolic  dynamic_p ocu  0-24  0.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
holiday     2 Light      lighting  Wm2  0-24      0.0      0.0       0.30       0.70
holiday     3 Equipment  equipment Wm2  0-24      0.0      0.0       0.40       0.60
 
winter_wkd  1 Metabolic  dynamic_p ocu  0- 7  0.00  0.00  0.00  1.40  1.10  1.00       0.60       0.40
winter_wkd  2 Metabolic  dynamic_p ocu  7- 8  1.00  0.00  0.00  1.40  1.10  1.00       0.60       0.40
winter_wkd  3 Metabolic  dynamic_p ocu  8-11  1.00  1.00  0.00  1.40  1.10  1.00       0.60       0.40
winter_wkd  4 Metabolic  dynamic_p ocu 11-12  1.00  0.00  0.00  1.40  1.10  1.00       0.60       0.40
winter_wkd  5 Metabolic  dynamic_p ocu 12-14  1.00  0.50  0.00  1.40  1.10  1.00       0.60       0.40
winter_wkd  6 Metabolic  dynamic_p ocu 14-17  1.00  1.00  0.00  1.40  1.10  1.00       0.60       0.40
winter_wkd  7 Metabolic  dynamic_p ocu 17-24  0.00  0.00  0.00  1.40  1.10  1.00       0.60       0.40
winter_wkd  8 Light      lighting  Wm2  0- 8      0.0      0.0       0.30       0.70
winter_wkd  9 Light      lighting  Wm2  8-12     10.0      0.0       0.30       0.70
winter_wkd 10 Light      lighting  Wm2 18-24      0.0      0.0       0.30       0.70
winter_wkd 11 Equipment  equipment Wm2  0- 8      0.0      0.0       0.40       0.60
winter_wkd 12 Equipment  equipment Wm2  8-12      5.0      0.0       0.40       0.60
winter_wkd 13 Equipment  equipment Wm2 18-24      0.0      0.0       0.40       0.60
 
summer_wkd  1 Metabolic  dynamic_p ocu  0- 7  0.00  0.00  0.00  1.40  0.40  1.00       0.60       0.40
summer_wkd  2 Metabolic  dynamic_p ocu  7- 8  1.00  0.00  0.00  1.40  0.40  1.00       0.60       0.40
summer_wkd  3 Metabolic  dynamic_p ocu  8-11  1.00  1.00  0.00  1.40  0.40  1.00       0.60       0.40
summer_wkd  4 Metabolic  dynamic_p ocu 11-12  1.00  0.00  0.00  1.40  0.40  1.00       0.60       0.40
summer_wkd  5 Metabolic  dynamic_p ocu 12-14  1.00  0.50  0.00  1.40  0.40  1.00       0.60       0.40
summer_wkd  6 Metabolic  dynamic_p ocu 14-17  1.00  1.00  0.00  1.40  0.40  1.00       0.60       0.40
summer_wkd  7 Metabolic  dynamic_p ocu 17-24  0.00  0.00  0.00  1.40  0.40  1.00       0.60       0.40
summer_wkd  8 Light      lighting  Wm2  0- 8      0.0      0.0       0.30       0.70
summer_wkd  9 Light      lighting  Wm2  8-12     10.0      0.0       0.30       0.70
summer_wkd 10 Light      lighting  Wm2 18-24      0.0      0.0       0.30       0.70
summer_wkd 11 Equipment  equipment Wm2  0- 8      0.0      0.0       0.40       0.60
summer_wkd 12 Equipment  equipment Wm2  8-12      5.0      0.0       0.40       0.60
summer_wkd 13 Equipment  equipment Wm2 18-24      0.0      0.0       0.40       0.60
 
 
 ____________________________________________________________
 
 Zone off_2z_nv (17) is composed of 42 surfaces and 84 vertices.
 It encloses a volume of 40.3m^3 of space, with a total surface
 area of 85.4m^2 & approx floor area of 13.5m^2
 off_2z_nv low level 2 zone occupant with natural vent
 There is 9.0000m2 of exposed surface area, 9.0000m2 of which is vertical.
 Facade opaque is 3.6800m2 &   27.3 % of floor area & average U of 0.589 & UA of 2.1693.
 Facade glazing is 5.3200m2 &  39.4 % of floor &  59.1 % facade with average U of 2.811 & UA of 14.953
 Opaque partitions:ceiling:floor 69.668m2 & trasparent partitions:ceiling:floor 4.4800m2.
 
 A summary of the surfaces in off_2z_nv(17) follows:
 
 Sur| Area  |Azim|Elev|          Surface                           | construction             |environment
    | m^2   |deg |deg | name       |optical|locat| use             | name                     |other side
  1  13.5     90.   0. pt_general   OPAQUE   VERT -:-               gyp_gyp_ptn              ||< pt_other:off_2z_ho
  2  0.920     0.   0. part_frame   OPAQUE   VERT -:-               alum_hollow_frame        ||< part_fr_ash:corridor_h
  3  2.32      0.   0. door         OPAQUE   VERT DOOR:UNDERCUT     door                     ||< door_ash:corridor_h
  4  13.5    270.   0. pt_other     OPAQUE   VERT -:-               gyp_gyp_ptn              ||< pt_general:off_nat_vnt
  5  13.5      0.  90. ceiling      OPAQUE   CEIL -:-               ceiling                  ||< ceiling_ash:void_high
  6  13.5      0. -90. floor        OPAQUE   FLOR -:-               susp_flr_re              ||< floor_ash:cl_void_ctm
  7  2.70    180.   0. spandral     OPAQUE   VERT -:-               frc_rs_facade            ||< external
  8  0.980   180.   0. frame        OPAQUE   VERT F-FRAME:CRACK     alu_frame_U1.2           ||< external
  9  4.20    180.   0. glazing      DCF7671_ VERT C-WINDOW:CRACK    dbl_glz                  ||< external
 10  4.48      0.   0. part_glaz    SCF8783_ VERT -:-               single_glaz              ||< glaz_ash:corridor_h
 11  1.28      0.   0. ptn_corid    OPAQUE   VERT -:-               gyp_gyp_ptn              ||< ptn_door_ash:corridor_h
 12  0.938     0.  90. adesk_t      OPAQUE   CEIL FURNI:-           corian_count             ||< adesk_t_:off_2z_nv
 13  0.938     0. -90. adesk_t_     OPAQUE   FLOR FURNI:-           corian_count             ||< adesk_t:off_2z_nv
 14  0.938     0.  90. bdesk_t      OPAQUE   CEIL FURNI:-           corian_count             ||< bdesk_t_:off_2z_nv
 15  0.938     0. -90. bdesk_t_     OPAQUE   FLOR FURNI:-           corian_count             ||< bdesk_t:off_2z_nv
 16  0.207     0.  90. cseat        OPAQUE   CEIL FURNI:-           upholstery               ||< cseat_:off_2z_nv
 17  0.207     0. -90. cseat_       OPAQUE   FLOR FURNI:-           upholstery               ||< cseat:off_2z_nv
 18  0.231   225.   6. cstback      OPAQUE   SLOP FURNI:-           upholstery               ||< cstback_:off_2z_nv
 19  0.231    45.  -6. cstback_     OPAQUE   SLOP FURNI:-           upholstery               ||< cstback:off_2z_nv
 20  0.207     0.  90. dseat        OPAQUE   CEIL FURNI:-           upholstery               ||< dseat_:off_2z_nv
 21  0.207     0. -90. dseat_       OPAQUE   FLOR FURNI:-           upholstery               ||< dseat:off_2z_nv
 22  0.231   190.   6. dstback      OPAQUE   SLOP FURNI:-           upholstery               ||< dstback_:off_2z_nv
 23  0.231    10.  -6. dstback_     OPAQUE   SLOP FURNI:-           upholstery               ||< dstback:off_2z_nv
 24  0.484   180.   0. ecab_lf      OPAQUE   VERT FURNI:-           steel_pl_3mm             ||< identical environment
 25  0.484     0.   0. ecab_rt      OPAQUE   VERT FURNI:-           steel_pl_3mm             ||< identical environment
 26  0.484    90.   0. ecab_fr      OPAQUE   VERT FURNI:-           file_papers              ||< identical environment
 27  0.484   270.   0. ecab_bk      OPAQUE   VERT FURNI:-           file_papers              ||< identical environment
 28  0.152     0. -90. ecab_to      OPAQUE   FLOR FURNI:-           steel_gr_3mm             ||< identical environment
 29  0.152     0.  90. ecab_bs      OPAQUE   CEIL FURNI:-           steel_gr_3mm             ||< identical environment
 30  0.500   180.   0. fbil_lft     OPAQUE   VERT FURNI:-           furn_wd10mm              ||< fbil_lft_:off_2z_nv
 31  0.500     0.   0. fbil_lft_    OPAQUE   VERT FURNI:-           furn_wd10mm              ||< fbil_lft:off_2z_nv
 32  0.500   180.   0. fbil_rt      OPAQUE   VERT FURNI:-           furn_wd10mm              ||< fbil_rt_:off_2z_nv
 33  0.500     0.   0. fbil_rt_     OPAQUE   VERT FURNI:-           furn_wd10mm              ||< fbil_rt:off_2z_nv
 34  1.55    270.   0. fbooks       OPAQUE   VERT FURNI:-           stuffonshelf             ||< fbooks_:off_2z_nv
 35  1.55     90.   0. fbooks_      OPAQUE   VERT FURNI:-           stuffonshelf             ||< fbooks:off_2z_nv
 36  0.148    90.   0. gcase        OPAQUE   VERT FURNI:-           IT_case                  ||< gcase_:off_2z_nv
 37  0.148   270.   0. gcase_       OPAQUE   VERT FURNI:-           IT_case                  ||< gcase:off_2z_nv
 38  0.123    90.   0. gcircuit     OPAQUE   VERT FURNI:-           circuit_bd               ||< gcircuit_:off_2z_nv
 39  0.123   270.   0. gcircuit_    OPAQUE   VERT FURNI:-           circuit_bd               ||< gcircuit:off_2z_nv
 40  0.040     0.  90. grill_ash    OPAQUE   CEIL GRILL:INLET       steel_gr_3mm             ||< grill_ash:void_high
 41  0.560   180.   0. glaze_vent_u DCF7671_ VERT C-WINDOW:-        dbl_glz                  ||< external
 42  0.560   180.   0. glaze_vent_l DCF7671_ VERT C-WINDOW:-        dbl_glz                  ||< external
 
Surface      Width(m)   Height(m)  Above ffl...
door            0.80       2.90      0.00    DOOR
frame           3.00       2.10      0.90    F-FRAME
glazing         2.80       1.50      1.20    C-WINDOW
glaze_vent_u    2.80       0.20      2.70    C-WINDOW
glaze_vent_l    2.80       0.20      1.00    C-WINDOW
  
In off_2z_nv           m^2     m^2 to   m^2 to  m^2 back  m^2 to  m^2 to
MLC name               total  ambient  other z  -to-back  ground  similar
gyp_gyp_ptn             28.3      0.0     28.3      0.0      0.0      0.0
door                     2.3      0.0      2.3      0.0      0.0      0.0
dbl_glz                  5.3      5.3      0.0      0.0      0.0      0.0
single_glaz              4.5      0.0      4.5      0.0      0.0      0.0
ceiling                 13.5      0.0     13.5      0.0      0.0      0.0
susp_flr_re             13.5      0.0     13.5      0.0      0.0      0.0
steel_pl_3mm             1.0      0.0      0.0      0.0      0.0      1.0
circuit_bd               0.1      0.0      0.0      0.1      0.0      0.0
upholstery               0.9      0.0      0.0      0.9      0.0      0.0
corian_count             1.9      0.0      0.0      1.9      0.0      0.0
IT_case                  0.1      0.0      0.0      0.1      0.0      0.0
furn_wd10mm              1.0      0.0      0.0      1.0      0.0      0.0
steel_gr_3mm             0.3      0.0      0.0      0.0      0.0      0.3
file_papers              1.0      0.0      0.0      0.0      0.0      1.0
stuffonshelf             1.6      0.0      0.0      1.6      0.0      0.0
alum_hollow_frame        0.9      0.0      0.9      0.0      0.0      0.0
alu_frame_U1.2           1.0      1.0      0.0      0.0      0.0      0.0
frc_rs_facade            2.7      2.7      0.0      0.0      0.0      0.0
 
