Synopsis
 
Synopsis of model Offices - NV facade with mixer boxes running full time.
defined in nv_facade_mixer_constant.cfg generated on Mon Feb 26 14:40:07 2024.
Associated notes are in ../doc/office_vent.log
 
Location latitude   46.00 longitude difference   0.00 (from local time
meridian (east +ve). Simulations year 1997 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: Ottawa Intl ON CAN 1966 in can_ottawa with hour-centred solar
data.
Standard annual weather: can_ottawa
Calculated ground temperature at depth                                                                                      
  0.5 m: -7.3239 -8.6098 -6.3292 -2.7603 6.5748 13.779 18.638 20.117 17.597 12.004 4.5294 -2.4058
  1.0 m: -5.5667 -7.3286 -5.7900 -2.8690 5.3395 12.038 16.869 18.802 17.103 12.437 5.7987 -0.66126
  1.5 m: -3.9882 -6.0757 -5.1352 -2.7698 4.4063 10.579 15.286 17.525 16.486 12.625 6.7649 0.80381
  2.0 m: -2.5922 -4.8835 -4.4157 -2.5199 3.7264 9.3732 13.890 16.314 15.797 12.626 7.4760 2.0155
  2.5 m: -1.3744 -3.7733 -3.6708 -2.1666 3.2547 8.3926 12.676 15.191 15.078 12.489 7.9767 3.0023
  3.0 m: -0.32488 -2.7574 -2.9300 -1.7480 2.9505 7.6076 11.632 14.167 14.357 12.255 8.3073 3.7936
  3.5 m: 0.56962 -1.8413 -2.2146 -1.2941 2.7783 6.9895 10.745 13.245 13.658 11.956 8.5034 4.4177
  4.0 m: 1.3245 -1.0252 -1.5390 -0.82819 2.7073 6.5116 9.9991 12.427 12.995 11.620 8.5955 4.9014
  4.5 m: 1.9559 -0.30555 -0.91214 -0.36712 2.7120 6.1494 9.3769 11.707 12.377 11.266 8.6094 5.2689
  5.0 m: 2.4798 0.32349 -0.33869 0.0770035 2.7710 5.8811 8.8622 11.079 11.810 10.909 8.5666 5.5421
  5.5 m: 2.9117 0.86948 0.17994 0.49616 2.8672 5.6880 8.4393 10.535 11.297 10.561 8.4844 5.7397
  6.0 m: 3.2656 1.3407 0.64469 0.88553 2.9872 5.5537 8.0939 10.067 10.836 10.229 8.3765 5.8779
  6.5 m: 3.5544 1.7458 1.0581 1.2427 3.1205 5.4649 7.8131 9.6648 10.424 9.9180 8.2536 5.9702
  7.0 m: 3.7895 2.0929 1.4239 1.5673 3.2593 5.4104 7.5854 9.3209 10.060 9.6304 8.1237 6.0279
  7.5 m: 3.9807 2.3902 1.7462 1.8599 3.3979 5.3812 7.4010 9.0271 9.7385 9.3673 7.9927 6.0599
  8.0 m: 4.1365 2.6447 2.0295 2.1222 3.5323 5.3700 7.2515 8.7759 9.4555 9.1285 7.8648 6.0735
  8.5 m: 4.2638 2.8630 2.2783 2.3565 3.6600 5.3713 7.1297 8.5607 9.2066 8.9131 7.7426 6.0744
  9.0 m: 4.3685 3.0510 2.4969 2.5653 3.7794 5.3808 7.0300 8.3757 8.9879 8.7196 7.6280 6.0668
  9.5 m: 4.4554 3.2135 2.6891 2.7511 3.8897 5.3952 6.9475 8.2159 8.7952 8.5461 7.5218 6.0540
 10.0 m: 4.5285 3.3549 2.8588 2.9166 3.9909 5.4124 6.8785 8.0771 8.6251 8.3908 7.4242 6.0383
 
Primary energy conversions (demand kWhr to primary kWhr) are:
 heating   : 1.530
 cooling   : 1.440
 lighting  : 3.600
 fans&pumps: 3.600
 small powr: 3.600
 hot water : 1.530
 
 Emissions (g/kWh) CO2  NOx  SOx
 heating :  190.00   0.30   0.20
 cooling :  612.00   2.06   7.57
 lighting:  612.00   2.06   7.57
 fan_pump:  612.00   2.06   7.57
 small pr:  612.00   2.06   7.57
 hot water: 190.00   0.30   0.20
 
Databases associated with the model:
 standard pressure distr: pressc.db1
 standard materials     : material.db
 constructions          :  ../dbs/office_vent_constr.db4
 standard plant comp    : plantc.db1
 standard event profiles: profiles.db2.a
 standard optical prop  : optics.db
 standard UK NCM data   : SBEM.db1
 predefined objects     : ../dbs/office_vent_bc.predef.c
 standard mould isopleth: mould.db1
 
 ____________________________________________________________
 
The model includes ideal controls as follows:
Control description:
multi-sensors in the hvac mixers vs rooms below. NV facade controls. Mixer
fans full time.
no zone control description supplied
 
Zones control includes  4 functions.
 
The following day types are defined: weekday     saturday    sunday
 
Details of control loops referenced in the model:
 loop: mixer_manager
 
 The sensor for function  1 senses dry bulb temperature in mix_op_man.
 The actuator for function  1 is the air point in mix_op_man.
 >  1 periods of validity during the year have been defined.
 Control is valid Wed-01-Jan to Wed-31-Dec, 1997 with  3 periods.
 
 Per|Start|Sensing  |Actuating  | weekday control laws
   1  0.00 db temp   > flux      free floating
   2  7.00 db temp   > flux      Ideal multi-sensor: max heat 6000.W min heat 0.W max cool 6000.W
min heat 0.W Heat setpoint 50.0C cool setpoint 14.0C Aux:senses dry bulb T in manager. h/c 20.0
25.0 senses dry bulb T in general. h/c 20.0 25.0
   3 18.00 db temp   > flux      free floating
 loop: mixer_reception
 
 The sensor for function  2 senses dry bulb temperature in mb_recep.
 The actuator for function  2 is the air point in mb_recep.
 >  1 periods of validity during the year have been defined.
 Control is valid Wed-01-Jan to Wed-31-Dec, 1997 with  3 periods.
 
 Per|Start|Sensing  |Actuating  | weekday control laws
   1  0.00 db temp   > flux      free floating
   2  7.00 db temp   > flux      Ideal multi-sensor: max heat 5000.W min heat 0.W max cool 5000.W
min heat 0.W Heat setpoint 50.0C cool setpoint 14.0C Aux:senses dry bulb T in reception. h/c 20.0
25.0
   3 18.00 db temp   > flux      free floating
 loop: mixer_conference
 
 The sensor for function  3 senses dry bulb temperature in mb_conf.
 The actuator for function  3 is the air point in mb_conf.
 >  1 periods of validity during the year have been defined.
 Control is valid Wed-01-Jan to Wed-31-Dec, 1997 with  3 periods.
 
 Per|Start|Sensing  |Actuating  | weekday control laws
   1  0.00 db temp   > flux      free floating
   2  7.00 db temp   > flux      Ideal multi-sensor: max heat 5000.W min heat 0.W max cool 5000.W
min heat 0.W Heat setpoint 50.0C cool setpoint 14.0C Aux:senses dry bulb T in conference. h/c 20.0
25.0
   3 18.00 db temp   > flux      free floating
 loop: ceiling_temp_match
 
 The sensor for function  4 senses dry bulb temperature in ceiling_belo.
 The actuator for function  4 is the air point in ceiling_belo.
 >  1 periods of validity during the year have been defined.
 Control is valid Wed-01-Jan to Wed-31-Dec, 1997 with  1 periods.
 
 Per|Start|Sensing  |Actuating  | weekday control laws
   1  0.00 db temp   > flux      match temperature (ideal): max heat 5000.W min heat 0.W max cool
5000.W min heat 0.W Aux sensors 1. mean value @senses dry bulb T in ceil_void. scale 1.00 offset
1.00
 
 Zone to contol loop linkages:
 zone ( 1) manager      << control  0 no control imposed
 zone ( 2) general      << control  0 no control imposed
 zone ( 3) conference   << control  0 no control imposed
 zone ( 4) reception    << control  0 no control imposed
 zone ( 5) ceil_void    << control  0 no control imposed
 zone ( 6) mix_op_man   << control  1 mixer_manager
 zone ( 7) floor_void   << control  0 no control imposed
 zone ( 8) ceiling_belo << control  4 ceiling_temp_match
 zone ( 9) mb_recep     << control  2 mixer_reception
 zone (10) mb_conf      << control  3 mixer_conference
 
 Flow control includes 13 loops.
Flow controls based on multi-sensor NV facade directives (full time mixers).
 
 The sensor for function  1 senses node (1) manager
 The actuator for function  1 is flow connection:   2 BW-Op01:008 - manager via GrOpz01:008
 >  1 periods of validity during the year have been defined.
 Control is valid Wed-01-Jan to Wed-31-Dec, 1997 with  1 periods.
 
 Per|Start|Sensing  |Actuating  | weekday control laws
   1  0.00 dry bulb > flow       multi-sensor: normally closed with 4 sensors: For sensor 1 @ node
manager setpoint 21.00 direct action AND sensor 2 @ node manager setpoint 24.00 inverse action AND
sensor 3 ambient T setpoint 14.00 direct action AND
 
 The sensor for function  2 senses node (2) general
 The actuator for function  2 is flow connection:   6 BW-Op02:010 - general via GrOpz02:010
 >  1 periods of validity during the year have been defined.
 Control is valid Wed-01-Jan to Wed-31-Dec, 1997 with  1 periods.
 
 Per|Start|Sensing  |Actuating  | weekday control laws
   1  0.00 dry bulb > flow       multi-sensor: normally closed with 4 sensors: For sensor 1 @ node
general setpoint 21.00 direct action AND sensor 2 @ node general setpoint 24.00 inverse action AND
sensor 3 ambient T setpoint 14.00 direct action AND
 
 The sensor for function  3 senses node (2) general
 The actuator for function  3 is flow connection:   8 BW-Op02:016 - general via GrOpz02:016
 >  1 periods of validity during the year have been defined.
 Control is valid Wed-01-Jan to Wed-31-Dec, 1997 with  1 periods.
 
 Per|Start|Sensing  |Actuating  | weekday control laws
   1  0.00 dry bulb > flow       multi-sensor: normally closed with 4 sensors: For sensor 1 @ node
general setpoint 21.00 direct action AND sensor 2 @ node general setpoint 24.00 inverse action AND
sensor 3 ambient T setpoint 14.00 direct action AND
 
 The sensor for function  4 senses node (2) general
 The actuator for function  4 is flow connection:  10 BW-Op02:020 - general via GrOpz02:020
 >  1 periods of validity during the year have been defined.
 Control is valid Wed-01-Jan to Wed-31-Dec, 1997 with  1 periods.
 
 Per|Start|Sensing  |Actuating  | weekday control laws
   1  0.00 dry bulb > flow       multi-sensor: normally closed with 4 sensors: For sensor 1 @ node
general setpoint 21.00 direct action AND sensor 2 @ node general setpoint 24.00 inverse action AND
sensor 3 ambient T setpoint 14.00 direct action AND
 
 The sensor for function  5 senses node (2) general
 The actuator for function  5 is flow connection:  12 BW-Op02:024 - general via GrOpz02:024
 >  1 periods of validity during the year have been defined.
 Control is valid Wed-01-Jan to Wed-31-Dec, 1997 with  1 periods.
 
 Per|Start|Sensing  |Actuating  | weekday control laws
   1  0.00 dry bulb > flow       multi-sensor: normally closed with 4 sensors: For sensor 1 @ node
general setpoint 21.00 direct action AND sensor 2 @ node general setpoint 24.00 inverse action AND
sensor 3 ambient T setpoint 14.00 direct action AND
 
 The sensor for function  6 senses node (2) general
 The actuator for function  6 is flow connection:  14 BW-Op02:028 - general via GrOpz02:028
 >  1 periods of validity during the year have been defined.
 Control is valid Wed-01-Jan to Wed-31-Dec, 1997 with  1 periods.
 
 Per|Start|Sensing  |Actuating  | weekday control laws
   1  0.00 dry bulb > flow       multi-sensor: normally closed with 4 sensors: For sensor 1 @ node
general setpoint 21.00 direct action AND sensor 2 @ node general setpoint 24.00 inverse action AND
sensor 3 ambient T setpoint 14.00 direct action AND
 
 The sensor for function  7 senses node (3) conference
 The actuator for function  7 is flow connection:  21 BW-Op03:008 - conference via GrOpz03:008
 >  1 periods of validity during the year have been defined.
 Control is valid Wed-01-Jan to Wed-31-Dec, 1997 with  1 periods.
 
 Per|Start|Sensing  |Actuating  | weekday control laws
   1  0.00 dry bulb > flow       multi-sensor: normally closed with 4 sensors: For sensor 1 @ node
conference setpoint 21.00 direct action AND sensor 2 @ node conference setpoint 24.00 inverse
action AND sensor 3 ambient T setpoint 14.00 direct action AND
 
 The sensor for function  8 senses node (3) conference
 The actuator for function  8 is flow connection:  23 BW-Op03:012 - conference via GrOpz03:012
 >  1 periods of validity during the year have been defined.
 Control is valid Wed-01-Jan to Wed-31-Dec, 1997 with  1 periods.
 
 Per|Start|Sensing  |Actuating  | weekday control laws
   1  0.00 dry bulb > flow       multi-sensor: normally closed with 4 sensors: For sensor 1 @ node
conference setpoint 21.00 direct action AND sensor 2 @ node conference setpoint 24.00 inverse
action AND sensor 3 ambient T setpoint 14.00 direct action AND
 
 The sensor for function  9 senses node (3) conference
 The actuator for function  9 is flow connection:  25 BW-Op03:016 - conference via GrOpz03:016
 >  1 periods of validity during the year have been defined.
 Control is valid Wed-01-Jan to Wed-31-Dec, 1997 with  1 periods.
 
 Per|Start|Sensing  |Actuating  | weekday control laws
   1  0.00 dry bulb > flow       multi-sensor: normally closed with 4 sensors: For sensor 1 @ node
conference setpoint 21.00 direct action AND sensor 2 @ node conference setpoint 24.00 inverse
action AND sensor 3 ambient T setpoint 14.00 direct action AND
 
 The sensor for function 10 senses node (3) conference
 The actuator for function 10 is flow connection:  27 BW-Op03:020 - conference via GrOpz03:020
 >  1 periods of validity during the year have been defined.
 Control is valid Wed-01-Jan to Wed-31-Dec, 1997 with  1 periods.
 
 Per|Start|Sensing  |Actuating  | weekday control laws
   1  0.00 dry bulb > flow       multi-sensor: normally closed with 4 sensors: For sensor 1 @ node
conference setpoint 21.00 direct action AND sensor 2 @ node conference setpoint 24.00 inverse
action AND sensor 3 ambient T setpoint 14.00 direct action AND
 
 The sensor for function 11 senses node (3) conference
 The actuator for function 11 is flow connection:  29 BW-Op03:024 - conference via GrOpz03:024
 >  1 periods of validity during the year have been defined.
 Control is valid Wed-01-Jan to Wed-31-Dec, 1997 with  1 periods.
 
 Per|Start|Sensing  |Actuating  | weekday control laws
   1  0.00 dry bulb > flow       multi-sensor: normally closed with 4 sensors: For sensor 1 @ node
conference setpoint 21.00 direct action AND sensor 2 @ node conference setpoint 24.00 inverse
action AND sensor 3 ambient T setpoint 14.00 direct action AND
 
 The sensor for function 12 senses node (4) reception
 The actuator for function 12 is flow connection:  33 BW-Op04:008 - reception via GrOpz04:008
 >  1 periods of validity during the year have been defined.
 Control is valid Wed-01-Jan to Wed-31-Dec, 1997 with  1 periods.
 
 Per|Start|Sensing  |Actuating  | weekday control laws
   1  0.00 dry bulb > flow       multi-sensor: normally closed with 4 sensors: For sensor 1 @ node
reception setpoint 21.00 direct action AND sensor 2 @ node reception setpoint 24.00 inverse action
AND sensor 3 ambient T setpoint 14.00 direct action AND
 
 The sensor for function 13 senses node (4) reception
 The actuator for function 13 is flow connection:  35 BW-Op04:012 - reception via GrOpz04:012
 >  1 periods of validity during the year have been defined.
 Control is valid Wed-01-Jan to Wed-31-Dec, 1997 with  1 periods.
 
 Per|Start|Sensing  |Actuating  | weekday control laws
   1  0.00 dry bulb > flow       multi-sensor: normally closed with 4 sensors: For sensor 1 @ node
reception setpoint 21.00 direct action AND sensor 2 @ node reception setpoint 24.00 inverse action
AND sensor 3 ambient T setpoint 14.00 direct action AND
 ____________________________________________________________
 
The model includes an air flow network.
 
 Flow network description.
 
  42 nodes,  51 components,  50 connections;     wind reduction =  0.600
   # Node       Fluid   Node Type              X Y Z Position      Temperature    Data_1        Data_2
   1 manager      air   internal & unknown     1.515   2.250   1.500   20.000     (-)     1.000  vol   40.501
   2 general      air   internal & unknown     6.000   3.000   1.500   20.000     (-)     1.000  vol  175.503
   3 conference   air   internal & unknown     7.500  15.000   1.500   20.000     (-)     1.000  vol  141.753
   4 reception    air   internal & unknown     7.500   9.750   1.500   20.000     (-)     1.000  vol  182.254
   5 ceil_void    air   internal & unknown     6.000   9.000   3.250   20.000     (-)     1.000  vol   89.462
   6 mix_op_man   air   internal & unknown     4.500   3.300   3.250   20.000     (-)     1.000  vol    0.180
   7 floor_void   air   internal & unknown     6.000   9.000  -0.100   20.000     (-)     1.000  vol   36.001
   8 ceiling_belo air   internal & unknown     6.000   9.000  -0.300   20.000     (-)     1.000  vol   36.001
   9 mb_recep     air   internal & unknown     4.500   9.300   3.250   20.000     (-)     1.000  vol    0.180
  10 mb_conf      air   internal & unknown     4.500  15.300   3.250   20.000     (-)     1.000  vol    0.180
  11 BW-Op01:008  air   boundary & wind ind    1.500  -0.900   0.700   0.0000     coef    1.000  azim 180.000
  12 BW-Op02:010  air   boundary & wind ind    4.500  -0.900   0.700   0.0000     coef    1.000  azim 180.000
  13 BW-Cr02:012  air   boundary & wind ind    4.500  -0.900   1.950   0.0000     coef    1.000  azim 180.000
  14 BW-Op02:016  air   boundary & wind ind    7.500  -0.900   0.700   0.0000     coef    1.000  azim 180.000
  15 BW-Cr02:018  air   boundary & wind ind    7.500  -0.900   1.950   0.0000     coef    1.000  azim 180.000
  16 BW-Op02:020  air   boundary & wind ind   10.500  -0.900   0.700   0.0000     coef    1.000  azim 180.000
  17 BW-Cr02:022  air   boundary & wind ind   10.500  -0.900   1.950   0.0000     coef    1.000  azim 180.000
  18 BW-Op02:024  air   boundary & wind ind   12.900   1.500   0.700   0.0000     coef    1.000  azim  90.000
  19 BW-Cr02:026  air   boundary & wind ind   12.900   1.500   1.950   0.0000     coef    1.000  azim  90.000
  20 BW-Op02:028  air   boundary & wind ind   12.900   4.500   0.700   0.0000     coef    1.000  azim  90.000
  21 BW-Cr02:030  air   boundary & wind ind   12.900   4.500   1.950   0.0000     coef    1.000  azim  90.000
  22 BW-Op03:008  air   boundary & wind ind    4.500  18.900   0.700   0.0000     coef    1.000  azim   0.000
  23 BW-Cr03:010  air   boundary & wind ind    4.500  18.900   1.950   0.0000     coef    1.000  azim   0.000
  24 BW-Op03:012  air   boundary & wind ind    7.500  18.900   0.700   0.0000     coef    1.000  azim   0.000
  25 BW-Cr03:014  air   boundary & wind ind    7.500  18.900   1.950   0.0000     coef    1.000  azim   0.000
  26 BW-Op03:016  air   boundary & wind ind   10.500  18.900   0.700   0.0000     coef    1.000  azim   0.000
  27 BW-Cr03:018  air   boundary & wind ind   10.500  18.900   1.950   0.0000     coef    1.000  azim   0.000
  28 BW-Op03:020  air   boundary & wind ind   12.900  16.500   0.700   0.0000     coef    1.000  azim  90.000
  29 BW-Cr03:022  air   boundary & wind ind   12.900  16.500   1.950   0.0000     coef    1.000  azim  90.000
  30 BW-Op03:024  air   boundary & wind ind   12.900  13.500   0.700   0.0000     coef    1.000  azim  90.000
  31 BW-Cr03:026  air   boundary & wind ind   12.900  13.500   1.950   0.0000     coef    1.000  azim  90.000
  32 BW-Op04:008  air   boundary & wind ind   12.900   7.500   0.700   0.0000     coef    1.000  azim  90.000
  33 BW-Cr04:010  air   boundary & wind ind   12.900   7.500   1.950   0.0000     coef    1.000  azim  90.000
  34 BW-Op04:012  air   boundary & wind ind   12.900  10.500   0.700   0.0000     coef    1.000  azim  90.000
  35 BW-Cr04:014  air   boundary & wind ind   12.900  10.500   1.950   0.0000     coef    1.000  azim  90.000
  36 BW-Ve07:007  air   boundary & wind ind    7.500  18.900   0.000   0.0000     coef    1.000  azim   0.000
  37 BW-Ve08:004  air   boundary & wind ind    7.500  18.900  -0.200   0.0000     coef    1.000  azim   0.000
  38 BF-Cr05:002  air   boundary & wind ind    5.625  -0.900   3.188   0.0000     coef    1.000  azim 180.000
  39 BF-Cr07:005  air   boundary & wind ind    5.625  -0.900  -0.075   0.0000     coef    1.000  azim 180.000
  40 BF-Cr08:002  air   boundary & wind ind    5.000  -0.900  -0.300   0.0000     coef    1.000  azim 180.000
  41 BW-Ve01:009  air   boundary & wind ind    1.258  -0.900   3.000   0.0000     coef    1.000  azim 180.000
  42 BW-Ve04:009  air   boundary & wind ind   12.900   7.258   3.000   0.0000     coef    1.000  azim  90.000
 
 Component    Type Fluid C+ L+ Association @X @Y @Z Description
 
 DABiz01:003   130 air    5  0 manager:door   0.5   4.5   1.5 Specific air flow door
 With width  0.100 height 3.000 ref ht  1.500 discharge factor 0.500
 
 BiCrz01:003   120 air    3  0 manager:door   0.5   4.5   0.0 Specific air flow crack
 With crack width(m)  0.0020 crack length(m)  8.000
 