 An hourly solar radiation distribution is used for this zone.
 Surfaces (all applicable) for shading analysis:
spandral frame glazing
 Insolation sources (all applicable):
glazing
 Explicit viewfactors have been derived for this zone.
Block  X-     Y-    Z-coords   DX-    DY-    DZ-values  Orientation   Opacity  Name  Construction
  1     6.2    -0.1    10.3     6.0     0.0     0.3     0.0     0.0 1.00 ob1 door
  2     6.2    -0.3    10.3     6.0     0.0     0.2     0.0     0.0 1.00 ob2 door
  3     6.2    -0.5    10.3     6.0     0.0     0.2     0.0     0.0 1.00 ob3 door
  4     6.2    -0.7    10.3     6.0     0.0     0.2     0.0     0.0 1.00 ob4 door
  5     6.2    -0.9    10.3     6.0     0.0     0.2     0.0     0.0 1.00 ob5 door
  6     6.2    -1.1    10.3     6.0     0.0     0.2     0.0     0.0 1.00 ob6 door
 
visual type name    composition        visual type name    composition
 vis 1rot  adesk_top  corian_count     vis 1rot  dl_arm_rest steel_gr_3mm
 vis 1rot  adesk_leg_a steel_pl_3mm    vis 1rot  droll_a sensor_case
 vis 1rot  adesk_leg_b steel_pl_3mm    vis 1rot  droll_b sensor_case
 vis 1rot  adesk_leg_c steel_pl_3mm    vis 1rot  droll_c sensor_case
 vis 1rot  adesk_leg_d steel_pl_3mm    vis 1rot  droll_d sensor_case
 vis 1rot  bdesk_top  corian_count     vis 1rot  ef_cabinet steel_pl_3mm
 vis 1rot  bdesk_leg_a steel_pl_3mm    vis 1rot  edrw_a steel_gr_3mm
 vis 1rot  bdesk_leg_b steel_pl_3mm    vis 1rot  edrw_b steel_gr_3mm
 vis 1rot  bdesk_leg_c steel_pl_3mm    vis 1rot  edrw_c steel_gr_3mm
 vis 1rot  bdesk_leg_d steel_pl_3mm    vis 1rot  edrw_d steel_gr_3mm
 vis 1rot  cseat      upholstery       vis 1rot  fleft_ver furn_wd10mm
 vis 1rot  cr_arm     upholstery       vis 1rot  fright_ver furn_wd10mm
 vis 1rot  cl_arm     upholstery       vis 1rot  fbil_bk furn_wd10mm
 vis 1rot  cl_arm     upholstery       vis 1rot  fbil_bk furn_wd10mm
 vis 1rot  ccross_a   steel_gr_3mm     vis 1rot  fshelf_b furn_wd10mm
 vis 1rot  ccross_b   steel_gr_3mm     vis 1rot  fshelf_c furn_wd10mm
 vis 1rot  cpost      PH_alu_frame     vis 1rot  fshelf_d furn_wd10mm
 vis 1rot  cr_arm_rest steel_gr_3mm    vis 1rot  fshelf_e furn_wd10mm
 vis 1rot  cl_arm_rest steel_gr_3mm    vis 1rot  fbil_top furn_wd10mm
 vis 1rot  croll_a    sensor_case      vis 1rot  fkick furn_wd10mm
 vis 1rot  croll_b    sensor_case      vis 1rot  flow_books stuffonshelf
 vis 1rot  croll_c    sensor_case      vis 1rot  f2nd_books stuffonshelf
 vis 1rot  croll_d    sensor_case      vis 1rot  f3rd_books booksonshlf
 vis 1rot  dseat      upholstery       vis 1rot  f4th_books booksonshlf
 vis 1rot  dr_arm     upholstery       vis 1rot  ftop_books booksonshlf
 vis 1rot  dl_arm     upholstery       vis 1rot  gdbase IT_case
 vis 1rot  dl_arm     upholstery       vis 1rot  gdbase IT_case
 vis 1rot  dcross_a   steel_gr_3mm     vis 1rot  gdlow_edge IT_case
 vis 1rot  dcross_b   steel_gr_3mm     vis 1rot  gdup_edge IT_case
 vis 1rot  dpost      PH_alu_frame     vis 1rot  gdlft_edge IT_case
 vis 1rot  dr_arm_rest steel_gr_3mm    vis 1rot  gdrt_edge IT_case
                                       vis 1rot  gdscreen   collector_pl
 
 Shading patterns have been calculated for this zone.
 
 Ventilation & infiltration is assessed via network analysis
 and the associated network node is: off_2z_nv
 
Notes:
Uses explicit modeling of occupants.
 
Daytype   Gain Label     Type    Unit Period     Number of      Metabo-  Clo   Air   Radiant    Convec
          No.                         Hours  Men   Women Child  lic Rate Value Velo.  Fraction   Fraction
                                           Sensible  Latent     Radiant    Convec
          No.                              Magn.(W)  Magn.(W)   Fraction   Fraction
weekdays    1 Metabolic  dynamic_p ocu  0- 7  0.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
weekdays    2 Metabolic  dynamic_p ocu  7- 8  1.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
weekdays    3 Metabolic  dynamic_p ocu  8- 9  1.00  1.00  0.00  1.40  0.60  1.00       0.60       0.40
weekdays    4 Metabolic  dynamic_p ocu  9-12  1.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
weekdays    5 Metabolic  dynamic_p ocu 12-14  1.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
weekdays    6 Metabolic  dynamic_p ocu 14-17  1.00  1.00  0.00  1.40  0.60  1.00       0.60       0.40
weekdays    7 Metabolic  dynamic_p ocu 17-24  0.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
weekdays    8 Light      lighting  Wm2  0- 8      0.0      0.0       0.30       0.70
weekdays    9 Light      lighting  Wm2  8-12     10.0      0.0       0.30       0.70
weekdays   10 Light      lighting  Wm2 18-24      0.0      0.0       0.30       0.70
weekdays   11 Equipment  equipment Wm2  0- 8      0.0      0.0       0.40       0.60
weekdays   12 Equipment  equipment Wm2  8-12      5.0      0.0       0.40       0.60
weekdays   13 Equipment  equipment Wm2 18-24      0.0      0.0       0.40       0.60
 
saturday    1 Metabolic  dynamic_p ocu  0- 7  0.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
saturday    2 Metabolic  dynamic_p ocu  7- 8  1.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
saturday    3 Metabolic  dynamic_p ocu  8- 9  1.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
saturday    4 Metabolic  dynamic_p ocu  9-12  1.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
saturday    5 Metabolic  dynamic_p ocu 12-14  1.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
saturday    6 Metabolic  dynamic_p ocu 14-17  1.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
saturday    7 Metabolic  dynamic_p ocu 17-24  0.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
saturday    8 Light      lighting  Wm2  0- 8      0.0      0.0       0.30       0.70
saturday    9 Light      lighting  Wm2  8-12     10.0      0.0       0.30       0.70
saturday   10 Light      lighting  Wm2 12-24      0.0      0.0       0.30       0.70
saturday   11 Equipment  equipment Wm2  0-24      0.0      0.0       0.40       0.60
 
sunday      1 Metabolic  dynamic_p ocu  0-24  0.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
sunday      2 Light      lighting  Wm2  0-24      0.0      0.0       0.30       0.70
sunday      3 Equipment  equipment Wm2  0-24      0.0      0.0       0.40       0.60
 
holiday     1 Metabolic  dynamic_p ocu  0-24  0.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
holiday     2 Light      lighting  Wm2  0-24      0.0      0.0       0.30       0.70
holiday     3 Equipment  equipment Wm2  0-24      0.0      0.0       0.40       0.60
 
winter_wkd  1 Metabolic  dynamic_p ocu  0- 7  0.00  0.00  0.00  1.40  1.10  1.00       0.60       0.40
winter_wkd  2 Metabolic  dynamic_p ocu  7- 8  1.00  0.00  0.00  1.40  1.10  1.00       0.60       0.40
winter_wkd  3 Metabolic  dynamic_p ocu  8- 9  1.00  1.00  0.00  1.40  1.10  1.00       0.60       0.40
winter_wkd  4 Metabolic  dynamic_p ocu  9-12  1.00  0.00  0.00  1.40  1.10  1.00       0.60       0.40
winter_wkd  5 Metabolic  dynamic_p ocu 12-14  1.00  0.00  0.00  1.40  1.10  1.00       0.60       0.40
winter_wkd  6 Metabolic  dynamic_p ocu 14-17  1.00  1.00  0.00  1.40  1.10  1.00       0.60       0.40
winter_wkd  7 Metabolic  dynamic_p ocu 17-24  0.00  0.00  0.00  1.40  1.10  1.00       0.60       0.40
winter_wkd  8 Light      lighting  Wm2  0- 8      0.0      0.0       0.30       0.70
winter_wkd  9 Light      lighting  Wm2  8-12     10.0      0.0       0.30       0.70
winter_wkd 10 Light      lighting  Wm2 18-24      0.0      0.0       0.30       0.70
winter_wkd 11 Equipment  equipment Wm2  0- 8      0.0      0.0       0.40       0.60
winter_wkd 12 Equipment  equipment Wm2  8-12      5.0      0.0       0.40       0.60
winter_wkd 13 Equipment  equipment Wm2 18-24      0.0      0.0       0.40       0.60
 
summer_wkd  1 Metabolic  dynamic_p ocu  0- 7  0.00  0.00  0.00  1.40  0.40  1.00       0.60       0.40
summer_wkd  2 Metabolic  dynamic_p ocu  7- 8  1.00  0.00  0.00  1.40  0.40  1.00       0.60       0.40
summer_wkd  3 Metabolic  dynamic_p ocu  8- 9  1.00  1.00  0.00  1.40  0.40  1.00       0.60       0.40
summer_wkd  4 Metabolic  dynamic_p ocu  9-12  1.00  0.00  0.00  1.40  0.40  1.00       0.60       0.40
summer_wkd  5 Metabolic  dynamic_p ocu 12-14  1.00  0.00  0.00  1.40  0.40  1.00       0.60       0.40
summer_wkd  6 Metabolic  dynamic_p ocu 14-17  1.00  1.00  0.00  1.40  0.40  1.00       0.60       0.40
summer_wkd  7 Metabolic  dynamic_p ocu 17-24  0.00  0.00  0.00  1.40  0.40  1.00       0.60       0.40
summer_wkd  8 Light      lighting  Wm2  0- 8      0.0      0.0       0.30       0.70
summer_wkd  9 Light      lighting  Wm2  8-12     10.0      0.0       0.30       0.70
summer_wkd 10 Light      lighting  Wm2 18-24      0.0      0.0       0.30       0.70
summer_wkd 11 Equipment  equipment Wm2  0- 8      0.0      0.0       0.40       0.60
summer_wkd 12 Equipment  equipment Wm2  8-12      5.0      0.0       0.40       0.60
summer_wkd 13 Equipment  equipment Wm2 18-24      0.0      0.0       0.40       0.60
 
 
 ____________________________________________________________
 
 Zone off_2z_ho (18) is composed of 40 surfaces and 80 vertices.
 It encloses a volume of 40.3m^3 of space, with a total surface
 area of 85.4m^2 & approx floor area of 13.5m^2
 off_2z_ho high occupancy of 2 zone model mech vent
 There is 9.0000m2 of exposed surface area, 9.0000m2 of which is vertical.
 Facade opaque is 3.6800m2 &   27.3 % of floor area & average U of 0.589 & UA of 2.1693.
 Facade glazing is 5.3200m2 &  39.4 % of floor &  59.1 % facade with average U of 2.811 & UA of 14.953
 Opaque partitions:ceiling:floor 56.168m2 & trasparent partitions:ceiling:floor 4.4800m2.
 