 GrOpz01:008    40 air    3  0 manager:vent   1.5   0.0   0.7 Common orifice flow
 With opening area (m^2)  0.080 discharge factor (-) 0.650
 
 GrMEI01:044    30 air    2  0 manager:office_inlet   1.7   1.2   3.0 Constant volume flow rate
 With flow rate (m^3/s)  0.66667E-01
 
 GrOpz01:045    40 air    3  0 manager:office_ret   1.7   3.7   3.0 Common orifice flow
 With opening area (m^2)  0.160 discharge factor (-) 0.650
 
 FABiz02:004   130 air    5  0 general:fict_rec   6.0   6.0   1.5 Specific air flow door
 With width  0.100 height 3.000 ref ht  1.500 discharge factor 0.500
 
 GrOpz02:010    40 air    3  0 general:vent   4.5   0.0   0.7 Common orifice flow
 With opening area (m^2)  0.080 discharge factor (-) 0.650
 
 WiCrz02:012   120 air    3  0 general:glazing   4.5   0.0   2.0 Specific air flow crack
 With crack width(m)  0.0020 crack length(m)  9.400
 
 GrOpz02:016    40 air    3  0 general:vent_a   7.5   0.0   0.7 Common orifice flow
 With opening area (m^2)  0.080 discharge factor (-) 0.650
 
 WiCrz02:018   120 air    3  0 general:glazing_a   7.5   0.0   2.0 Specific air flow crack
 With crack width(m)  0.0020 crack length(m)  9.400
 
 GrOpz02:020    40 air    3  0 general:vent_b  10.5   0.0   0.7 Common orifice flow
 With opening area (m^2)  0.080 discharge factor (-) 0.650
 
 WiCrz02:022   120 air    3  0 general:glazing_b  10.5   0.0   2.0 Specific air flow crack
 With crack width(m)  0.0020 crack length(m)  9.400
 
 GrOpz02:024    40 air    3  0 general:vent_c  12.0   1.5   0.7 Common orifice flow
 With opening area (m^2)  0.080 discharge factor (-) 0.650
 
 WiCrz02:026   120 air    3  0 general:glazing_c  12.0   1.5   2.0 Specific air flow crack
 With crack width(m)  0.0020 crack length(m)  9.400
 
 GrOpz02:028    40 air    3  0 general:vent_d  12.0   4.5   0.7 Common orifice flow
 With opening area (m^2)  0.080 discharge factor (-) 0.650
 
 WiCrz02:030   120 air    3  0 general:glazing_d  12.0   4.5   2.0 Specific air flow crack
 With crack width(m)  0.0020 crack length(m)  9.400
 
 GrMEI02:091    30 air    2  0 general:op_a_inlet   5.2   1.7   3.0 Constant volume flow rate
 With flow rate (m^3/s)  0.12250
 
 GrMEI02:092    30 air    2  0 general:op_b_inlet  10.2   1.7   3.0 Constant volume flow rate
 With flow rate (m^3/s)  0.12250
 
 GrOpz02:093    40 air    3  0 general:op_a_return   5.2   4.7   3.0 Common orifice flow
 With opening area (m^2)  0.160 discharge factor (-) 0.650
 
 GrOpz02:094    40 air    3  0 general:op_b_return  10.2   4.7   3.0 Common orifice flow
 With opening area (m^2)  0.160 discharge factor (-) 0.650
 
 FABiz03:003   130 air    5  0 conference:fict_open   7.5  12.8   1.5 Specific air flow door
 With width  0.100 height 3.000 ref ht  1.500 discharge factor 0.500
 
 GrOpz03:008    40 air    3  0 conference:vent   4.5  18.0   0.7 Common orifice flow
 With opening area (m^2)  0.080 discharge factor (-) 0.650
 
 WiCrz03:010   120 air    3  0 conference:glazing   4.5  18.0   2.0 Specific air flow crack
 With crack width(m)  0.0020 crack length(m)  9.400
 
 GrOpz03:012    40 air    3  0 conference:vent_a   7.5  18.0   0.7 Common orifice flow
 With opening area (m^2)  0.080 discharge factor (-) 0.650
 
 WiCrz03:014   120 air    3  0 conference:glazing_a   7.5  18.0   2.0 Specific air flow crack
 With crack width(m)  0.0020 crack length(m)  9.400
 
 GrOpz03:016    40 air    3  0 conference:vent_b  10.5  18.0   0.7 Common orifice flow
 With opening area (m^2)  0.080 discharge factor (-) 0.650
 
 WiCrz03:018   120 air    3  0 conference:glazing_b  10.5  18.0   2.0 Specific air flow crack
 With crack width(m)  0.0020 crack length(m)  9.400
 
 GrOpz03:020    40 air    3  0 conference:vent_c  12.0  16.5   0.7 Common orifice flow
 With opening area (m^2)  0.080 discharge factor (-) 0.650
 
 WiCrz03:022   120 air    3  0 conference:glazing_c  12.0  16.5   2.0 Specific air flow crack
 With crack width(m)  0.0020 crack length(m)  9.400
 
 GrOpz03:024    40 air    3  0 conference:vent_d  12.0  13.5   0.7 Common orifice flow
 With opening area (m^2)  0.080 discharge factor (-) 0.650
 
 WiCrz03:026   120 air    3  0 conference:glazing_d  12.0  13.5   2.0 Specific air flow crack
 With crack width(m)  0.0020 crack length(m)  9.400
 
 GrOpz03:069    40 air    3  0 conference:conf_return   5.2  14.7   3.0 Common orifice flow
 With opening area (m^2)  0.160 discharge factor (-) 0.650
 
 GrMEI03:070    30 air    2  0 conference:conf_inlet  10.2  14.7   3.0 Constant volume flow rate
 With flow rate (m^3/s)  0.19722
 
 GrOpz04:008    40 air    3  0 reception:vent  12.0   7.5   0.7 Common orifice flow
 With opening area (m^2)  0.080 discharge factor (-) 0.650
 
 WiCrz04:010   120 air    3  0 reception:glazing  12.0   7.5   2.0 Specific air flow crack
 With crack width(m)  0.0020 crack length(m)  9.400
 
 GrOpz04:012    40 air    3  0 reception:vent_a  12.0  10.5   0.7 Common orifice flow
 With opening area (m^2)  0.080 discharge factor (-) 0.650
 
 WiCrz04:014   120 air    3  0 reception:glazing_a  12.0  10.5   2.0 Specific air flow crack
 With crack width(m)  0.0020 crack length(m)  9.400
 
 GrOpz04:075    40 air    3  0 reception:recep_a_ret   5.2   7.7   3.0 Common orifice flow
 With opening area (m^2)  0.160 discharge factor (-) 0.650
 
 GrOpz04:076    40 air    3  0 reception:recep_b_ret   5.2  10.7   3.0 Common orifice flow
 With opening area (m^2)  0.160 discharge factor (-) 0.650
 
 GrMEI04:077    30 air    2  0 reception:recep_a_inle  10.2   7.7   3.0 Constant volume flow rate
 With flow rate (m^3/s)  0.25319
 
 GrMEI04:078    30 air    2  0 reception:recep_b_inle  10.2  10.7   3.0 Constant volume flow rate
 With flow rate (m^3/s)  0.12639
 
 GrOpz05:027    40 air    3  0 ceil_void:mb_o_left   4.0   3.3   3.2 Common orifice flow
 With opening area (m^2)  0.180 discharge factor (-) 0.650
 
 GrOpz05:033    40 air    3  0 ceil_void:mb_r_left   4.0   9.3   3.2 Common orifice flow
 With opening area (m^2)  0.180 discharge factor (-) 0.650
 
 GrOpz05:039    40 air    3  0 ceil_void:mb_c_left   4.0  15.3   3.2 Common orifice flow
 With opening area (m^2)  0.180 discharge factor (-) 0.650
 
 FrVez07:007    40 air    3  0 floor_void:back   7.5  18.0   0.0 Common orifice flow
 With opening area (m^2)  0.010 discharge factor (-) 0.340
 
 FrVez08:004    40 air    3  0 ceiling_belo:back   7.5  18.0  -0.2 Common orifice flow
 With opening area (m^2)  0.010 discharge factor (-) 0.340
 
 FrCrz05:002   120 air    3  0 ceil_void:south_edge   5.6   0.0   3.2 Specific air flow crack
 With crack width(m)  0.0020 crack length(m) 25.000
 
 FrCrz07:005   120 air    3  0 floor_void:front   5.6   0.0  -0.1 Specific air flow crack
 With crack width(m)  0.0020 crack length(m) 24.400
 
 FrCrz08:002   120 air    3  0 ceiling_belo:front   5.0   0.0  -0.3 Specific air flow crack
 With crack width(m)  0.0020 crack length(m) 24.400
 
 FrVez01:009    40 air    3  0 manager:frame   1.3   0.0   3.0 Common orifice flow
 With opening area (m^2)  0.010 discharge factor (-) 0.340
 
 FrVez04:009    40 air    3  0 reception:frame  12.0   7.3   3.0 Common orifice flow
 With opening area (m^2)  0.010 discharge factor (-) 0.340
 
    # +Node         dHght   -Node         dHght   Component       Z @+    Z @-
    1 manager       0.000   general       0.000   DABiz01:003     1.500   1.500
    2 BW-Op01:008   0.000   manager      -0.800   GrOpz01:008     0.700   0.700
    3 mix_op_man   -0.250   manager       1.500   GrMEI01:044     3.000   3.000
    4 manager      -0.250   ceil_void     1.500   GrOpz01:045     1.250   4.750
    5 general       0.000   reception     0.000   FABiz02:004     1.500   1.500
    6 BW-Op02:010   0.000   general      -0.800   GrOpz02:010     0.700   0.700
    7 BW-Cr02:012   0.000   general       0.450   WiCrz02:012     1.950   1.950
    8 BW-Op02:016   0.000   general      -0.800   GrOpz02:016     0.700   0.700
    9 BW-Cr02:018   0.000   general       0.450   WiCrz02:018     1.950   1.950
   10 BW-Op02:020   0.000   general      -0.800   GrOpz02:020     0.700   0.700
   11 BW-Cr02:022   0.000   general       0.450   WiCrz02:022     1.950   1.950
   12 BW-Op02:024   0.000   general      -0.800   GrOpz02:024     0.700   0.700
   13 BW-Cr02:026   0.000   general       0.450   WiCrz02:026     1.950   1.950
   14 BW-Op02:028   0.000   general      -0.800   GrOpz02:028     0.700   0.700
   15 BW-Cr02:030   0.000   general       0.450   WiCrz02:030     1.950   1.950
   16 mix_op_man   -0.250   general       1.500   GrMEI02:091     3.000   3.000
   17 mix_op_man   -0.250   general       1.500   GrMEI02:092     3.000   3.000
   18 general       1.500   ceil_void    -0.250   GrOpz02:093     3.000   3.000
   19 general       1.500   ceil_void    -0.250   GrOpz02:094     3.000   3.000
   20 conference    0.000   reception     0.000   FABiz03:003     1.500   1.500
   21 BW-Op03:008   0.000   conference   -0.800   GrOpz03:008     0.700   0.700
   22 BW-Cr03:010   0.000   conference    0.450   WiCrz03:010     1.950   1.950
   23 BW-Op03:012   0.000   conference   -0.800   GrOpz03:012     0.700   0.700
   24 BW-Cr03:014   0.000   conference    0.450   WiCrz03:014     1.950   1.950
   25 BW-Op03:016   0.000   conference   -0.800   GrOpz03:016     0.700   0.700
   26 BW-Cr03:018   0.000   conference    0.450   WiCrz03:018     1.950   1.950
   27 BW-Op03:020   0.000   conference   -0.800   GrOpz03:020     0.700   0.700
   28 BW-Cr03:022   0.000   conference    0.450   WiCrz03:022     1.950   1.950
   29 BW-Op03:024   0.000   conference   -0.800   GrOpz03:024     0.700   0.700
   30 BW-Cr03:026   0.000   conference    0.450   WiCrz03:026     1.950   1.950
   31 conference    1.500   ceil_void    -0.250   GrOpz03:069     3.000   3.000
   32 mb_conf      -0.250   conference    1.500   GrMEI03:070     3.000   3.000
   33 BW-Op04:008  -0.250   reception     1.500   GrOpz04:008     0.450   3.000
   34 BW-Cr04:010   0.000   reception     0.450   WiCrz04:010     1.950   1.950
   35 BW-Op04:012   0.000   reception    -0.800   GrOpz04:012     0.700   0.700
   36 BW-Cr04:014   0.000   reception     0.450   WiCrz04:014     1.950   1.950
   37 reception     1.500   ceil_void    -0.250   GrOpz04:075     3.000   3.000
   38 reception     1.500   ceil_void    -0.250   GrOpz04:076     3.000   3.000
   39 mb_recep     -0.250   reception     1.500   GrMEI04:077     3.000   3.000
   40 mb_recep     -0.250   reception     1.500   GrMEI04:078     3.000   3.000
   41 ceil_void     0.000   mix_op_man    0.000   GrOpz05:027     3.250   3.250
   42 ceil_void     0.000   mb_recep      0.000   GrOpz05:033     3.250   3.250
   43 ceil_void     0.000   mb_conf       0.000   GrOpz05:039     3.250   3.250
   44 BW-Ve07:007   0.000   floor_void    0.100   FrVez07:007     0.000   0.000
   45 BW-Ve08:004   0.000   ceiling_belo  0.100   FrVez08:004    -0.200  -0.200
   46 BF-Cr05:002   0.000   ceil_void    -0.062   FrCrz05:002     3.188   3.188
   47 BF-Cr07:005   0.000   floor_void    0.025   FrCrz07:005    -0.075  -0.075
   48 BF-Cr08:002   0.000   ceiling_belo  0.000   FrCrz08:002    -0.300  -0.300
   49 BW-Ve01:009   0.000   manager       1.500   FrVez01:009     3.000   3.000
   50 BW-Ve04:009   0.000   reception     1.500   FrVez04:009     3.000   3.000
 
thermal zone to air flow node mapping:
thermal zone -> air flow node
manager      -> manager
general      -> general
conference   -> conference
reception    -> reception
ceil_void    -> ceil_void
mix_op_man   -> mix_op_man
floor_void   -> floor_void
ceiling_belo -> ceiling_belo
mb_recep     -> mb_recep
mb_conf      -> mb_conf
 
 
 ____________________________________________________________
 
ID Zone         Volume|          Surface
   Name         m^3   | No. Opaque  Transp  ~Floor
 1 manager        40.5  45    82.6    10.4    13.5  manager describes cellular office
 2 general       175.5  94   218.4    49.6    58.5  general describes an open plan with 4 desks
 3 conference    141.8  70   178.1    36.7    47.2  conference describes a conference room for 10-12
 4 reception     182.3  78   216.1    38.7    60.8  reception of office group adj to conference room
 5 ceil_void      89.5  41   396.5     0.0   180.0  ceil_void is a 0.5m ceiling void over offices
 6 mix_op_man      0.2   6     2.2     0.0     0.6  mixing_box is a zonal representation of ahu
 7 floor_void     36.0  11   372.0     0.0   180.0  floor_void is a 200mm floor void
 8 ceiling_belo   36.0   8   372.0     0.0   180.0  ceil_below is ceiling below floor void as boundary condition
 9 mb_recep        0.2   6     2.2     0.0     0.6  mb_recep is hvac mixer for reception
10 mb_conf         0.2   6     2.2     0.0     0.6  mb_conf is hvac mixing box for conference room
   all           702.  365   1842.    135.    722.
 
 
 Zone manager ( 1) is composed of 45 surfaces and 96 vertices.
 It encloses a volume of 40.5m^3 of space, with a total surface
 area of 92.9m^2 & user list floor area of 13.5m^2
 manager describes cellular office
 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 0.307 & UA of 1.1280.
 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 65.382m2 & trasparent partitions:ceiling:floor 5.0400m2.
 
 A summary of the surfaces in manager( 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_mgrs:general
  2  0.960   360.   0. part_frame   OPAQUE   VERT -:-               insul_frame              ||< part_frame:general
  3  3.00      0.   0. door         OPAQUE   VERT DOOR:AJAR-BID     door                     ||< door:general
  4  13.5    270.   0. pt_other     OPAQUE   VERT -:-               gyp_gyp_ptn              ||< identical environment
  5  13.2      0.  90. ceiling      OPAQUE   CEIL PARTN:-           ceiling                  ||< ceiling:ceil_void
  6  13.5      0. -90. floor        OPAQUE   FLOR -:-               flr_ov_pln               ||< man_floor:floor_void
  7  2.30    180.   0. spandral     OPAQUE   VERT -:-               extern_wall              ||< external
  8  0.400   180.   0. vent         OPAQUE   VERT GRILL:OPEN        insul_frame              ||< external
  9  0.980   180.   0. frame        OPAQUE   VERT F-FRAME:VENT      insul_frame              ||< external
 10  5.32    180.   0. glazing      DCF7671_ VERT -:-               dbl_glz                  ||< external
 11  5.04      0.   0. part_glaz    DCF7671_ VERT -:-               dbl_glz                  ||< part_glaz:general
 12  1.17      0.  90. adesk_t      OPAQUE   CEIL FURNI:-           door                     ||< adesk_t_:manager
 13  1.17      0. -90. adesk_t_     OPAQUE   FLOR FURNI:-           door                     ||< adesk_t:manager
 14  1.17      0.  90. bdesk_t      OPAQUE   CEIL FURNI:-           door                     ||< bdesk_t_:manager
 15  1.17      0. -90. bdesk_t_     OPAQUE   FLOR FURNI:-           door                     ||< bdesk_t:manager
 16  0.207     0.  90. aseat        OPAQUE   CEIL FURNI:-           upholstery               ||< aseat_:manager
 17  0.207     0. -90. aseat_       OPAQUE   FLOR FURNI:-           upholstery               ||< aseat:manager
 18  0.231   200.   6. astback      OPAQUE   SLOP FURNI:-           upholstery               ||< astback_:manager
 19  0.231    20.  -6. astback_     OPAQUE   SLOP FURNI:-           upholstery               ||< astback:manager
 20  0.814     0.  90. cseat_mass   OPAQUE   CEIL FURNI:-           upholstery               ||< cseat_mass_:manager
 21  0.814     0. -90. cseat_mass_  OPAQUE   FLOR FURNI:-           upholstery               ||< cseat_mass:manager
 22  0.324   180.   0. carm_mass_l  OPAQUE   VERT FURNI:-           upholstery               ||< carm_mass_l_:manager
 23  0.324   360.   0. carm_mass_l_ OPAQUE   VERT FURNI:-           upholstery               ||< carm_mass_l:manager
 24  0.324   180.   0. carm_mass_r  OPAQUE   VERT FURNI:-           upholstery               ||< carm_mass_r_:manager
 25  0.324     0.   0. carm_mass_r_ OPAQUE   VERT FURNI:-           upholstery               ||< carm_mass_r:manager
 26  0.515     0.  90. dt_top       OPAQUE   CEIL FURNI:-           shelves_20mm             ||< dt_top_:manager
 27  0.515     0. -90. dt_top_      OPAQUE   FLOR FURNI:-           shelves_20mm             ||< dt_top:manager
 28  0.271     0.  90. dct_shelf    OPAQUE   CEIL FURNI:-           furn_wd10mm              ||< dct_shelf_:manager
 29  0.271     0. -90. dct_shelf_   OPAQUE   FLOR FURNI:-           furn_wd10mm              ||< dct_shelf:manager
 30  0.500   180.   0. abil_lft     OPAQUE   VERT FURNI:-           furn_wd10mm              ||< abil_lft_:manager
 31  0.500   360.   0. abil_lft_    OPAQUE   VERT FURNI:-           furn_wd10mm              ||< abil_lft:manager
 32  0.500   180.   0. abil_rt      OPAQUE   VERT FURNI:-           furn_wd10mm              ||< abil_rt_:manager
 33  0.500     0.   0. abil_rt_     OPAQUE   VERT FURNI:-           furn_wd10mm              ||< abil_rt:manager
 34  1.55    270.   0. abooks       OPAQUE   VERT FURNI:-           stuffonshelf             ||< abooks_:manager
 35  1.55     90.   0. abooks_      OPAQUE   VERT FURNI:-           stuffonshelf             ||< abooks:manager
 36  0.484   180.   0. ccab_lf      OPAQUE   VERT FURNI:-           steel_pl_3mm             ||< ccab_lf_:manager
 37  0.484     0.   0. ccab_lf_     OPAQUE   VERT FURNI:-           steel_pl_3mm             ||< ccab_lf:manager
 38  0.484   180.  -0. ccab_rt      OPAQUE   VERT FURNI:-           steel_pl_3mm             ||< ccab_rt_:manager
 39  0.484     0.   0. ccab_rt_     OPAQUE   VERT FURNI:-           steel_pl_3mm             ||< ccab_rt:manager
 40  0.955    90.   0. ccab_fr      OPAQUE   VERT FURNI:-           steel_gr_3mm             ||< ccab_fr_:manager
 41  0.955   270.   0. ccab_fr_     OPAQUE   VERT FURNI:-           steel_gr_3mm             ||< ccab_fr:manager
 42  0.955    90.   0. cpaper_fr    OPAQUE   VERT FURNI:-           file_papers              ||< cpaper_fr_:manager
 43  0.955   270.   0. cpaper_fr_   OPAQUE   VERT FURNI:-           file_papers              ||< cpaper_fr:manager
 44  0.160     0.  90. office_inlet OPAQUE   CEIL GRILL:INLET       steel_gr_3mm             ||< office_inlet:ceil_void
 45  0.160     0.  90. office_ret   OPAQUE   CEIL GRILL:OPEN        steel_gr_3mm             ||< office_ret:ceil_void
 
Surface      Width(m)   Height(m)  Above ffl...
door            1.00       3.00      0.00    DOOR
frame           3.00       2.10      0.90    F-FRAME
  
In manager             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
extern_wall              2.3      2.3      0.0      0.0      0.0      0.0
insul_frame              2.3      1.4      1.0      0.0      0.0      0.0
door                     5.3      0.0      3.0      2.3      0.0      0.0
dbl_glz                 10.4      5.3      5.0      0.0      0.0      0.0
ceiling                 13.2      0.0     13.2      0.0      0.0      0.0
gyp_gyp_ptn             27.0      0.0     13.5      0.0      0.0     13.5
flr_ov_pln              13.5      0.0     13.5      0.0      0.0      0.0
steel_pl_3mm             1.0      0.0      0.0      1.0      0.0      0.0
upholstery               1.9      0.0      0.0      1.9      0.0      0.0
shelves_20mm             0.5      0.0      0.0      0.5      0.0      0.0
furn_wd10mm              1.3      0.0      0.0      1.3      0.0      0.0
steel_gr_3mm             1.3      0.0      0.3      1.0      0.0      0.0
file_papers              1.0      0.0      0.0      1.0      0.0      0.0
stuffonshelf             1.6      0.0      0.0      1.6      0.0      0.0
 