 A summary of the surfaces in off_2z_ho(18) follows:
 
 Sur| Area  |Azim|Elev|          Surface                           | construction             |environment
    | m^2   |deg |deg | name       |optical|locat| use             | name                     |other side
  1  13.5     90.   0. pt_general   OPAQUE   VERT -:-               gyp_gyp_ptn              ||< identical environment
  2  0.920     0.   0. part_frame   OPAQUE   VERT -:-               alum_hollow_frame        ||< part_fr_2n:corridor_h
  3  2.32      0.   0. door         OPAQUE   VERT DOOR:UNDERCUT     door                     ||< door_2n:corridor_h
  4  13.5    270.   0. pt_other     OPAQUE   VERT -:-               gyp_gyp_ptn              ||< pt_general:off_2z_nv
  5  13.5      0.  90. ceiling      OPAQUE   CEIL -:-               ceiling                  ||< ceiling_2n:void_high
  6  13.5      0. -90. floor        OPAQUE   FLOR -:-               susp_flr_re              ||< floor_2n_ctm:cl_void_ctm
  7  2.70    180.   0. spandral     OPAQUE   VERT -:-               frc_rs_facade            ||< external
  8  0.980   180.   0. frame        OPAQUE   VERT F-FRAME:CRACK     alu_frame_U1.2           ||< external
  9  5.32    180.   0. glazing      DCF7671_ VERT C-WINDOW:CRACK    dbl_glz                  ||< external
 10  4.48      0.   0. part_glaz    SCF8783_ VERT -:-               single_glaz              ||< ash_glaze:corridor_h
 11  1.28      0.   0. ptn_corid    OPAQUE   VERT -:-               gyp_gyp_ptn              ||< door_fr_2n:corridor_h
 12  0.938     0.  90. adesk_t      OPAQUE   CEIL FURNI:-           corian_count             ||< adesk_t_:off_2z_ho
 13  0.938     0. -90. adesk_t_     OPAQUE   FLOR FURNI:-           corian_count             ||< adesk_t:off_2z_ho
 14  0.938     0.  90. bdesk_t      OPAQUE   CEIL FURNI:-           corian_count             ||< bdesk_t_:off_2z_ho
 15  0.938     0. -90. bdesk_t_     OPAQUE   FLOR FURNI:-           corian_count             ||< bdesk_t:off_2z_ho
 16  0.207     0.  90. cseat        OPAQUE   CEIL FURNI:-           upholstery               ||< cseat_:off_2z_ho
 17  0.207     0. -90. cseat_       OPAQUE   FLOR FURNI:-           upholstery               ||< cseat:off_2z_ho
 18  0.231   225.   6. cstback      OPAQUE   SLOP FURNI:-           upholstery               ||< cstback_:off_2z_ho
 19  0.231    45.  -6. cstback_     OPAQUE   SLOP FURNI:-           upholstery               ||< cstback:off_2z_ho
 20  0.207     0.  90. dseat        OPAQUE   CEIL FURNI:-           upholstery               ||< dseat_:off_2z_ho
 21  0.207     0. -90. dseat_       OPAQUE   FLOR FURNI:-           upholstery               ||< dseat:off_2z_ho
 22  0.231   190.   6. dstback      OPAQUE   SLOP FURNI:-           upholstery               ||< dstback_:off_2z_ho
 23  0.231    10.  -6. dstback_     OPAQUE   SLOP FURNI:-           upholstery               ||< dstback:off_2z_ho
 24  0.484   180.   0. ecab_lf      OPAQUE   VERT FURNI:-           steel_pl_3mm             ||< identical environment
 25  0.484     0.   0. ecab_rt      OPAQUE   VERT FURNI:-           steel_pl_3mm             ||< identical environment
 26  0.484    90.   0. ecab_fr      OPAQUE   VERT FURNI:-           file_papers              ||< identical environment
 27  0.484   270.   0. ecab_bk      OPAQUE   VERT FURNI:-           file_papers              ||< identical environment
 28  0.152     0. -90. ecab_to      OPAQUE   FLOR FURNI:-           steel_gr_3mm             ||< identical environment
 29  0.152     0.  90. ecab_bs      OPAQUE   CEIL FURNI:-           steel_gr_3mm             ||< identical environment
 30  0.500   180.   0. fbil_lft     OPAQUE   VERT FURNI:-           furn_wd10mm              ||< fbil_lft_:off_2z_ho
 31  0.500     0.   0. fbil_lft_    OPAQUE   VERT FURNI:-           furn_wd10mm              ||< fbil_lft:off_2z_ho
 32  0.500   180.   0. fbil_rt      OPAQUE   VERT FURNI:-           furn_wd10mm              ||< fbil_rt_:off_2z_ho
 33  0.500     0.   0. fbil_rt_     OPAQUE   VERT FURNI:-           furn_wd10mm              ||< fbil_rt:off_2z_ho
 34  1.55    270.   0. fbooks       OPAQUE   VERT FURNI:-           stuffonshelf             ||< fbooks_:off_2z_ho
 35  1.55     90.   0. fbooks_      OPAQUE   VERT FURNI:-           stuffonshelf             ||< fbooks:off_2z_ho
 36  0.148    90.   0. gcase        OPAQUE   VERT FURNI:-           IT_case                  ||< gcase_:off_2z_ho
 37  0.148   270.   0. gcase_       OPAQUE   VERT FURNI:-           IT_case                  ||< gcase:off_2z_ho
 38  0.123    90.  -0. gcircuit     OPAQUE   VERT FURNI:-           circuit_bd               ||< gcircuit_:off_2z_ho
 39  0.123   270.   0. gcircuit_    OPAQUE   VERT FURNI:-           circuit_bd               ||< gcircuit:off_2z_ho
 40  0.040     0.  90. grill_2n     OPAQUE   CEIL GRILL:INLET       steel_gr_3mm             ||< grill_2n:void_high
 
Surface      Width(m)   Height(m)  Above ffl...
door            0.80       2.90      0.00    DOOR
frame           3.00       2.10      0.90    F-FRAME
glazing         2.80       1.90      1.00    C-WINDOW
  
In off_2z_ho           m^2     m^2 to   m^2 to  m^2 back  m^2 to  m^2 to
MLC name               total  ambient  other z  -to-back  ground  similar
gyp_gyp_ptn             28.3      0.0     14.8      0.0      0.0     13.5
door                     2.3      0.0      2.3      0.0      0.0      0.0
dbl_glz                  5.3      5.3      0.0      0.0      0.0      0.0
single_glaz              4.5      0.0      4.5      0.0      0.0      0.0
ceiling                 13.5      0.0     13.5      0.0      0.0      0.0
susp_flr_re             13.5      0.0     13.5      0.0      0.0      0.0
steel_pl_3mm             1.0      0.0      0.0      0.0      0.0      1.0
circuit_bd               0.1      0.0      0.0      0.1      0.0      0.0
upholstery               0.9      0.0      0.0      0.9      0.0      0.0
corian_count             1.9      0.0      0.0      1.9      0.0      0.0
IT_case                  0.1      0.0      0.0      0.1      0.0      0.0
furn_wd10mm              1.0      0.0      0.0      1.0      0.0      0.0
steel_gr_3mm             0.3      0.0      0.0      0.0      0.0      0.3
file_papers              1.0      0.0      0.0      0.0      0.0      1.0
stuffonshelf             1.6      0.0      0.0      1.6      0.0      0.0
alum_hollow_frame        0.9      0.0      0.9      0.0      0.0      0.0
alu_frame_U1.2           1.0      1.0      0.0      0.0      0.0      0.0
frc_rs_facade            2.7      2.7      0.0      0.0      0.0      0.0
 
 An hourly solar radiation distribution is used for this zone.
 Surfaces (all applicable) for shading analysis:
spandral frame glazing
 Insolation sources (all applicable):
glazing
 Explicit viewfactors have been derived for this zone.
Block  X-     Y-    Z-coords   DX-    DY-    DZ-values  Orientation   Opacity  Name  Construction
  1     6.2    -0.1    10.3     6.0     0.0     0.3     0.0     0.0 1.00 ob1 door
  2     6.2    -0.3    10.3     6.0     0.0     0.2     0.0     0.0 1.00 ob2 door
  3     6.2    -0.5    10.3     6.0     0.0     0.2     0.0     0.0 1.00 ob3 door
  4     6.2    -0.7    10.3     6.0     0.0     0.2     0.0     0.0 1.00 ob4 door
  5     6.2    -0.9    10.3     6.0     0.0     0.2     0.0     0.0 1.00 ob5 door
  6     6.2    -1.1    10.3     6.0     0.0     0.2     0.0     0.0 1.00 ob6 door
 
visual type name    composition        visual type name    composition
 vis 1rot  adesk_top  corian_count     vis 1rot  dl_arm_rest steel_gr_3mm
 vis 1rot  adesk_leg_a steel_pl_3mm    vis 1rot  droll_a sensor_case
 vis 1rot  adesk_leg_b steel_pl_3mm    vis 1rot  droll_b sensor_case
 vis 1rot  adesk_leg_c steel_pl_3mm    vis 1rot  droll_c sensor_case
 vis 1rot  adesk_leg_d steel_pl_3mm    vis 1rot  droll_d sensor_case
 vis 1rot  bdesk_top  corian_count     vis 1rot  ef_cabinet steel_pl_3mm
 vis 1rot  bdesk_leg_a steel_pl_3mm    vis 1rot  edrw_a steel_gr_3mm
 vis 1rot  bdesk_leg_b steel_pl_3mm    vis 1rot  edrw_b steel_gr_3mm
 vis 1rot  bdesk_leg_c steel_pl_3mm    vis 1rot  edrw_c steel_gr_3mm
 vis 1rot  bdesk_leg_d steel_pl_3mm    vis 1rot  edrw_d steel_gr_3mm
 vis 1rot  cseat      upholstery       vis 1rot  fleft_ver furn_wd10mm
 vis 1rot  cr_arm     upholstery       vis 1rot  fright_ver furn_wd10mm
 vis 1rot  cl_arm     upholstery       vis 1rot  fbil_bk furn_wd10mm
 vis 1rot  cl_arm     upholstery       vis 1rot  fbil_bk furn_wd10mm
 vis 1rot  ccross_a   steel_gr_3mm     vis 1rot  fshelf_b furn_wd10mm
 vis 1rot  ccross_b   steel_gr_3mm     vis 1rot  fshelf_c furn_wd10mm
 vis 1rot  cpost      PH_alu_frame     vis 1rot  fshelf_d furn_wd10mm
 vis 1rot  cr_arm_rest steel_gr_3mm    vis 1rot  fshelf_e furn_wd10mm
 vis 1rot  cl_arm_rest steel_gr_3mm    vis 1rot  fbil_top furn_wd10mm
 vis 1rot  croll_a    sensor_case      vis 1rot  fkick furn_wd10mm
 vis 1rot  croll_b    sensor_case      vis 1rot  flow_books stuffonshelf
 vis 1rot  croll_c    sensor_case      vis 1rot  f2nd_books stuffonshelf
 vis 1rot  croll_d    sensor_case      vis 1rot  f3rd_books booksonshlf
 vis 1rot  dseat      upholstery       vis 1rot  f4th_books booksonshlf
 vis 1rot  dr_arm     upholstery       vis 1rot  ftop_books booksonshlf
 vis 1rot  dl_arm     upholstery       vis 1rot  gdbase IT_case
 vis 1rot  dl_arm     upholstery       vis 1rot  gdbase IT_case
 vis 1rot  dcross_a   steel_gr_3mm     vis 1rot  gdlow_edge IT_case
 vis 1rot  dcross_b   steel_gr_3mm     vis 1rot  gdup_edge IT_case
 vis 1rot  dpost      PH_alu_frame     vis 1rot  gdlft_edge IT_case
 vis 1rot  dr_arm_rest steel_gr_3mm    vis 1rot  gdrt_edge IT_case
                                       vis 1rot  gdscreen   collector_pl
 
 Shading patterns have been calculated for this zone.
 
 Ventilation & infiltration is assessed via network analysis
 and the associated network node is: off_2z_ho
 
Notes:
higher occupant level via core-skin dynamic model.
 
Daytype   Gain Label     Type    Unit Period     Number of      Metabo-  Clo   Air   Radiant    Convec
          No.                         Hours  Men   Women Child  lic Rate Value Velo.  Fraction   Fraction
                                           Sensible  Latent     Radiant    Convec
          No.                              Magn.(W)  Magn.(W)   Fraction   Fraction
weekdays    1 Metabolic  dynamic_p ocu  0- 7  0.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
weekdays    2 Metabolic  dynamic_p ocu  7- 8  1.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
weekdays    3 Metabolic  dynamic_p ocu  8-11  1.00  1.00  0.00  1.40  0.60  1.00       0.60       0.40
weekdays    4 Metabolic  dynamic_p ocu 11-12  1.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
weekdays    5 Metabolic  dynamic_p ocu 12-14  1.00  0.50  0.00  1.40  0.60  1.00       0.60       0.40
weekdays    6 Metabolic  dynamic_p ocu 14-17  1.00  1.00  0.00  1.40  0.60  1.00       0.60       0.40
weekdays    7 Metabolic  dynamic_p ocu 17-24  0.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
weekdays    8 Light      lighting  Wm2  0- 8      0.0      0.0       0.30       0.70
weekdays    9 Light      lighting  Wm2  8-12     10.0      0.0       0.30       0.70
weekdays   10 Light      lighting  Wm2 18-24      0.0      0.0       0.30       0.70
weekdays   11 Equipment  equipment Wm2  0- 8      0.0      0.0       0.40       0.60
weekdays   12 Equipment  equipment Wm2  8-12      5.0      0.0       0.40       0.60
weekdays   13 Equipment  equipment Wm2 18-24      0.0      0.0       0.40       0.60
 
saturday    1 Metabolic  dynamic_p ocu  0- 7  0.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
saturday    2 Metabolic  dynamic_p ocu  7- 8  1.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
saturday    3 Metabolic  dynamic_p ocu  8- 9  1.00  1.00  0.00  1.40  0.60  1.00       0.60       0.40
saturday    4 Metabolic  dynamic_p ocu  9-12  1.00  1.00  0.00  1.40  0.60  1.00       0.60       0.40
saturday    5 Metabolic  dynamic_p ocu 12-14  1.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
saturday    6 Metabolic  dynamic_p ocu 14-17  1.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
saturday    7 Metabolic  dynamic_p ocu 17-24  0.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
saturday    8 Light      lighting  Wm2  0- 8      0.0      0.0       0.30       0.70
saturday    9 Light      lighting  Wm2  8-12     10.0      0.0       0.30       0.70
saturday   10 Light      lighting  Wm2 12-24      0.0      0.0       0.30       0.70
saturday   11 Equipment  equipment Wm2  0-24      0.0      0.0       0.40       0.60
 
sunday      1 Metabolic  dynamic_p ocu  0-24  0.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
sunday      2 Light      lighting  Wm2  0-24      0.0      0.0       0.30       0.70
sunday      3 Equipment  equipment Wm2  0-24      0.0      0.0       0.40       0.60
 
holiday     1 Metabolic  dynamic_p ocu  0-24  0.00  0.00  0.00  1.40  0.60  1.00       0.60       0.40
holiday     2 Light      lighting  Wm2  0-24      0.0      0.0       0.30       0.70
holiday     3 Equipment  equipment Wm2  0-24      0.0      0.0       0.40       0.60
 
winter_wkd  1 Metabolic  dynamic_p ocu  0- 7  0.00  0.00  0.00  1.40  1.10  1.00       0.60       0.40
winter_wkd  2 Metabolic  dynamic_p ocu  7- 8  1.00  0.00  0.00  1.40  1.10  1.00       0.60       0.40
winter_wkd  3 Metabolic  dynamic_p ocu  8-11  1.00  1.00  0.00  1.40  1.10  1.00       0.60       0.40
winter_wkd  4 Metabolic  dynamic_p ocu 11-12  1.00  0.00  0.00  1.40  1.10  1.00       0.60       0.40
winter_wkd  5 Metabolic  dynamic_p ocu 12-14  1.00  0.50  0.00  1.40  1.10  1.00       0.60       0.40
winter_wkd  6 Metabolic  dynamic_p ocu 14-17  1.00  1.00  0.00  1.40  1.10  1.00       0.60       0.40
winter_wkd  7 Metabolic  dynamic_p ocu 17-24  0.00  0.00  0.00  1.40  1.10  1.00       0.60       0.40
winter_wkd  8 Light      lighting  Wm2  0- 8      0.0      0.0       0.30       0.70
winter_wkd  9 Light      lighting  Wm2  8-12     10.0      0.0       0.30       0.70
winter_wkd 10 Light      lighting  Wm2 18-24      0.0      0.0       0.30       0.70
winter_wkd 11 Equipment  equipment Wm2  0- 8      0.0      0.0       0.40       0.60
winter_wkd 12 Equipment  equipment Wm2  8-12      5.0      0.0       0.40       0.60
winter_wkd 13 Equipment  equipment Wm2 18-24      0.0      0.0       0.40       0.60
 
summer_wkd  1 Metabolic  dynamic_p ocu  0- 7  0.00  0.00  0.00  1.40  0.40  1.00       0.60       0.40
summer_wkd  2 Metabolic  dynamic_p ocu  7- 8  1.00  0.00  0.00  1.40  0.40  1.00       0.60       0.40
summer_wkd  3 Metabolic  dynamic_p ocu  8-11  1.00  1.00  0.00  1.40  0.40  1.00       0.60       0.40
summer_wkd  4 Metabolic  dynamic_p ocu 11-12  1.00  0.00  0.00  1.40  0.40  1.00       0.60       0.40
summer_wkd  5 Metabolic  dynamic_p ocu 12-14  1.00  0.50  0.00  1.40  0.40  1.00       0.60       0.40
summer_wkd  6 Metabolic  dynamic_p ocu 14-17  1.00  1.00  0.00  1.40  0.40  1.00       0.60       0.40
summer_wkd  7 Metabolic  dynamic_p ocu 17-24  0.00  0.00  0.00  1.40  0.40  1.00       0.60       0.40
summer_wkd  8 Light      lighting  Wm2  0- 8      0.0      0.0       0.30       0.70
summer_wkd  9 Light      lighting  Wm2  8-12     10.0      0.0       0.30       0.70
summer_wkd 10 Light      lighting  Wm2 18-24      0.0      0.0       0.30       0.70
summer_wkd 11 Equipment  equipment Wm2  0- 8      0.0      0.0       0.40       0.60
summer_wkd 12 Equipment  equipment Wm2  8-12      5.0      0.0       0.40       0.60
summer_wkd 13 Equipment  equipment Wm2 18-24      0.0      0.0       0.40       0.60
 
 
 ____________________________________________________________
 
 Zone corridor_h (19) is composed of 25 surfaces and 62 vertices.
 It encloses a volume of 36.9m^3 of space, with a total surface
 area of 104.m^2 & approx floor area of 14.6m^2
 corridor_h adjacent to high occupancy and nat vent rooms
 Opaque partitions:ceiling:floor 42.680m2 & trasparent partitions:ceiling:floor 17.920m2.
 
 A summary of the surfaces in corridor_h(19) follows:
 
 Sur| Area  |Azim|Elev|          Surface                           | construction             |environment
    | m^2   |deg |deg | name       |optical|locat| use             | name                     |other side
  1  3.00     90.   0. right        OPAQUE   VERT -:-               door                     ||< identical environment
  2  36.9      0.   0. wall         OPAQUE   VERT -:-               gyp_blk_ptn              ||< identical environment
  3  3.00    270.   0. left         OPAQUE   VERT -:-               door                     ||< identical environment
  4  12.1      0.  90. ceiling      OPAQUE   CEIL -:-               ceiling                  ||< ceiling_cor:void_high
  5  12.3      0. -90. floor        OPAQUE   FLOR -:-               susp_flr_re              ||< floor:cl_void_ctm
  6  2.32    180.   0. door         OPAQUE   VERT DOOR:UNDERCUT     door                     ||< door:off_bc_ho
  7  1.28    180.   0. ptn_corid    OPAQUE   VERT -:-               gyp_gyp_ptn              ||< ptn_corid:off_bc_ho
  8  0.920   180.  -0. part_frame   OPAQUE   VERT -:-               alum_hollow_frame        ||< part_frame:off_bc_ho
  9  4.48    180.   0. part_glaz    SCF8783_ VERT -:-               single_glaz              ||< part_glaz:off_bc_ho
 10  0.300   180.   0. filler       OPAQUE   VERT -:-               gyp_gyp_ptn              ||< adiabatic
 11  0.920   180.   0. part_frm_e+  OPAQUE   VERT -:-               alum_hollow_frame        ||< part_frame:off_nat_vnt
 12  2.32    180.   0. door_e+      OPAQUE   VERT DOOR:UNDERCUT     door                     ||< door:off_nat_vnt
 13  1.28    180.   0. ptn_corid_e+ OPAQUE   VERT -:-               gyp_gyp_ptn              ||< ptn_corid:off_nat_vnt
 14  4.48    180.   0. glass_e+     SCF8783_ VERT -:-               single_glaz              ||< part_glaz:off_nat_vnt
 15  0.920   180.   0. part_fr_ash  OPAQUE   VERT -:-               alum_hollow_frame        ||< part_frame:off_2z_nv
 16  2.32    180.   0. door_ash     OPAQUE   VERT DOOR:UNDERCUT     door                     ||< door:off_2z_nv
 17  4.48    180.   0. glaz_ash     SCF8783_ VERT -:-               single_glaz              ||< part_glaz:off_2z_nv
 18  1.43    180.   0. ptn_door_ash OPAQUE   VERT -:-               gyp_gyp_ptn              ||< ptn_corid:off_2z_nv
 19  0.920   180.   0. part_fr_2n   OPAQUE   VERT -:-               alum_hollow_frame        ||< part_frame:off_2z_ho
 20  4.48    180.   0. ash_glaze    SCF8783_ VERT -:-               single_glaz              ||< part_glaz:off_2z_ho
 21  2.32    180.   0. door_2n      OPAQUE   VERT DOOR:UNDERCUT     door                     ||< door:off_2z_ho
 22  1.13    180.   0. door_fr_2n   OPAQUE   VERT -:-               gyp_gyp_ptn              ||< ptn_corid:off_2z_ho
 23  0.300   180.   0. filler_b     OPAQUE   VERT -:-               gyp_gyp_ptn              ||< adiabatic
 24  0.300   180.   0. filler_c     OPAQUE   VERT -:-               gyp_gyp_ptn              ||< adiabatic
 25  0.160     0.  90. cor_grill    OPAQUE   CEIL GRILL:OPEN        steel_gr_3mm             ||< cor_grill:void_high
 