 An hourly solar radiation distribution is used for this zone.
 Surfaces (all applicable) for shading analysis:
spandral vent 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     3.0     0.0     0.3     0.0     0.0 1.00 ob1 NONE
  2     0.0    -0.3     3.1     3.0     0.0     0.2     0.0     0.0 1.00 ob2 NONE
  3     0.0    -0.5     3.1     3.0     0.0     0.2     0.0     0.0 1.00 ob3 NONE
  4     0.0    -0.7     3.1     3.0     0.0     0.2     0.0     0.0 1.00 ob4 NONE
  5     0.0    -0.9     3.1     3.0     0.0     0.2     0.0     0.0 1.00 ob5 NONE
  6     0.0    -1.1     3.1     3.0     0.0     0.2     0.0     0.0 1.00 ob6 NONE
 
visual type name    composition        visual type name    composition
 vis 1rot  adesk_top  door             vis 1rot  dtbl_top shelves_20mm
 vis 1rot  adesk_leg_a steel_pl_3mm    vis 1rot  dtbl_shelf furn_wd10mm
 vis 1rot  adesk_leg_b steel_pl_3mm    vis 1rot  dleg_a shelves_20mm
 vis 1rot  adesk_leg_c steel_pl_3mm    vis 1rot  dleg_b shelves_20mm
 vis 1rot  adesk_leg_d steel_pl_3mm    vis 1rot  dleg_c shelves_20mm
 vis 1rot  bdesk_top  door             vis 1rot  dleg_d shelves_20mm
 vis 1rot  bdesk_leg_a steel_pl_3mm    vis 1rot  aleft_ver furn_wd10mm
 vis 1rot  bdesk_leg_b steel_pl_3mm    vis 1rot  aright_ver furn_wd10mm
 vis 1rot  bdesk_leg_c steel_pl_3mm    vis 1rot  abil_bk furn_wd10mm
 vis 1rot  bdesk_leg_d steel_pl_3mm    vis 1rot  ashelf_a furn_wd10mm
 vis 1rot  aseat      upholstery       vis 1rot  ashelf_b furn_wd10mm
 vis 1rot  ar_arm     upholstery       vis 1rot  ashelf_c furn_wd10mm
 vis 1rot  al_arm     upholstery       vis 1rot  ashelf_d furn_wd10mm
 vis 1rot  al_arm     upholstery       vis 1rot  ashelf_d furn_wd10mm
 vis 1rot  across_a   steel_gr_3mm     vis 1rot  abil_top furn_wd10mm
 vis 1rot  across_b   steel_gr_3mm     vis 1rot  akick furn_wd10mm
 vis 1rot  apost      PH_alu_frame     vis 1rot  alow_books stuffonshelf
 vis 1rot  ar_arm_rest steel_gr_3mm    vis 1rot  a2nd_books stuffonshelf
 vis 1rot  al_arm_rest steel_gr_3mm    vis 1rot  a3rd_books booksonshlf
 vis 1rot  aroller_a  sensor_case      vis 1rot  a4th_books booksonshlf
 vis 1rot  aroller_b  sensor_case      vis 1rot  atop_books booksonshlf
 vis 1rot  aroller_c  sensor_case      vis 1rot  cf_cabinet steel_pl_3mm
 vis 1rot  aroller_d  sensor_case      vis 1rot  cdrw_a steel_gr_3mm
 vis 1rot  carm_r     upholstery       vis 1rot  cdrw_b steel_gr_3mm
 vis 1rot  cleg_a     steel_gr_3mm     vis 1rot  cdrw_c steel_gr_3mm
 vis 1rot  cleg_b     steel_gr_3mm     vis 1rot  cdrw_d steel_gr_3mm
 vis 1rot  cleg_c     steel_gr_3mm     vis 1rot  cdrw_e steel_gr_3mm
 vis 1rot  cleg_d     steel_gr_3mm     vis 1rot  cdrw_f steel_gr_3mm
 vis 1rot  cleg_d     steel_gr_3mm     vis 1rot  cdrw_f steel_gr_3mm
 vis 1rot  cleg_d     steel_gr_3mm     vis 1rot  cdrw_f steel_gr_3mm
 
 Shading patterns have been calculated for this zone.
 
 Ventilation & infiltration is assessed via network analysis
 and the associated network node is: manager
 
Notes:
manager cellular office with some diversity of occupancy  lights at
10W/m2 and small power on weekdays at 5W/m2
 
Daytype   Gain Label     Type    Unit Period Sensible  Latent      Radiant    Convec
          No.                          Hours Magn.(W)  Magn.(W)    Fraction   Fraction
weekday     1 Occupt     people    W    0- 7      0.0      0.0       0.50       0.50
weekday     2 Occupt     people    W    7- 8     20.0     10.0       0.60       0.40
weekday     3 Occupt     people    W    8- 9     60.0     30.0       0.60       0.40
weekday     4 Occupt     people    W    9-12    100.0     50.0       0.60       0.40
weekday     5 Occupt     people    W   12-14     65.0     32.5       0.60       0.40
weekday     6 Occupt     people    W   14-17    100.0     50.0       0.60       0.40
weekday     7 Occupt     people    W   17-24      0.0      0.0       0.50       0.50
weekday     8 Lights     lighting  Wm2  0- 8      0.0      0.0       0.50       0.50
weekday     9 Lights     lighting  Wm2  8-18     10.0      0.0       0.30       0.70
weekday    10 Lights     lighting  Wm2 18-24      0.0      0.0       0.50       0.50
weekday    11 Equipt     equipment Wm2  0- 8      0.0      0.0       0.50       0.50
weekday    12 Equipt     equipment Wm2  8-18      5.0      0.0       0.40       0.60
weekday    13 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       0.50       0.50
saturday    3 Occupt     people    W    8- 9     60.0     30.0       0.50       0.50
saturday    4 Occupt     people    W    9-12    100.0     50.0       0.50       0.50
saturday    5 Occupt     people    W   12-14     65.0     32.5       0.50       0.50
saturday    6 Occupt     people    W   14-17    100.0     50.0       0.50       0.50
saturday    7 Occupt     people    W   17-24      0.0      0.0       0.50       0.50
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  0-24      0.0      0.0       0.50       0.50
sunday      1 Lights     lighting  Wm2  0-24      0.0      0.0       0.50       0.50
sunday      2 Equipt     equipment Wm2  0-24      0.0      0.0       0.50       0.50
 
 ____________________________________________________________
 
 Zone general ( 2) is composed of 94 surfaces and 210 vertices.
 It encloses a volume of 176.m^3 of space, with a total surface
 area of 268.m^2 & user list floor area of 58.5m^2
 general describes an open plan with 4 desks
 There is 45.000m2 of exposed surface area, 45.000m2 of which is vertical.
 Facade opaque is 18.400m2 &   31.5 % of floor area & average U of 0.307 & UA of 5.6401.
 Facade glazing is 26.600m2 &  45.5 % of floor &  59.1 % facade with average U of 2.811 & UA of 74.763
 Opaque partitions:ceiling:floor 186.50m2 & trasparent partitions:ceiling:floor 23.040m2.
 
 A summary of the surfaces in general( 2) follows:
 