Surface      Width(m)   Height(m)  Above ffl...
door            0.80       2.90      0.00    DOOR
door_e+         0.80       2.90      0.00    DOOR
door_ash        0.80       2.90      0.00    DOOR
door_2n         0.80       2.90      0.00    DOOR
  
In corridor_h          m^2     m^2 to   m^2 to  m^2 back  m^2 to  m^2 to
MLC name               total  ambient  other z  -to-back  ground  similar
gyp_blk_ptn             36.9      0.0      0.0      0.0      0.0     36.9
gyp_gyp_ptn              6.0      0.0      5.1      0.0      0.0      0.9
door                    15.3      0.0      9.3      0.0      0.0      6.0
single_glaz             17.9      0.0     17.9      0.0      0.0      0.0
ceiling                 12.1      0.0     12.1      0.0      0.0      0.0
susp_flr_re             12.3      0.0     12.3      0.0      0.0      0.0
steel_gr_3mm             0.2      0.0      0.2      0.0      0.0      0.0
alum_hollow_frame        3.7      0.0      3.7      0.0      0.0      0.0
 
 All surfaces will receive diffuse insolation (if shading not calculated).
 No shading analysis requested.
 No insolation analysis requested.
 
 Ventilation & infiltration is assessed via network analysis
 and the associated network node is: corridor_h
 
Notes:
half a person and 50-100W lighting weekdays 10W weekends with
electrical properties
 
Daytype   Gain Label     Type    Unit Period Sensible  Latent      Radiant    Convec
          No.                          Hours Magn.(W)  Magn.(W)    Fraction   Fraction
weekdays    1 Occupt     people    W    0- 8      0.0      0.0       0.60       0.40
weekdays    2 Occupt     people    W    8-20    100.0     50.0       0.60       0.40
weekdays    3 Occupt     people    W   20-24      0.0      0.0       0.60       0.40
weekdays    4 Lights     lighting  W    0- 8     50.0      0.0       0.30       0.70
weekdays    5 Lights     lighting  W    8-20    100.0      0.0       0.30       0.70
weekdays    6 Lights     lighting  W   20-24     50.0      0.0       0.30       0.70
 
saturday    1 Occupt     people    W    0- 8      0.0      0.0       0.60       0.40
saturday    2 Occupt     people    W    8-20    100.0     50.0       0.60       0.40
saturday    3 Occupt     people    W   20-24      0.0      0.0       0.60       0.40
saturday    4 Lights     lighting  W    0- 8      0.0      0.0       0.30       0.70
saturday    5 Lights     lighting  W    8-20     10.0      0.0       0.30       0.70
saturday    6 Lights     lighting  W   20-24      0.0      0.0       0.30       0.70
 
sunday      1 Occupt     people    W    0- 8      0.0      0.0       0.60       0.40
sunday      2 Occupt     people    W    8-20    100.0     50.0       0.60       0.40
sunday      3 Occupt     people    W   20-24      0.0      0.0       0.60       0.40
sunday      4 Lights     lighting  W    0- 8      0.0      0.0       0.30       0.70
sunday      5 Lights     lighting  W    8-20     10.0      0.0       0.30       0.70
sunday      6 Lights     lighting  W   20-24      0.0      0.0       0.30       0.70
 
holiday     1 Occupt     people    W    0-24      0.0      0.0       0.60       0.40
holiday     2 Lights     lighting  W    0-24      0.0      0.0       0.30       0.70
holiday     3 Equipt     equipment W    0-24      0.0      0.0       0.40       0.60
 
winter_wkd  1 Occupt     people    W    0- 8      0.0      0.0       0.60       0.40
winter_wkd  2 Occupt     people    W    8-20    100.0     50.0       0.60       0.40
winter_wkd  3 Occupt     people    W   20-24      0.0      0.0       0.60       0.40
winter_wkd  4 Lights     lighting  W    0- 8     50.0      0.0       0.30       0.70
winter_wkd  5 Lights     lighting  W    8-20    100.0      0.0       0.30       0.70
winter_wkd  6 Lights     lighting  W   20-24     50.0      0.0       0.30       0.70
 
summer_wkd  1 Occupt     people    W    0- 8      0.0      0.0       0.60       0.40
summer_wkd  2 Occupt     people    W    8-20    100.0     50.0       0.60       0.40
summer_wkd  3 Occupt     people    W   20-24      0.0      0.0       0.60       0.40
summer_wkd  4 Lights     lighting  W    0- 8     50.0      0.0       0.30       0.70
summer_wkd  5 Lights     lighting  W    8-20    100.0      0.0       0.30       0.70
summer_wkd  6 Lights     lighting  W   20-24     50.0      0.0       0.30       0.70
 
 
 ____________________________________________________________
 
 Zone mix_high (20) is composed of 6 surfaces and 8 vertices.
 It encloses a volume of 0.180m^3 of space, with a total surface
 area of 2.16m^2 & approx floor area of 0.600m^2
 mix_high mixing box for high occupancy rooms
 Opaque partitions:ceiling:floor 2.1600m2.
 
 A summary of the surfaces in mix_high(20) follows:
 
 Sur| Area  |Azim|Elev|          Surface                           | construction             |environment
    | m^2   |deg |deg | name       |optical|locat| use             | name                     |other side
  1  0.300   180.   0. mb_o_front   OPAQUE   VERT PARTN:-           tank_i_50mmi             ||< mb_o_front:void_high
  2  0.180    90.   0. mb_o_right   OPAQUE   VERT PARTN:-           tank_i_50mmi             ||< mb_o_right:void_high
  3  0.300     0.   0. mb_o_back    OPAQUE   VERT PARTN:-           tank_i_50mmi             ||< mb_o_back:void_high
  4  0.180   270.   0. mb_o_left    OPAQUE   VERT PARTN:-           tank_i_50mmi             ||< mb_o_left:void_high
  5  0.600     0.  90. mb_o_top     OPAQUE   CEIL -:-               tank_i_50mmi             ||< mb_o_top:void_high
  6  0.600     0. -90. mb_o_base    OPAQUE   FLOR -:-               tank_i_50mmi             ||< mb_o_base:void_high
 
  
In mix_high            m^2     m^2 to   m^2 to  m^2 back  m^2 to  m^2 to
MLC name               total  ambient  other z  -to-back  ground  similar
tank_i_50mmi             2.2      0.0      2.2      0.0      0.0      0.0
 
 All surfaces will receive diffuse insolation (if shading not calculated).
 No shading analysis requested.
 No insolation analysis requested.
 
 Ventilation & infiltration is assessed via network analysis
 and the associated network node is: mix_high
 
Notes:
nothing happens in the mixing box
 
Daytype   Gain Label     Type    Unit Period Sensible  Latent      Radiant    Convec
          No.                          Hours Magn.(W)  Magn.(W)    Fraction   Fraction
 
 ____________________________________________________________
 
 Zone void_high (21) is composed of 34 surfaces and 84 vertices.
 It encloses a volume of 40.8m^3 of space, with a total surface
 area of 160.m^2 & approx floor area of 68.9m^2
 void_high ceiling void over high occupancy offices
 There is 7.3800m2 of exposed surface area, 7.3800m2 of which is vertical.
 Facade opaque is 7.3800m2 &   10.7 % of floor area & average U of 0.344 & UA of 2.5390.
 Opaque partitions:ceiling:floor 68.460m2.
 
 A summary of the surfaces in void_high(21) follows:
 
 Sur| Area  |Azim|Elev|          Surface                           | construction             |environment
    | m^2   |deg |deg | name       |optical|locat| use             | name                     |other side
  1  13.5      0. -90. ceiling      OPAQUE   FLOR -:-               ceiling_rev              ||< ceiling:off_bc_ho
  2  0.040     0. -90. grill_bc     OPAQUE   FLOR GRILL:-           steel_gr_3mm             ||< grill:off_bc_ho
  3  13.5      0. -90. ceiling_e+   OPAQUE   FLOR -:-               ceiling_rev              ||< ceiling:off_nat_vnt
  4  0.040     0. -90. grill_e+     OPAQUE   FLOR GRILL:-           steel_gr_3mm             ||< grill:off_nat_vnt
  5  13.5      0. -90. ceiling_ash  OPAQUE   FLOR -:-               ceiling_rev              ||< ceiling:off_2z_nv
  6  0.040     0. -90. grill_ash    OPAQUE   FLOR GRILL:-           steel_gr_3mm             ||< grill_ash:off_2z_nv
  7  13.5      0. -90. ceiling_2n   OPAQUE   FLOR -:-               ceiling_rev              ||< ceiling:off_2z_ho
  8  0.040     0. -90. grill_2n     OPAQUE   FLOR GRILL:-           steel_gr_3mm             ||< grill_2n:off_2z_ho
  9  12.1      0. -90. ceiling_cor  OPAQUE   FLOR -:-               ceiling_rev              ||< ceiling:corridor_h
 10  0.160     0. -90. cor_grill    OPAQUE   FLOR GRILL:OPEN        steel_gr_3mm             ||< cor_grill:corridor_h
 11  0.300     0.   0. mb_o_front   OPAQUE   VERT PARTN:-           tank_w_50mm              ||< mb_o_front:mix_high
 12  0.180   270.   0. mb_o_right   OPAQUE   VERT PARTN:-           tank_w_50mm              ||< mb_o_right:mix_high
 13  0.300   180.   0. mb_o_back    OPAQUE   VERT PARTN:-           tank_w_50mm              ||< mb_o_back:mix_high
 14  0.180    90.   0. mb_o_left    OPAQUE   VERT PARTN:-           tank_w_50mm              ||< mb_o_left:mix_high
 15  0.600     0. -90. mb_o_top     OPAQUE   FLOR -:-               tank_w_50mm              ||< mb_o_top:mix_high
 16  0.600     0.  90. mb_o_base    OPAQUE   CEIL -:-               tank_w_50mm              ||< mb_o_base:mix_high
 17  13.5      0.  90. floor_bc_ctm OPAQUE   CEIL -:-               susp_floor               ||< identical environment
 18  13.5      0.  90. floor_e+_ctm OPAQUE   CEIL -:-               susp_floor               ||< identical environment
 19  13.5      0.  90. floor_ash    OPAQUE   CEIL -:-               susp_floor               ||< identical environment
 20  13.5      0.  90. floor_2n_ctm OPAQUE   CEIL -:-               susp_floor               ||< identical environment
 21  12.3      0.  90. floor        OPAQUE   CEIL -:-               susp_floor               ||< identical environment
 22  7.38    180.   0. facade       OPAQUE   VERT -:-               frc_rs_facade            ||< external
 23  3.24    270.   0. left         OPAQUE   VERT -:-               mass_part                ||< identical environment
 24  7.38      0.   0. back_of      OPAQUE   VERT -:-               mass_part                ||< identical environment
 25  3.33     90.  -0. right        OPAQUE   VERT -:-               mass_part                ||< identical environment
 26  0.605     0. -90. fill_bc_cl   OPAQUE   FLOR -:-               gyp_gyp_ptn              ||< adiabatic
 27  0.605     0. -90. fill_e+_cl   OPAQUE   FLOR -:-               gyp_gyp_ptn              ||< adiabatic
 28  0.606     0. -90. fill_ash_cl  OPAQUE   FLOR -:-               gyp_gyp_ptn              ||< adiabatic
 29  0.149     0. -90. fill_2n_cl   OPAQUE   FLOR -:-               gyp_gyp_ptn              ||< adiabatic
 30  0.605     0.  90. fill_bc_up   OPAQUE   CEIL -:-               gyp_gyp_ptn              ||< adiabatic
 31  0.605     0.  90. fill_e+_up   OPAQUE   CEIL -:-               gyp_gyp_ptn              ||< adiabatic
 32  0.606     0.  90. fill_ash_up  OPAQUE   CEIL -:-               gyp_gyp_ptn              ||< adiabatic
 33  0.149     0.  90. fill_2n_up   OPAQUE   CEIL -:-               gyp_gyp_ptn              ||< adiabatic
 34  0.090   270.   0. exh_grill    OPAQUE   VERT GRILL:EXTRACT     tank_w_50mm              ||< identical environment
 
  
In void_high           m^2     m^2 to   m^2 to  m^2 back  m^2 to  m^2 to
MLC name               total  ambient  other z  -to-back  ground  similar
mass_part               14.0      0.0      0.0      0.0      0.0     14.0
gyp_gyp_ptn              3.9      0.0      0.0      0.0      0.0      3.9
ceiling_rev             66.0      0.0     66.0      0.0      0.0      0.0
susp_floor              66.3      0.0      0.0      0.0      0.0     66.3
tank_w_50mm              2.2      0.0      2.2      0.0      0.0      0.1
steel_gr_3mm             0.3      0.0      0.3      0.0      0.0      0.0
frc_rs_facade            7.4      7.4      0.0      0.0      0.0      0.0
 
 All surfaces will receive diffuse insolation (if shading not calculated).
 No shading analysis requested.
 No insolation analysis requested.
 
 Ventilation & infiltration is assessed via network analysis
 and the associated network node is: void_high
 
Notes:
Nothing happens in this zone i.e. no occupants lights and small power.
Initial period of 0-24 hour for each.
 
Daytype   Gain Label     Type    Unit Period Sensible  Latent      Radiant    Convec
          No.                          Hours Magn.(W)  Magn.(W)    Fraction   Fraction
weekdays    1 Occupants  people    W    0-24      0.0      0.0       0.60       0.40
weekdays    2 Lights     lighting  W    0-24      0.0      0.0       0.30       0.70
weekdays    3 SmallPower equipment W    0-24      0.0      0.0       0.40       0.60
 
saturday    1 Occupants  people    W    0-24      0.0      0.0       0.60       0.40
saturday    2 Lights     lighting  W    0-24      0.0      0.0       0.30       0.70
saturday    3 SmallPower equipment W    0-24      0.0      0.0       0.40       0.60
 
sunday      1 Occupants  people    W    0-24      0.0      0.0       0.60       0.40
sunday      2 Lights     lighting  W    0-24      0.0      0.0       0.30       0.70
sunday      3 SmallPower equipment W    0-24      0.0      0.0       0.40       0.60
 
holiday     1 Occupants  people    W    0-24      0.0      0.0       0.60       0.40
holiday     2 Lights     lighting  W    0-24      0.0      0.0       0.30       0.70
holiday     3 SmallPower equipment W    0-24      0.0      0.0       0.40       0.60
 
winter_wkd  1 Occupants  people    W    0-24      0.0      0.0       0.60       0.40
winter_wkd  2 Lights     lighting  W    0-24      0.0      0.0       0.30       0.70
winter_wkd  3 SmallPower equipment W    0-24      0.0      0.0       0.40       0.60
 
summer_wkd  1 Occupants  people    W    0-24      0.0      0.0       0.60       0.40
summer_wkd  2 Lights     lighting  W    0-24      0.0      0.0       0.30       0.70
summer_wkd  3 SmallPower equipment W    0-24      0.0      0.0       0.40       0.60
 
 
 ____________________________________________________________
 
 Project floor area is 414.27m2, wall area is 66.300m2, window area is 63.840m2.
 Sloped roof area is 0.00m2, flat roof area is 0.00m2, skylight area is 0.00m2.
 In contact with ground 0.00m2.
 There is 130.14m2 of outside surface area, 130.14m2 of which is vertical.
 
 Outside walls are 16.004 % of floor area & average U of 0.508 & UA of 33.649 & max MLC thickness 0.162
 Glazing is 15.410 % of floor & 49.055 % facade with average U of 2.811 & UA of 179.43
 
 ____________________________________________________________
 Multi-layer constructions used:
 
 Details of opaque construction: mass_part and overall thickness  0.240
 In category partitions also shown in menus as: concrete block partition 240mm
partition - 240mm concrete block partition (white painted).
 
 Layer|Thick |Conduc-|Density|Specif|IR  |Solar|Diffu| R    | Kg |Description
      |(mm)  |tivity |       |heat  |emis|abs  |resis|m^2K/W| m^2|
    1  240.0     0.510  1400.  1000. 0.90 0.25     10.  0.47 336.0 block white ptd : block white painted inner (3% mc)
 ISO 6946 U values (horiz/upward/downward heat flow)=  1.561  1.638  1.469 (partition)  1.369
 Weight per m^2 of this construction  336.00
Kappa (thermal mass value)   140.0
 Total area of mass_part is     41.85
 
 Details of opaque construction: gyp_blk_ptn and overall thickness  0.226
 In category partitions also shown in menus as: plasterbd dabs 100mm concrete bl
partition - plasterboard on dabs over 100mm concret block.
 
 Layer|Thick |Conduc-|Density|Specif|IR  |Solar|Diffu| R    | Kg |Description
      |(mm)  |tivity |       |heat  |emis|abs  |resis|m^2K/W| m^2|
 Ext    13.0     0.190   950.   840. 0.91 0.22     11.  0.07  12.4 white gypboard : White painted Gypboard (inorganic-porous)
    2   50.0     -         -      -  -    -         -   -      -   air gap resistance  0.17 0.17 0.17
    3  100.0     0.510  1400.  1000. 0.90 0.65     10.  0.20 140.0 block inner : Block inner (3% mc)
    4   50.0     -         -      -  -    -         -   -      -   air gap resistance  0.17 0.17 0.17
 Int    13.0     0.190   950.   840. 0.91 0.22     11.  0.07  12.4 white gypboard : White painted Gypboard (inorganic-porous)
 ISO 6946 U values (horiz/upward/downward heat flow)=  1.186  1.230  1.133 (partition)  1.072
 Weight per m^2 of this construction  164.82
Kappa (thermal mass value)   132.2
 Total area of gyp_blk_ptn is    110.70
 
 Details of opaque construction: gyp_gyp_ptn and overall thickness  0.074
 In category partitions also shown in menus as: plasterboard on 50mm studs
partition - plasterboard on 50mm studs with no acoustic treatment.
 
 Layer|Thick |Conduc-|Density|Specif|IR  |Solar|Diffu| R    | Kg |Description
      |(mm)  |tivity |       |heat  |emis|abs  |resis|m^2K/W| m^2|
 Ext    12.0     0.190   950.   840. 0.91 0.22     11.  0.06  11.4 white gypboard : White painted Gypboard (inorganic-porous)
    2   50.0     -         -      -  -    -         -   -      -   air gap resistance  0.17 0.17 0.17
 Int    12.0     0.190   950.   840. 0.91 0.22     11.  0.06  11.4 white gypboard : White painted Gypboard (inorganic-porous)
 ISO 6946 U values (horiz/upward/downward heat flow)=  2.144  2.292  1.975 (partition)  1.798
 Weight per m^2 of this construction   22.86
Kappa (thermal mass value)    19.2
 Total area of gyp_gyp_ptn is    232.35
 
 Details of opaque construction: door and overall thickness  0.025
 In category doors also shown in menus as: solid wood door 25mm
solid wood oak door 25mm.
 
 Layer|Thick |Conduc-|Density|Specif|IR  |Solar|Diffu| R    | Kg |Description
      |(mm)  |tivity |       |heat  |emis|abs  |resis|m^2K/W| m^2|
    1   25.0     0.190   700.  2390. 0.90 0.65     12.  0.13  17.5 oak : Oak (radial cut)
 ISO 6946 U values (horiz/upward/downward heat flow)=  3.316  3.682  2.928 (partition)  2.554
 Weight per m^2 of this construction   17.50
Kappa (thermal mass value)    20.9
 Total area of door is     45.84
 
 Details of transparent construction: dbl_glz with DCF7671_06nb optics and thickness  0.024
 
 Layer|Thick |Conduc-|Density|Specif|IR  |Solar|Diffu| R    | Kg |Description
      |(mm)  |tivity |       |heat  |emis|abs  |resis|m^2K/W| m^2|
 Ext     6.0     0.760  2710.   837. 0.83 0.05  19200.  0.01  16.3 plate glass : Plate glass with placeholder single layer optics
    2   12.0     -         -      -  -    -         -   -      -   air gap resistance  0.17 0.17 0.17
 Int     6.0     0.760  2710.   837. 0.83 0.05  19200.  0.01  16.3 plate glass : Plate glass with placeholder single layer optics
 ISO 6946 U values (horiz/upward/downward heat flow)=  2.811  3.069  2.527 (partition)  2.243
 Weight per m^2 of this construction   32.53
Kappa (thermal mass value)    27.2
 
 Clear float 76/71,     6mm, no blind: with id of: DCF7671_06nb
 with 3 layers [including air gaps] and visible trn: 0.76
 Direct transmission @ 0, 40, 55, 70, 80 deg
   0.611 0.583 0.534 0.384 0.170
 Layer| absorption @ 0, 40, 55, 70, 80 deg
    1  0.157 0.172 0.185 0.201 0.202
    2  0.001 0.002 0.003 0.004 0.005
    3  0.117 0.124 0.127 0.112 0.077
 Total area of dbl_glz is     63.84
 
 Details of transparent construction: single_glaz with SCF8783_06nb optics and thickness  0.006
 
 Layer|Thick |Conduc-|Density|Specif|IR  |Solar|Diffu| R    | Kg |Description
      |(mm)  |tivity |       |heat  |emis|abs  |resis|m^2K/W| m^2|
    1    6.0     1.050  2500.   750. 0.83 0.05  19200.  0.01  15.0 clear float : clear float glass with optics from UK national method datase for 3 m
 ISO 6946 U values (horiz/upward/downward heat flow)=  5.691  6.863  4.636 (partition)  3.763
 Weight per m^2 of this construction   15.00
Kappa (thermal mass value)     5.6
 
 Clear float 87/83,     6mm, no blind: with id of: SCF8783_06nb
 with 1 layers [including air gaps] and visible trn: 0.87
 Direct transmission @ 0, 40, 55, 70, 80 deg
   0.779 0.759 0.717 0.581 0.348
 Layer| absorption @ 0, 40, 55, 70, 80 deg
    1  0.149 0.163 0.173 0.179 0.169
 Total area of single_glaz is     66.06
 
 Details of opaque construction: PH_alu_frame and overall thickness  0.079
 In category frames also shown in menus as: alum Passive House frame U=0.87
A composite aluminium Passive House grade window frame with air gap resistances set to give U of
0.87
 