 Sur| Area  |Azim|Elev|          Surface                           | construction             |environment
    | m^2   |deg |deg | name       |optical|locat| use             | name                     |other side
  1  3.00    180.   0. door         OPAQUE   VERT DOOR:AJAR-BID     door                     ||< door:manager
  2  13.5    270.   0. pt_mgrs      OPAQUE   VERT -:-               gyp_gyp_ptn              ||< pt_general:manager
  3  9.00      0.   0. pt_rec_a     OPAQUE   VERT -:-               gyp_gyp_ptn              ||< pt_rec_a:reception
  4  18.0      0.   0. fict_rec     SC_ficti VERT FICT:AJAR-BID     fictitious               ||< fict_rec:reception
  5  9.00      0.   0. pt_core_a    OPAQUE   VERT -:-               gyp_blk_ptn              ||< identical environment
  6  4.50    270.   0. fire_door    OPAQUE   VERT -:-               door                     ||< identical environment
  7  57.9      0.  90. ceiling      OPAQUE   CEIL -:-               ceiling                  ||< ceiling_gen:ceil_void
  8  58.5      0. -90. floor        OPAQUE   FLOR -:-               flr_ov_pln               ||< gen_floor:floor_void
  9  2.30    180.   0. spandral     OPAQUE   VERT -:-               extern_wall              ||< external
 10  0.400   180.   0. vent         OPAQUE   VERT GRILL:OPEN        insul_frame              ||< external
 11  0.980   180.   0. frame        OPAQUE   VERT -:-               insul_frame              ||< external
 12  5.32    180.   0. glazing      DCF7671_ VERT C-WINDOW:CRACK    dbl_glz                  ||< external
 13  0.960   180.   0. part_frame   OPAQUE   VERT -:-               insul_frame              ||< part_frame:manager
 14  5.04    180.  -0. part_glaz    DCF7671_ VERT -:-               dbl_glz                  ||< part_glaz:manager
 15  2.30    180.   0. spandral_a   OPAQUE   VERT -:-               extern_wall              ||< external
 16  0.400   180.   0. vent_a       OPAQUE   VERT GRILL:OPEN        insul_frame              ||< external
 17  0.980   180.   0. frame_a      OPAQUE   VERT -:-               insul_frame              ||< external
 18  5.32    180.   0. glazing_a    DCF7671_ VERT C-WINDOW:CRACK    dbl_glz                  ||< external
 19  2.30    180.   0. spandral_b   OPAQUE   VERT -:-               extern_wall              ||< external
 20  0.400   180.   0. vent_b       OPAQUE   VERT GRILL:OPEN        insul_frame              ||< external
 21  0.980   180.   0. frame_b      OPAQUE   VERT -:-               insul_frame              ||< external
 22  5.32    180.   0. glazing_b    DCF7671_ VERT C-WINDOW:CRACK    dbl_glz                  ||< external
 23  2.30     90.   0. spandral_c   OPAQUE   VERT -:-               extern_wall              ||< external
 24  0.400    90.   0. vent_c       OPAQUE   VERT GRILL:OPEN        insul_frame              ||< external
 25  0.980    90.   0. frame_c      OPAQUE   VERT -:-               insul_frame              ||< external
 26  5.32     90.   0. glazing_c    DCF7671_ VERT C-WINDOW:CRACK    dbl_glz                  ||< external
 27  2.30     90.   0. spandral_d   OPAQUE   VERT -:-               extern_wall              ||< external
 28  0.400    90.   0. vent_d       OPAQUE   VERT GRILL:OPEN        insul_frame              ||< external
 29  0.980    90.   0. frame_d      OPAQUE   VERT -:-               insul_frame              ||< external
 30  5.32     90.   0. glazing_d    DCF7671_ VERT C-WINDOW:CRACK    dbl_glz                  ||< external
 31  1.17      0.  90. adesk_t      OPAQUE   CEIL FURNI:-           door                     ||< adesk_t_:general
 32  1.17      0. -90. adesk_t_     OPAQUE   FLOR FURNI:-           door                     ||< adesk_t:general
 33  1.17      0.  90. bdesk_t      OPAQUE   CEIL FURNI:-           door                     ||< bdesk_t_:general
 34  1.17      0. -90. bdesk_t_     OPAQUE   FLOR FURNI:-           door                     ||< bdesk_t:general
 35  1.17      0.  90. cdesk_t      OPAQUE   CEIL FURNI:-           door                     ||< cdesk_t_:general
 36  1.17      0. -90. cdesk_t_     OPAQUE   FLOR FURNI:-           door                     ||< cdesk_t:general
 37  1.17      0.  90. ddesk_t      OPAQUE   CEIL FURNI:-           door                     ||< ddesk_t_:general
 38  1.17      0. -90. ddesk_t_     OPAQUE   FLOR FURNI:-           door                     ||< ddesk_t:general
 39  1.17      0.  90. edesk_t      OPAQUE   CEIL FURNI:-           door                     ||< edesk_t_:general
 40  1.17      0. -90. edesk_t_     OPAQUE   FLOR FURNI:-           door                     ||< edesk_t:general
 41  1.17      0.  90. fdesk_t      OPAQUE   CEIL FURNI:-           door                     ||< fdesk_t_:general
 42  1.17      0. -90. fdesk_t_     OPAQUE   FLOR FURNI:-           door                     ||< fdesk_t:general
 43  1.17      0.  90. gdesk_t      OPAQUE   CEIL FURNI:-           door                     ||< gdesk_t_:general
 44  1.17      0. -90. gdesk_t_     OPAQUE   FLOR FURNI:-           door                     ||< gdesk_t:general
 45  0.207     0.  90. aseat        OPAQUE   CEIL FURNI:-           upholstery               ||< aseat_:general
 46  0.207     0. -90. aseat_       OPAQUE   FLOR FURNI:-           upholstery               ||< aseat:general
 47  0.231   180.   6. astback      OPAQUE   SLOP FURNI:-           upholstery               ||< astback_:general
 48  0.231     0.  -6. astback_     OPAQUE   SLOP FURNI:-           upholstery               ||< astback:general
 49  0.207     0.  90. bseat        OPAQUE   CEIL FURNI:-           upholstery               ||< bseat_:general
 50  0.207     0. -90. bseat_       OPAQUE   FLOR FURNI:-           upholstery               ||< bseat:general
 51  0.231   200.   6. bstback      OPAQUE   SLOP FURNI:-           upholstery               ||< bstback_:general
 52  0.231    20.  -6. bstback_     OPAQUE   SLOP FURNI:-           upholstery               ||< bstback:general
 53  0.207     0.  90. cseat        OPAQUE   CEIL FURNI:-           upholstery               ||< cseat_:general
 54  0.207     0. -90. cseat_       OPAQUE   FLOR FURNI:-           upholstery               ||< cseat:general
 55  0.231   160.   6. cstback      OPAQUE   SLOP FURNI:-           upholstery               ||< cstback_:general
 56  0.231   340.  -6. cstback_     OPAQUE   SLOP FURNI:-           upholstery               ||< cstback:general
 57  0.207     0.  90. dseat        OPAQUE   CEIL FURNI:-           upholstery               ||< dseat_:general
 58  0.207     0. -90. dseat_       OPAQUE   FLOR FURNI:-           upholstery               ||< dseat:general
 59  0.231   150.   6. dstback      OPAQUE   SLOP FURNI:-           upholstery               ||< dstback_:general
 60  0.231   330.  -6. dstback_     OPAQUE   SLOP FURNI:-           upholstery               ||< dstback:general
 61  1.17      0.  90. hdesk_t      OPAQUE   CEIL FURNI:-           door                     ||< hdesk_t_:general
 62  1.17      0. -90. hdesk_t_     OPAQUE   FLOR FURNI:-           door                     ||< hdesk_t:general
 63  0.207     0.  90. eseat        OPAQUE   CEIL FURNI:-           upholstery               ||< eseat_:general
 64  0.207     0. -90. eseat_       OPAQUE   FLOR FURNI:-           upholstery               ||< eseat:general
 65  0.231   180.   6. estback      OPAQUE   SLOP FURNI:-           upholstery               ||< estback_:general
 66  0.231     0.  -6. estback_     OPAQUE   SLOP FURNI:-           upholstery               ||< estback:general
 67  0.484   180.   0. acab_lf      OPAQUE   VERT FURNI:-           steel_pl_3mm             ||< acab_lf_:general
 68  0.484   360.   0. acab_lf_     OPAQUE   VERT FURNI:-           steel_pl_3mm             ||< acab_lf:general
 69  0.484   180.   0. acab_rt      OPAQUE   VERT FURNI:-           steel_pl_3mm             ||< acab_rt_:general
 70  0.484     0.   0. acab_rt_     OPAQUE   VERT FURNI:-           steel_pl_3mm             ||< acab_rt:general
 71  1.45     90.   0. acab_fr      OPAQUE   VERT FURNI:-           steel_gr_3mm             ||< acab_fr_:general
 72  1.45    270.   0. acab_fr_     OPAQUE   VERT FURNI:-           steel_gr_3mm             ||< acab_fr:general
 73  0.500    90.   0. abil_lft     OPAQUE   VERT FURNI:-           furn_wd10mm              ||< abil_lft_:general
 74  0.500   270.   0. abil_lft_    OPAQUE   VERT FURNI:-           furn_wd10mm              ||< abil_lft:general
 75  0.500    90.   0. abil_rt      OPAQUE   VERT FURNI:-           furn_wd10mm              ||< abil_rt_:general
 76  0.500   270.   0. abil_rt_     OPAQUE   VERT FURNI:-           furn_wd10mm              ||< abil_rt:general
 77  1.55    180.   0. abooks       OPAQUE   VERT FURNI:-           stuffonshelf             ||< abooks_:general
 78  1.55      0.   0. abooks_      OPAQUE   VERT FURNI:-           stuffonshelf             ||< abooks:general
 79  0.500    90.   0. bbil_lft     OPAQUE   VERT FURNI:-           furn_wd10mm              ||< bbil_lft_:general
 80  0.500   270.   0. bbil_lft_    OPAQUE   VERT FURNI:-           furn_wd10mm              ||< bbil_lft:general
 81  0.500    90.   0. bbil_rt      OPAQUE   VERT FURNI:-           furn_wd10mm              ||< bbil_rt_:general
 82  0.500   270.   0. bbil_rt_     OPAQUE   VERT FURNI:-           furn_wd10mm              ||< bbil_rt:general
 83  1.55    180.   0. bbooks       OPAQUE   VERT FURNI:-           stuffonshelf             ||< bbooks_:general
 84  1.55      0.   0. bbooks_      OPAQUE   VERT FURNI:-           stuffonshelf             ||< bbooks:general
 85  0.484   270.   0. bcab_lf      OPAQUE   VERT FURNI:-           steel_pl_3mm             ||< bcab_lf_:general
 86  0.484    90.   0. bcab_lf_     OPAQUE   VERT FURNI:-           steel_pl_3mm             ||< bcab_lf:general
 87  0.484   270.   0. bcab_rt      OPAQUE   VERT FURNI:-           steel_pl_3mm             ||< bcab_rt_:general
 88  0.484    90.   0. bcab_rt_     OPAQUE   VERT FURNI:-           steel_pl_3mm             ||< bcab_rt:general
 89  1.45    180.   0. bcab_fr      OPAQUE   VERT FURNI:-           steel_gr_3mm             ||< bcab_fr_:general
 90  1.45    360.   0. bcab_fr_     OPAQUE   VERT FURNI:-           steel_gr_3mm             ||< bcab_fr:general
 91  0.160     0.  90. op_a_inlet   OPAQUE   CEIL GRILL:INLET       steel_gr_3mm             ||< op_a_inlet:ceil_void
 92  0.160     0.  90. op_b_inlet   OPAQUE   CEIL GRILL:INLET       steel_gr_3mm             ||< op_b_inlet:ceil_void
 93  0.160     0.  90. op_a_return  OPAQUE   CEIL GRILL:OPEN        steel_gr_3mm             ||< op_a_return:ceil_void
 94  0.160     0.  90. op_b_return  OPAQUE   CEIL GRILL:OPEN        steel_gr_3mm             ||< op_b_return:ceil_void
 
Surface      Width(m)   Height(m)  Above ffl...
door            1.00       3.00      0.00    DOOR
glazing         2.80       1.90      1.00    C-WINDOW
glazing_a       2.80       1.90      1.00    C-WINDOW
glazing_b       2.80       1.90      1.00    C-WINDOW
glazing_c       2.80       1.90      1.00    C-WINDOW
glazing_d       2.80       1.90      1.00    C-WINDOW
  
In general             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
extern_wall             11.5     11.5      0.0      0.0      0.0      0.0
insul_frame              7.9      6.9      1.0      0.0      0.0      0.0
door                    16.9      0.0      3.0      9.4      0.0      4.5
dbl_glz                 31.6     26.6      5.0      0.0      0.0      0.0
ceiling                 57.9      0.0     57.9      0.0      0.0      0.0
gyp_blk_ptn              9.0      0.0      0.0      0.0      0.0      9.0
gyp_gyp_ptn             22.5      0.0     22.5      0.0      0.0      0.0
fictitious              18.0      0.0     18.0      0.0      0.0      0.0
flr_ov_pln              58.5      0.0     58.5      0.0      0.0      0.0
steel_pl_3mm             1.9      0.0      0.0      1.9      0.0      0.0
upholstery               2.2      0.0      0.0      2.2      0.0      0.0
furn_wd10mm              2.0      0.0      0.0      2.0      0.0      0.0
steel_gr_3mm             3.5      0.0      0.6      2.9      0.0      0.0
stuffonshelf             3.1      0.0      0.0      3.1      0.0      0.0
 
 An hourly solar radiation distribution is used for this zone.
 Surfaces (all applicable) for shading analysis:
9 10 11 12 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30
 Insolation sources (all applicable):
glazing glazing_a glazing_b glazing_c glazing_d
 Explicit viewfactors have been derived for this zone.
Block  X-     Y-    Z-coords   DX-    DY-    DZ-values  Orientation   Opacity  Name  Construction
  1     3.0    -0.1     3.1     9.0     0.0     0.3     0.0     0.0 1.00 sen_01 NONE
  2     3.0    -0.3     3.1     9.0     0.0     0.2     0.0     0.0 1.00 sen_02 NONE
  3     3.0    -0.5     3.1     9.0     0.0     0.2     0.0     0.0 1.00 sen_03 NONE
  4     3.0    -0.7     3.1     9.0     0.0     0.2     0.0     0.0 1.00 sen_04 NONE
  5     3.0    -0.9     3.1     9.0     0.0     0.2     0.0     0.0 1.00 sen_05 NONE
  6     3.0    -1.1     3.1     9.0     0.0     0.2     0.0     0.0 1.00 sen_06 NONE
  7    12.1     0.1     3.1     6.0     0.0     0.3    90.0     0.0 1.00 eob1 NONE
  8    12.3     0.1     3.1     6.0     0.0     0.2    90.0     0.0 1.00 eob2 NONE
  9    12.5     0.1     3.1     6.0     0.0     0.2    90.0     0.0 1.00 eob3 NONE
 10    12.7     0.1     3.1     6.0     0.0     0.2    90.0     0.0 1.00 eob4 NONE
 11    12.9     0.1     3.1     6.0     0.0     0.2    90.0     0.0 1.00 eob5 NONE
 12    13.1     0.1     3.1     6.0     0.0     0.2    90.0     0.0 1.00 eob6 NONE
 
visual type name    composition        visual type name    composition
 vis 1rot  adesk_top  door             vis 1rot  dpost PH_alu_frame
 vis 1rot  adesk_leg_a steel_pl_3mm    vis 1rot  dr_arm_rest steel_gr_3mm
 vis 1rot  adesk_leg_b steel_pl_3mm    vis 1rot  dl_arm_rest steel_gr_3mm
 vis 1rot  adesk_leg_c steel_pl_3mm    vis 1rot  droller_a sensor_case
 vis 1rot  adesk_leg_d steel_pl_3mm    vis 1rot  droller_b sensor_case
 vis 1rot  bdesk_top  door             vis 1rot  droller_c sensor_case
 vis 1rot  bdesk_leg_a steel_pl_3mm    vis 1rot  droller_d sensor_case
 vis 1rot  bdesk_leg_b steel_pl_3mm    vis 1rot  gdesk_top door
 vis 1rot  bdesk_leg_c steel_pl_3mm    vis 1rot  gdesk_leg_a steel_pl_3mm
 vis 1rot  bdesk_leg_d steel_pl_3mm    vis 1rot  gdesk_leg_b steel_pl_3mm
 vis 1rot  cdesk_top  door             vis 1rot  gdesk_leg_c steel_pl_3mm
 vis 1rot  cdesk_leg_a steel_pl_3mm    vis 1rot  gdesk_leg_d steel_pl_3mm
 vis 1rot  cdesk_leg_b steel_pl_3mm    vis 1rot  eseat upholstery
 vis 1rot  cdesk_leg_c steel_pl_3mm    vis 1rot  er_arm upholstery
 vis 1rot  cdesk_leg_d steel_pl_3mm    vis 1rot  el_arm upholstery
 vis 1rot  ddesk_top  door             vis 1rot  eseat_bk upholstery
 vis 1rot  ddesk_leg_a steel_pl_3mm    vis 1rot  ecross_a steel_gr_3mm
 vis 1rot  ddesk_leg_b steel_pl_3mm    vis 1rot  ecross_b steel_gr_3mm
 vis 1rot  ddesk_leg_c steel_pl_3mm    vis 1rot  epost PH_alu_frame
 vis 1rot  ddesk_leg_d steel_pl_3mm    vis 1rot  er_arm_rest steel_gr_3mm
 vis 1rot  edesk_top  door             vis 1rot  el_arm_rest steel_gr_3mm
 vis 1rot  edesk_leg_a steel_pl_3mm    vis 1rot  eroller_a sensor_case
 vis 1rot  edesk_leg_b steel_pl_3mm    vis 1rot  eroller_b sensor_case
 vis 1rot  edesk_leg_c steel_pl_3mm    vis 1rot  eroller_c sensor_case
 vis 1rot  edesk_leg_d steel_pl_3mm    vis 1rot  eroller_d sensor_case
 vis 1rot  fdesk_top  door             vis 1rot  af_cabinet steel_pl_3mm
 vis 1rot  fdesk_leg_a steel_pl_3mm    vis 1rot  adrw_a steel_gr_3mm
 vis 1rot  fdesk_leg_b steel_pl_3mm    vis 1rot  adrw_b steel_gr_3mm
 vis 1rot  fdesk_leg_c steel_pl_3mm    vis 1rot  adrw_c steel_gr_3mm
 vis 1rot  fdesk_leg_d steel_pl_3mm    vis 1rot  adrw_d steel_gr_3mm
 vis 1rot  gdesk_top  door             vis 1rot  adrw_e steel_gr_3mm
 vis 1rot  gdesk_leg_a steel_pl_3mm    vis 1rot  adrw_f steel_gr_3mm
 vis 1rot  gdesk_leg_b steel_pl_3mm    vis 1rot  adrw_g steel_gr_3mm
 vis 1rot  gdesk_leg_c steel_pl_3mm    vis 1rot  adrw_h steel_gr_3mm
 vis 1rot  gdesk_leg_d steel_pl_3mm    vis 1rot  adrw_i steel_gr_3mm
 vis 1rot  aseat      upholstery       vis 1rot  adrw_j steel_gr_3mm
 vis 1rot  ar_arm     upholstery       vis 1rot  adrw_k steel_gr_3mm
 vis 1rot  al_arm     upholstery       vis 1rot  adrw_l steel_gr_3mm
 vis 1rot  al_arm     upholstery       vis 1rot  adrw_l steel_gr_3mm
 vis 1rot  across_a   steel_gr_3mm     vis 1rot  aright_ver furn_wd10mm
 vis 1rot  across_b   steel_gr_3mm     vis 1rot  abil_bk furn_wd10mm
 vis 1rot  apost      PH_alu_frame     vis 1rot  ashelf_a furn_wd10mm
 vis 1rot  ar_arm_rest steel_gr_3mm    vis 1rot  ashelf_b furn_wd10mm
 vis 1rot  al_arm_rest steel_gr_3mm    vis 1rot  ashelf_c furn_wd10mm
 vis 1rot  aroller_a  sensor_case      vis 1rot  ashelf_d furn_wd10mm
 vis 1rot  aroller_b  sensor_case      vis 1rot  ashelf_e furn_wd10mm
 vis 1rot  aroller_c  sensor_case      vis 1rot  abil_top furn_wd10mm
 vis 1rot  aroller_d  sensor_case      vis 1rot  akick furn_wd10mm
 vis 1rot  bseat      upholstery       vis 1rot  alow_books stuffonshelf
 vis 1rot  br_arm     upholstery       vis 1rot  a2nd_books stuffonshelf
 vis 1rot  bl_arm     upholstery       vis 1rot  a3rd_books booksonshlf
 vis 1rot  bl_arm     upholstery       vis 1rot  a3rd_books booksonshlf
 vis 1rot  bcross_a   steel_gr_3mm     vis 1rot  atop_books booksonshlf
 vis 1rot  bcross_b   steel_gr_3mm     vis 1rot  bleft_ver furn_wd10mm
 vis 1rot  bpost      PH_alu_frame     vis 1rot  bright_ver furn_wd10mm
 vis 1rot  br_arm_rest steel_gr_3mm    vis 1rot  bbil_bk furn_wd10mm
 vis 1rot  bl_arm_rest steel_gr_3mm    vis 1rot  bshelf_a furn_wd10mm
 vis 1rot  broller_a  sensor_case      vis 1rot  bshelf_b furn_wd10mm
 vis 1rot  broller_b  sensor_case      vis 1rot  bshelf_c furn_wd10mm
 vis 1rot  broller_c  sensor_case      vis 1rot  bshelf_d furn_wd10mm
 vis 1rot  broller_d  sensor_case      vis 1rot  bshelf_e furn_wd10mm
 vis 1rot  cseat      upholstery       vis 1rot  bbil_top furn_wd10mm
 vis 1rot  cr_arm     upholstery       vis 1rot  bkick furn_wd10mm
 vis 1rot  cl_arm     upholstery       vis 1rot  blow_books stuffonshelf
 vis 1rot  cl_arm     upholstery       vis 1rot  blow_books stuffonshelf
 vis 1rot  ccross_a   steel_gr_3mm     vis 1rot  b3rd_books booksonshlf
 vis 1rot  ccross_b   steel_gr_3mm     vis 1rot  b4th_books booksonshlf
 vis 1rot  cpost      PH_alu_frame     vis 1rot  btop_books booksonshlf
 vis 1rot  cr_arm_rest steel_gr_3mm    vis 1rot  bf_cabinet steel_pl_3mm
 vis 1rot  cl_arm_rest steel_gr_3mm    vis 1rot  bdrw_a steel_gr_3mm
 vis 1rot  croller_a  sensor_case      vis 1rot  bdrw_b steel_gr_3mm
 vis 1rot  croller_b  sensor_case      vis 1rot  bdrw_c steel_gr_3mm
 vis 1rot  croller_c  sensor_case      vis 1rot  bdrw_d steel_gr_3mm
 vis 1rot  croller_d  sensor_case      vis 1rot  bdrw_e steel_gr_3mm
 vis 1rot  dseat      upholstery       vis 1rot  bdrw_f steel_gr_3mm
 vis 1rot  dr_arm     upholstery       vis 1rot  bdrw_g steel_gr_3mm
 vis 1rot  dl_arm     upholstery       vis 1rot  bdrw_h steel_gr_3mm
 vis 1rot  dl_arm     upholstery       vis 1rot  bdrw_h steel_gr_3mm
 vis 1rot  dcross_a   steel_gr_3mm     vis 1rot  bdrw_j steel_gr_3mm
 vis 1rot  dcross_b   steel_gr_3mm     vis 1rot  bdrw_k steel_gr_3mm
                                       vis 1rot  bdrw_l     steel_gr_3mm
 
 Shading patterns have been calculated for this zone.
 
 Ventilation & infiltration is assessed via network analysis
 and the associated network node is: general
 
Notes:
5 people std occup ramping up from 7-9am half occupants on saturday,
8Wm2 lights 10Wm2 small power weekdays and Saturdays, nothing Sunday
 
Daytype   Gain Label     Type    Unit Period Sensible  Latent      Radiant    Convec
          No.                          Hours Magn.(W)  Magn.(W)    Fraction   Fraction
weekday     1 Occupt     people    W    0- 7      0.0      0.0       0.50       0.50
weekday     2 Occupt     people    W    7- 8    100.0     60.0       0.50       0.50
weekday     3 Occupt     people    W    8- 9    300.0    180.0       0.50       0.50
weekday     4 Occupt     people    W    9-12    500.0    300.0       0.50       0.50
weekday     5 Occupt     people    W   12-14    325.0    195.0       0.50       0.50
weekday     6 Occupt     people    W   14-17    500.0    300.0       0.50       0.50
weekday     7 Occupt     people    W   17-24      0.0      0.0       0.50       0.50
weekday     8 Lights     lighting  Wm2  0- 8      0.0      0.0       0.50       0.50
weekday     9 Lights     lighting  Wm2  8-18      8.0      0.0       0.50       0.50
weekday    10 Lights     lighting  Wm2 18-24      0.0      0.0       0.50       0.50
weekday    11 Equipt     equipment Wm2  0- 8      0.0      0.0       0.50       0.50
weekday    12 Equipt     equipment Wm2  8-18     10.0      0.0       0.50       0.50
weekday    13 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     40.0      0.0       0.50       0.50
saturday    3 Occupt     people    W    8- 9    120.0      0.0       0.50       0.50
saturday    4 Occupt     people    W    9-12    200.0      0.0       0.50       0.50
saturday    5 Occupt     people    W   12-14    130.0      0.0       0.50       0.50
saturday    6 Occupt     people    W   14-17    200.0      0.0       0.50       0.50
saturday    7 Occupt     people    W   17-24      0.0      0.0       0.50       0.50
saturday    8 Lights     lighting  Wm2  0- 8      0.0      0.0       0.50       0.50
saturday    9 Lights     lighting  Wm2  8-18      8.0      0.0       0.50       0.50
saturday   10 Lights     lighting  Wm2 18-24      0.0      0.0       0.50       0.50
saturday   11 Equipt     equipment Wm2  0- 8      0.0      0.0       0.50       0.50
saturday   12 Equipt     equipment Wm2  8-18      5.0      0.0       0.50       0.50
saturday   13 Equipt     equipment Wm2 18-24      0.0      0.0       0.50       0.50
 
 ____________________________________________________________
 
 Zone conference ( 3) is composed of 70 surfaces and 156 vertices.
 It encloses a volume of 142.m^3 of space, with a total surface
 area of 215.m^2 & user list floor area of 47.3m^2
 conference describes a conference room for 10-12
 There is 45.000m2 of exposed surface area, 45.000m2 of which is vertical.
 Facade opaque is 18.400m2 &   38.9 % of floor area & average U of 0.307 & UA of 5.6401.
 Facade glazing is 26.600m2 &  56.3 % of floor &  59.1 % facade with average U of 2.811 & UA of 74.763
 Opaque partitions:ceiling:floor 146.22m2 & trasparent partitions:ceiling:floor 10.062m2.
 