 Layer|Thick |Conduc-|Density|Specif|IR  |Solar|Diffu| R    | Kg |Description
      |(mm)  |tivity |       |heat  |emis|abs  |resis|m^2K/W| m^2|
 Ext     3.0   210.000  2700.   880. 0.82 0.72  19200.  0.00   8.1 grey cotd alum : Grey coated aluminium
    2    8.0     -         -      -  -    -         -   -      -   air gap resistance  0.06 0.06 0.06
    3    3.0   210.000  2700.   880. 0.22 0.20  19200.  0.00   8.1 aluminium : Aluminium
    4    8.0     -         -      -  -    -         -   -      -   air gap resistance  0.06 0.06 0.06
    5    3.0   210.000  2700.   880. 0.22 0.20  19200.  0.00   8.1 aluminium : Aluminium
    6   40.0     0.050    15.  1000. 0.90 0.70     30.  0.80   0.6 EPS k 0.05 : EPS k=0.05 (non-hygroscopic)
    7    3.0   210.000  2700.   880. 0.22 0.20  19200.  0.00   8.1 aluminium : Aluminium
    8    8.0     -         -      -  -    -         -   -      -   air gap resistance  0.06 0.06 0.06
 Int     3.0   210.000  2700.   880. 0.82 0.72  19200.  0.00   8.1 grey cotd alum : Grey coated aluminium
 ISO 6946 U values (horiz/upward/downward heat flow)=  0.870  0.893  0.840 (partition)  0.806
 Weight per m^2 of this construction   41.13
Kappa (thermal mass value)    35.6
 Total area of PH_alu_frame is      0.00
 
 Details of opaque construction: ceiling linked to ceiling_rev & with overall thickness  0.110
 In category ceil_floor also shown in menus as: suspended acoustic ceiling acous
A mineral time with 100mm acoustic treatment. For use as a suspended ceiling. To be referenced
from room. Reversed version is ceiling_rev
 
 Layer|Thick |Conduc-|Density|Specif|IR  |Solar|Diffu| R    | Kg |Description
      |(mm)  |tivity |       |heat  |emis|abs  |resis|m^2K/W| m^2|
 Ext   100.0     0.040   250.   840. 0.90 0.30      4.  2.50  25.0 glasswool : Glasswool (generic) (non-hygroscopic)
 Int    10.0     0.030   290.  2000. 0.90 0.60      8.  0.33   2.9 ceiling mineral : Ceiling acoustic tile (mineral fibre based)
 ISO 6946 U values (horiz/upward/downward heat flow)=  0.333  0.336  0.329 (partition)  0.323
 Weight per m^2 of this construction   27.90
Kappa (thermal mass value)     0.0
 Total area of ceiling is     98.97
 
 Details of opaque construction: ceiling_rev linked to ceiling & with overall thickness  0.110
 In category ceil_floor also shown in menus as: rev suspended acoustic ceiling
A mineral time with 100mm acoustic treatment. For use as a suspended ceiling. To be referenced
from ceiling void. Reversed version is ceiling
 
 Layer|Thick |Conduc-|Density|Specif|IR  |Solar|Diffu| R    | Kg |Description
      |(mm)  |tivity |       |heat  |emis|abs  |resis|m^2K/W| m^2|
 Ext    10.0     0.030   290.  2000. 0.90 0.60      8.  0.33   2.9 ceiling mineral : Ceiling acoustic tile (mineral fibre based)
 Int   100.0     0.040   250.   840. 0.90 0.30      4.  2.50  25.0 glasswool : Glasswool (generic) (non-hygroscopic)
 ISO 6946 U values (horiz/upward/downward heat flow)=  0.333  0.336  0.329 (partition)  0.323
 Weight per m^2 of this construction   27.90
Kappa (thermal mass value)     0.0
 Total area of ceiling_rev is     98.97
 
 Details of opaque construction: susp_floor linked to susp_flr_re & with overall thickness  0.219
 In category ceil_floor also shown in menus as: carpeted intermed void->room
A commercial concrete floor structure with carpet cast on steel shuttering. For use over a ceiling
void.
 
 Layer|Thick |Conduc-|Density|Specif|IR  |Solar|Diffu| R    | Kg |Description
      |(mm)  |tivity |       |heat  |emis|abs  |resis|m^2K/W| m^2|
 Ext     6.0     0.060   186.  1360. 0.90 0.60     10.  0.10   1.1 Wilton : Wilton weave wool carpet (organic-hygroscopic)
    2   19.0     0.150   800.  2093. 0.91 0.65     96.  0.13  15.2 chipboard : Chipboard
    3   50.0     -         -      -  -    -         -   -      -   air gap resistance  0.17 0.17 0.17
    4  140.0     1.400  2100.   653. 0.90 0.65     19.  0.10 294.0 heavy mix concrete : Heavy mix concrete
 Int     4.0    50.000  7800.   502. 0.12 0.20  19200.  0.00  31.2 steel : Steel
 ISO 6946 U values (horiz/upward/downward heat flow)=  1.500  1.570  1.415 (partition)  1.321
 Weight per m^2 of this construction  341.58
Kappa (thermal mass value)   147.3
 Total area of susp_floor is    132.60
 
 Details of opaque construction: susp_flr_re linked to susp_floor & with overall thickness  0.219
 In category ceil_floor also shown in menus as: carpeted intermed room->void
A commercial concrete floor structure with carpet cast on steel shuttering. For use in the room
over a ceiling void.
 
 Layer|Thick |Conduc-|Density|Specif|IR  |Solar|Diffu| R    | Kg |Description
      |(mm)  |tivity |       |heat  |emis|abs  |resis|m^2K/W| m^2|
 Ext     4.0    50.000  7800.   502. 0.12 0.20  19200.  0.00  31.2 steel : Steel
    2  140.0     1.400  2100.   653. 0.90 0.65     19.  0.10 294.0 heavy mix concrete : Heavy mix concrete
    3   50.0     -         -      -  -    -         -   -      -   air gap resistance  0.17 0.17 0.17
    4   19.0     0.150   800.  2093. 0.91 0.65     96.  0.13  15.2 chipboard : Chipboard
 Int     6.0     0.060   186.  1360. 0.90 0.60     10.  0.10   1.1 Wilton : Wilton weave wool carpet (organic-hygroscopic)
 ISO 6946 U values (horiz/upward/downward heat flow)=  1.500  1.570  1.415 (partition)  1.321
 Weight per m^2 of this construction  341.58
Kappa (thermal mass value)   142.9
 Total area of susp_flr_re is    120.30
 
 Details of opaque construction: tank_w_50mm linked to tank_i_50mmi & with overall thickness  0.056
 In category fittings also shown in menus as: insulated water tank room->tank
Used as the insulated (50mm) wall of an copper walled accumulator. For use on room-side.
 
 Layer|Thick |Conduc-|Density|Specif|IR  |Solar|Diffu| R    | Kg |Description
      |(mm)  |tivity |       |heat  |emis|abs  |resis|m^2K/W| m^2|
 Ext     3.0   200.000  8900.   418. 0.72 0.65  19200.  0.00  26.7 copper : Copper
    2   50.0     0.030    30.  1764. 0.90 0.50      5.  1.67   1.5 UF foam : UF foam (non-hygroscopic)
 Int     3.0    40.000  7800.   502. 0.82 0.30  19200.  0.00  23.4 white ptd steel : White painted steel
 ISO 6946 U values (horiz/upward/downward heat flow)=  0.544  0.553  0.533 (partition)  0.519
 Weight per m^2 of this construction   51.60
Kappa (thermal mass value)    22.9
 Total area of tank_w_50mm is      3.51
 
 Details of opaque construction: tank_i_50mmi linked to tank_w_50mm & with overall thickness  0.056
 In category fittings also shown in menus as: insulated water tank tank->room
Used as the insulated (50mm) wall of an copper walled accumulator. For use in water side. Reverse
is tank_w_50mm
 
 Layer|Thick |Conduc-|Density|Specif|IR  |Solar|Diffu| R    | Kg |Description
      |(mm)  |tivity |       |heat  |emis|abs  |resis|m^2K/W| m^2|
 Ext     3.0    40.000  7800.   502. 0.82 0.30  19200.  0.00  23.4 white ptd steel : White painted steel
    2   50.0     0.030    30.  1764. 0.90 0.50      5.  1.67   1.5 UF foam : UF foam (non-hygroscopic)
 Int     3.0   200.000  8900.   418. 0.72 0.65  19200.  0.00  26.7 copper : Copper
 ISO 6946 U values (horiz/upward/downward heat flow)=  0.544  0.553  0.533 (partition)  0.519
 Weight per m^2 of this construction   51.60
Kappa (thermal mass value)    22.9
 Total area of tank_i_50mmi is      3.24
 
 Details of opaque construction: steel_pl_3mm and overall thickness  0.003
 In category fittings also shown in menus as: white steel panel 3mm
Used for furniture or in the cases of fittings or equipment.
 
 Layer|Thick |Conduc-|Density|Specif|IR  |Solar|Diffu| R    | Kg |Description
      |(mm)  |tivity |       |heat  |emis|abs  |resis|m^2K/W| m^2|
    1    3.0    40.000  7800.   502. 0.82 0.30  19200.  0.00  23.4 white ptd steel : White painted steel
 ISO 6946 U values (horiz/upward/downward heat flow)=  5.880  7.139  4.760 (partition)  3.845
 Weight per m^2 of this construction   23.40
Kappa (thermal mass value)     5.9
 Total area of steel_pl_3mm is     11.61
 
 Details of opaque construction: collector_pl and overall thickness  0.003
 In category fittings also shown in menus as: black copper panel 3mm
black coated copper plate for solar collectors or other equipment such as boiler combustion
chambers.
 
 Layer|Thick |Conduc-|Density|Specif|IR  |Solar|Diffu| R    | Kg |Description
      |(mm)  |tivity |       |heat  |emis|abs  |resis|m^2K/W| m^2|
    1    3.0   200.000  8900.   418. 0.52 0.96  19200.  0.00  26.7 black_coated_copper : black_coated_copper coated for solar absorption equiv Dampne
 ISO 6946 U values (horiz/upward/downward heat flow)=  5.882  7.142  4.762 (partition)  3.846
 Weight per m^2 of this construction   26.70
Kappa (thermal mass value)     5.6
 Total area of collector_pl is      0.00
 
 Details of opaque construction: sensor_case and overall thickness  0.002
 In category fittings also shown in menus as: ABS shell for control equipment
Used for thermostat shell or furniture or other office equipment.
 
 Layer|Thick |Conduc-|Density|Specif|IR  |Solar|Diffu| R    | Kg |Description
      |(mm)  |tivity |       |heat  |emis|abs  |resis|m^2K/W| m^2|
    1    1.7     0.250  1020.  1400. 0.90 0.60  19200.  0.01   1.7 ABS_case : ABS case (Acrylonitrile Butadiene Styrene) (www.matweb.com) (impermeabl
 ISO 6946 U values (horiz/upward/downward heat flow)=  5.656  6.812  4.613 (partition)  3.748
 Weight per m^2 of this construction    1.73
Kappa (thermal mass value)     1.2
 Total area of sensor_case is      0.00
 
 Details of opaque construction: circuit_bd and overall thickness  0.002
 In category fittings also shown in menus as: pcb-board for control equipment
Used within controls or office equipment to represent internal mass.
 
 Layer|Thick |Conduc-|Density|Specif|IR  |Solar|Diffu| R    | Kg |Description
      |(mm)  |tivity |       |heat  |emis|abs  |resis|m^2K/W| m^2|
    1    1.7     0.323  1770.   695. 0.90 0.75    200.  0.01   3.0 pcb-board : pcb-board based on FR4 with a thin layer of copper from Solidworks tut
 ISO 6946 U values (horiz/upward/downward heat flow)=  5.706  6.884  4.645 (partition)  3.770
 Weight per m^2 of this construction    3.01
Kappa (thermal mass value)     1.0
 Total area of circuit_bd is      1.48
 
 Details of opaque construction: upholstery and overall thickness  0.035
 In category fittings also shown in menus as: upholstery with layers of felt
Used to represent upholstery made from layers of dense fabric and wool fibre stuffing.
 
 Layer|Thick |Conduc-|Density|Specif|IR  |Solar|Diffu| R    | Kg |Description
      |(mm)  |tivity |       |heat  |emis|abs  |resis|m^2K/W| m^2|
 Ext     5.0     0.040   160.  1360. 0.90 0.65     10.  0.12   0.8 wool felt underlay : Wool felt underlay (organic-hygroscopic)
    2   25.0     0.060   198.  1360. 0.90 0.60     10.  0.42   5.0 sheeps wool : Sheeps wool (simulated)
 Int     5.0     0.040   160.  1360. 0.90 0.65     10.  0.12   0.8 wool felt underlay : Wool felt underlay (organic-hygroscopic)
 ISO 6946 U values (horiz/upward/downward heat flow)=  1.195  1.240  1.141 (partition)  1.079
 Weight per m^2 of this construction    6.55
Kappa (thermal mass value)     0.0
 Total area of upholstery is     10.52
 
 Details of opaque construction: corian_count and overall thickness  0.020
 In category fittings also shown in menus as: non-porous countertop surface
Used to represent the solid homogeneous non-porous surfacing of office furniture or kitchen
cabinets.
 
 Layer|Thick |Conduc-|Density|Specif|IR  |Solar|Diffu| R    | Kg |Description
      |(mm)  |tivity |       |heat  |emis|abs  |resis|m^2K/W| m^2|
    1   20.0     1.012  1750.   771. 0.80 0.40   1920.  0.02  35.0 corian : corian is a solid homogeneous non-porous surfacing of natural minerals an
 ISO 6946 U values (horiz/upward/downward heat flow)=  5.270  6.259  4.352 (partition)  3.574
 Weight per m^2 of this construction   35.00
Kappa (thermal mass value)    13.5
 Total area of corian_count is     22.51
 
 Details of opaque construction: IT_case and overall thickness  0.003
 In category fittings also shown in menus as: dark ABS shell for equipment
Used for dark casings (ABS) of office equipment or furniture.
 
 Layer|Thick |Conduc-|Density|Specif|IR  |Solar|Diffu| R    | Kg |Description
      |(mm)  |tivity |       |heat  |emis|abs  |resis|m^2K/W| m^2|
    1    2.7     0.250  1020.  1400. 0.90 0.90  19200.  0.01   2.8 dark_abs_case : dark_abs_case dark grey ABS (Acrylonitrile Butadiene Styrene www.m
 ISO 6946 U values (horiz/upward/downward heat flow)=  5.531  6.631  4.529 (partition)  3.693
 Weight per m^2 of this construction    2.75
Kappa (thermal mass value)     1.9
 Total area of IT_case is      1.77
 
 Details of opaque construction: furn_wd10mm and overall thickness  0.010
 In category fittings also shown in menus as: oak shelves or furniture (10mm)
Used to represent 10mm wooden shelves and case for book storage, furniture etc.
 
 Layer|Thick |Conduc-|Density|Specif|IR  |Solar|Diffu| R    | Kg |Description
      |(mm)  |tivity |       |heat  |emis|abs  |resis|m^2K/W| m^2|
    1   10.0     0.190   700.  2390. 0.90 0.65     12.  0.05   7.0 oak : Oak (radial cut)
 ISO 6946 U values (horiz/upward/downward heat flow)=  4.492  5.191  3.808 (partition)  3.199
 Weight per m^2 of this construction    7.00
Kappa (thermal mass value)     8.4
 Total area of furn_wd10mm is     12.00
 
 Details of opaque construction: steel_gr_3mm and overall thickness  0.003
 In category fittings also shown in menus as: grey steel panel 3mm
Used for furniture or in the cases of fittings or equipment.
 
 Layer|Thick |Conduc-|Density|Specif|IR  |Solar|Diffu| R    | Kg |Description
      |(mm)  |tivity |       |heat  |emis|abs  |resis|m^2K/W| m^2|
    1    3.0    40.000  7800.   502. 0.82 0.45  19200.  0.00  23.4 beige ptd steel : Beige painted steel
 ISO 6946 U values (horiz/upward/downward heat flow)=  5.880  7.139  4.760 (partition)  3.845
 Weight per m^2 of this construction   23.40
Kappa (thermal mass value)     5.9
 Total area of steel_gr_3mm is      4.61
 
 Details of opaque construction: file_papers and overall thickness  0.300
 In category fittings also shown in menus as: book paper layers on shelves
Used to represent large paper books and files 300mm thick on a shelf or in a filing cabinet.
 
 Layer|Thick |Conduc-|Density|Specif|IR  |Solar|Diffu| R    | Kg |Description
      |(mm)  |tivity |       |heat  |emis|abs  |resis|m^2K/W| m^2|
 Ext   100.0     0.100   720.  1300. 0.90 0.65     12.  1.00  72.0 book_paper : book_paper .72 g/cc from paperonweb.com engineering toolbox other att
    2  100.0     0.060   620.  1300. 0.90 0.60     12.  1.67  62.0 news_paper : news_paper .62g/cc on paperonweb.com engineering toolbox other attrib
 Int   100.0     0.100   720.  1300. 0.90 0.65     12.  1.00  72.0 book_paper : book_paper .72 g/cc from paperonweb.com engineering toolbox other att
 ISO 6946 U values (horiz/upward/downward heat flow)=  0.261  0.263  0.258 (partition)  0.255
 Weight per m^2 of this construction  206.00
Kappa (thermal mass value)    93.6
 Total area of file_papers is     11.61
 
 Details of opaque construction: booksonshlf and overall thickness  0.210
 In category fittings also shown in menus as: paper-back books on shelves
Used to represent smaller paper books and files 210mm thick on a shelf or in a filing cabinet.
 
 Layer|Thick |Conduc-|Density|Specif|IR  |Solar|Diffu| R    | Kg |Description
      |(mm)  |tivity |       |heat  |emis|abs  |resis|m^2K/W| m^2|
    1  210.0     0.100   720.  1300. 0.90 0.65     12.  2.10 151.2 book_paper : book_paper .72 g/cc from paperonweb.com engineering toolbox other att
 ISO 6946 U values (horiz/upward/downward heat flow)=  0.441  0.446  0.433 (partition)  0.424
 Weight per m^2 of this construction  151.20
Kappa (thermal mass value)    93.6
 Total area of booksonshlf is      0.00
 
 Details of opaque construction: stuffonshelf and overall thickness  0.210
 In category fittings also shown in menus as: mix of books clutter on shelves
Used to represent a mix of books and boxes 210mm thick on a shelf or in a filing cabinet.
 
 Layer|Thick |Conduc-|Density|Specif|IR  |Solar|Diffu| R    | Kg |Description
      |(mm)  |tivity |       |heat  |emis|abs  |resis|m^2K/W| m^2|
    1  210.0     0.100   480.  1300. 0.90 0.60     12.  2.10 100.8 shelf_clutter : shelf_clutter mix of books magazines papers on typical shelf (meas
 ISO 6946 U values (horiz/upward/downward heat flow)=  0.441  0.446  0.433 (partition)  0.424
 Weight per m^2 of this construction  100.80
Kappa (thermal mass value)    62.4
 Total area of stuffonshelf is     18.60
 
 Details of opaque construction: alum_hollow_frame and overall thickness  0.012
 In category frames also shown in menus as: alum_hollow_frame
alum_hollow_frame  grey aluminium frame with 80mm of fibre insulation to yield U value of ??.
 
 Layer|Thick |Conduc-|Density|Specif|IR  |Solar|Diffu| R    | Kg |Description
      |(mm)  |tivity |       |heat  |emis|abs  |resis|m^2K/W| m^2|
 Ext     4.0   210.000  2700.   880. 0.82 0.72  19200.  0.00  10.8 grey cotd alum : Grey coated aluminium
    2    4.0     0.040    12.   840. 0.90 0.65     30.  0.10   0.0 glass fibre quilt : Glass Fibre Quilt (non-hygroscopic)
 Int     4.0   210.000  2700.   880. 0.82 0.72  19200.  0.00  10.8 grey cotd alum : Grey coated aluminium
 ISO 6946 U values (horiz/upward/downward heat flow)=  3.703  4.166  3.225 (partition)  2.777
 Weight per m^2 of this construction   21.65
Kappa (thermal mass value)    14.3
 Total area of alum_hollow_frame is     11.04
 
 Details of opaque construction: alu_frame_U1.2 and overall thickness  0.053
 In category frames also shown in menus as: alu_frame_U1.4
alu_frame_U1.4  A composite aluminium Passive House grade window frame with air gap resistances
set to give U of 0.87
 
 Layer|Thick |Conduc-|Density|Specif|IR  |Solar|Diffu| R    | Kg |Description
      |(mm)  |tivity |       |heat  |emis|abs  |resis|m^2K/W| m^2|
 Ext     3.0   210.000  2700.   880. 0.82 0.72  19200.  0.00   8.1 grey cotd alum : Grey coated aluminium
    2    8.0     -         -      -  -    -         -   -      -   air gap resistance  0.06 0.06 0.06
    3    3.0   210.000  2700.   880. 0.22 0.20  19200.  0.00   8.1 aluminium : Aluminium
    4   25.0     0.050    15.  1000. 0.90 0.70     30.  0.50   0.4 EPS k 0.05 : EPS k=0.05 (non-hygroscopic)
    5    3.0   210.000  2700.   880. 0.22 0.20  19200.  0.00   8.1 aluminium : Aluminium
    6    8.0     -         -      -  -    -         -   -      -   air gap resistance  0.06 0.06 0.06
 Int     3.0   210.000  2700.   880. 0.82 0.72  19200.  0.00   8.1 grey cotd alum : Grey coated aluminium
 ISO 6946 U values (horiz/upward/downward heat flow)=  1.266  1.316  1.205 (partition)  1.136
 Weight per m^2 of this construction   32.79
Kappa (thermal mass value)    28.5
 Total area of alu_frame_U1.2 is     11.76
 
 Details of opaque construction: frc_rs_facade and overall thickness  0.162
 In category walls also shown in menus as: frc_rs_facade
frc_rs_facade  insul_frc_facade GFR concrete over insulation and fermacell
 
 Layer|Thick |Conduc-|Density|Specif|IR  |Solar|Diffu| R    | Kg |Description
      |(mm)  |tivity |       |heat  |emis|abs  |resis|m^2K/W| m^2|
 Ext    20.0     0.900  1950.   840. 0.90 0.65     18.  0.02  39.0 Glass reinf conc : Glass fibre reinforced concrete
    2   20.0     -         -      -  -    -         -   -      -   air gap resistance  0.17 0.17 0.17
    3   10.0     0.900  1950.   840. 0.90 0.65     18.  0.01  19.5 Glass reinf conc : Glass fibre reinforced concrete
    4  100.0     0.040    12.   840. 0.90 0.65     30.  2.50   1.2 glass fibre quilt : Glass Fibre Quilt (non-hygroscopic)
 Int    12.0     0.360  1150.  1000. 0.91 0.22    310.  0.03  13.8 gypsum_fibreboard : Fermacell gypsum fibreboard IBR report 3001-100 gypsum + 18% p
 ISO 6946 U values (horiz/upward/downward heat flow)=  0.344  0.348  0.339 (partition)  0.334
 Weight per m^2 of this construction   73.52
Kappa (thermal mass value)    62.9
 Total area of frc_rs_facade is     54.54