 A summary of the surfaces in conference( 3) follows:
 
 Sur| Area  |Azim|Elev|          Surface                           | construction             |environment
    | m^2   |deg |deg | name       |optical|locat| use             | name                     |other side
  1  13.5    270.   0. pt_next_off  OPAQUE   VERT -:-               gyp_gyp_ptn              ||< identical environment
  2  9.00    180.   0. pt_recp_b    OPAQUE   VERT -:-               gyp_gyp_ptn              ||< pt_recp_b:reception
  3  10.1    207.   0. fict_open    SC_ficti VERT FICT:AJAR-BID     fictitious               ||< fict_open:reception
  4  9.00    180.   0. pt_recp_a    OPAQUE   VERT -:-               gyp_gyp_ptn              ||< pt_recp_a:reception
  5  46.9      0.  90. ceiling      OPAQUE   CEIL -:-               ceiling                  ||< ceiling_conf:ceil_void
  6  47.3      0. -90. floor        OPAQUE   FLOR -:-               flr_ov_pln               ||< conf_floor:floor_void
  7  2.30      0.   0. spandral     OPAQUE   VERT -:-               extern_wall              ||< external
  8  0.400     0.   0. vent         OPAQUE   VERT GRILL:OPEN        insul_frame              ||< external
  9  0.980   360.   0. frame        OPAQUE   VERT -:-               insul_frame              ||< external
 10  5.32      0.   0. glazing      DCF7671_ VERT C-WINDOW:CRACK    dbl_glz                  ||< external
 11  2.30      0.   0. spandral_a   OPAQUE   VERT -:-               extern_wall              ||< external
 12  0.400     0.   0. vent_a       OPAQUE   VERT GRILL:OPEN        insul_frame              ||< external
 13  0.980   360.   0. frame_a      OPAQUE   VERT -:-               insul_frame              ||< external
 14  5.32      0.   0. glazing_a    DCF7671_ VERT C-WINDOW:CRACK    dbl_glz                  ||< external
 15  2.30      0.   0. spandral_b   OPAQUE   VERT -:-               extern_wall              ||< external
 16  0.400     0.   0. vent_b       OPAQUE   VERT GRILL:OPEN        insul_frame              ||< external
 17  0.980   360.   0. frame_b      OPAQUE   VERT -:-               insul_frame              ||< external
 18  5.32      0.   0. glazing_b    DCF7671_ VERT C-WINDOW:CRACK    dbl_glz                  ||< external
 19  2.30     90.   0. spandral_c   OPAQUE   VERT -:-               extern_wall              ||< external
 20  0.400    90.   0. vent_c       OPAQUE   VERT GRILL:OPEN        insul_frame              ||< external
 21  0.980    90.   0. frame_c      OPAQUE   VERT -:-               insul_frame              ||< external
 22  5.32     90.   0. glazing_c    DCF7671_ VERT C-WINDOW:CRACK    dbl_glz                  ||< external
 23  2.30     90.   0. spandral_d   OPAQUE   VERT -:-               extern_wall              ||< external
 24  0.400    90.   0. vent_d       OPAQUE   VERT GRILL:OPEN        insul_frame              ||< external
 25  0.980    90.   0. frame_d      OPAQUE   VERT -:-               insul_frame              ||< external
 26  5.32     90.   0. glazing_d    DCF7671_ VERT C-WINDOW:CRACK    dbl_glz                  ||< external
 27  0.207     0.  90. aseat        OPAQUE   CEIL FURNI:-           upholstery               ||< aseat_:conference
 28  0.207     0. -90. aseat_       OPAQUE   FLOR FURNI:-           upholstery               ||< aseat:conference
 29  0.231   180.   6. astback      OPAQUE   SLOP FURNI:-           upholstery               ||< astback_:conference
 30  0.231     0.  -6. astback_     OPAQUE   SLOP FURNI:-           upholstery               ||< astback:conference
 31  0.207     0.  90. bseat        OPAQUE   CEIL FURNI:-           upholstery               ||< bseat_:conference
 32  0.207     0. -90. bseat_       OPAQUE   FLOR FURNI:-           upholstery               ||< bseat:conference
 33  0.231   180.   6. bstback      OPAQUE   SLOP FURNI:-           upholstery               ||< bstback_:conference
 34  0.231     0.  -6. bstback_     OPAQUE   SLOP FURNI:-           upholstery               ||< bstback:conference
 35  0.207     0.  90. cseat        OPAQUE   CEIL FURNI:-           upholstery               ||< cseat_:conference
 36  0.207     0. -90. cseat_       OPAQUE   FLOR FURNI:-           upholstery               ||< cseat:conference
 37  0.231   170.   6. cstback      OPAQUE   SLOP FURNI:-           upholstery               ||< cstback_:conference
 38  0.231   350.  -6. cstback_     OPAQUE   SLOP FURNI:-           upholstery               ||< cstback:conference
 39  0.207     0.  90. dseat        OPAQUE   CEIL FURNI:-           upholstery               ||< dseat_:conference
 40  0.207     0. -90. dseat_       OPAQUE   FLOR FURNI:-           upholstery               ||< dseat:conference
 41  0.231   200.   6. dstback      OPAQUE   SLOP FURNI:-           upholstery               ||< dstback_:conference
 42  0.231    20.  -6. dstback_     OPAQUE   SLOP FURNI:-           upholstery               ||< dstback:conference
 43  6.08      0.  90. table        OPAQUE   CEIL FURNI:-           door                     ||< table_:conference
 44  6.08      0. -90. table_       OPAQUE   FLOR FURNI:-           door                     ||< table:conference
 45  0.207     0.  90. eseat        OPAQUE   CEIL FURNI:-           upholstery               ||< eseat_:conference
 46  0.207     0. -90. eseat_       OPAQUE   FLOR FURNI:-           upholstery               ||< eseat:conference
 47  0.231   280.   6. estback      OPAQUE   SLOP FURNI:-           upholstery               ||< estback_:conference
 48  0.231   100.  -6. estback_     OPAQUE   SLOP FURNI:-           upholstery               ||< estback:conference
 49  0.938     0.  90. fdesk_t      OPAQUE   CEIL FURNI:-           corian_count             ||< fdesk_t_:conference
 50  0.938     0. -90. fdesk_t_     OPAQUE   FLOR FURNI:-           corian_count             ||< fdesk_t:conference
 51  0.500     0.   0. abil_lft     OPAQUE   VERT FURNI:-           furn_wd10mm              ||< abil_lft_:conference
 52  0.500   180.   0. abil_lft_    OPAQUE   VERT FURNI:-           furn_wd10mm              ||< abil_lft:conference
 53  0.500     0.   0. abil_rt      OPAQUE   VERT FURNI:-           furn_wd10mm              ||< abil_rt_:conference
 54  0.500   180.   0. abil_rt_     OPAQUE   VERT FURNI:-           furn_wd10mm              ||< abil_rt:conference
 55  1.55     90.   0. abooks       OPAQUE   VERT FURNI:-           stuffonshelf             ||< abooks_:conference
 56  1.55    270.   0. abooks_      OPAQUE   VERT FURNI:-           stuffonshelf             ||< abooks:conference
 57  0.500     0.   0. bbil_lft     OPAQUE   VERT FURNI:-           furn_wd10mm              ||< bbil_lft_:conference
 58  0.500   180.   0. bbil_lft_    OPAQUE   VERT FURNI:-           furn_wd10mm              ||< bbil_lft:conference
 59  0.500   360.   0. bbil_rt      OPAQUE   VERT FURNI:-           furn_wd10mm              ||< bbil_rt_:conference
 60  0.500   180.   0. bbil_rt_     OPAQUE   VERT FURNI:-           furn_wd10mm              ||< bbil_rt:conference
 61  1.55     90.   0. bbooks       OPAQUE   VERT FURNI:-           stuffonshelf             ||< bbooks_:conference
 62  1.55    270.   0. bbooks_      OPAQUE   VERT FURNI:-           stuffonshelf             ||< bbooks:conference
 63  0.500     0.   0. cbil_lft     OPAQUE   VERT FURNI:-           furn_wd10mm              ||< cbil_lft_:conference
 64  0.500   180.   0. cbil_lft_    OPAQUE   VERT FURNI:-           furn_wd10mm              ||< cbil_lft:conference
 65  0.500   360.   0. cbil_rt      OPAQUE   VERT FURNI:-           furn_wd10mm              ||< cbil_rt_:conference
 66  0.500   180.   0. cbil_rt_     OPAQUE   VERT FURNI:-           furn_wd10mm              ||< cbil_rt:conference
 67  1.55     90.   0. cbooks       OPAQUE   VERT FURNI:-           stuffonshelf             ||< cbooks_:conference
 68  1.55    270.   0. cbooks_      OPAQUE   VERT FURNI:-           stuffonshelf             ||< cbooks:conference
 69  0.160     0.  90. conf_return  OPAQUE   CEIL GRILL:OPEN        steel_gr_3mm             ||< conf_return:ceil_void
 70  0.160     0.  90. conf_inlet   OPAQUE   CEIL GRILL:INLET       steel_gr_3mm             ||< conf_inlet:ceil_void
 
Surface      Width(m)   Height(m)  Above ffl...
glazing         2.80       1.90      1.00    C-WINDOW
glazing_a       2.80       1.90      1.00    C-WINDOW
glazing_b       2.80       1.90      1.00    C-WINDOW
glazing_c       2.80       1.90      1.00    C-WINDOW
glazing_d       2.80       1.90      1.00    C-WINDOW
  
In conference          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
extern_wall             11.5     11.5      0.0      0.0      0.0      0.0
insul_frame              6.9      6.9      0.0      0.0      0.0      0.0
door                     6.1      0.0      0.0      6.1      0.0      0.0
dbl_glz                 26.6     26.6      0.0      0.0      0.0      0.0
ceiling                 46.9      0.0     46.9      0.0      0.0      0.0
gyp_gyp_ptn             31.5      0.0     18.0      0.0      0.0     13.5
fictitious              10.1      0.0     10.1      0.0      0.0      0.0
flr_ov_pln              47.2      0.0     47.2      0.0      0.0      0.0
upholstery               2.2      0.0      0.0      2.2      0.0      0.0
corian_count             0.9      0.0      0.0      0.9      0.0      0.0
furn_wd10mm              3.0      0.0      0.0      3.0      0.0      0.0
steel_gr_3mm             0.3      0.0      0.3      0.0      0.0      0.0
stuffonshelf             4.7      0.0      0.0      4.7      0.0      0.0
 
 An hourly solar radiation distribution is used for this zone.
 Surfaces (all applicable) for shading analysis:
7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26
 Insolation sources (all applicable):
glazing glazing_a glazing_b glazing_c glazing_d
 Explicit viewfactors have been derived for this zone.
Block  X-     Y-    Z-coords   DX-    DY-    DZ-values  Orientation   Opacity  Name  Construction
  1    12.1    12.0     3.1     6.0     0.0     0.3    90.0     0.0 1.00 eob1 NONE
  2    12.3    12.0     3.1     6.0     0.0     0.2    90.0     0.0 1.00 eob2 NONE
  3    12.5    12.0     3.1     6.0     0.0     0.2    90.0     0.0 1.00 eob3 NONE
  4    12.7    12.0     3.1     6.0     0.0     0.2    90.0     0.0 1.00 eob4 NONE
  5    12.9    12.0     3.1     6.0     0.0     0.2    90.0     0.0 1.00 eob5 NONE
  6    13.1    12.0     3.1     6.0     0.0     0.2    90.0     0.0 1.00 eob6 NONE
 
visual type name    composition        visual type name    composition
 vis 1rot  aseat      upholstery       vis 1rot  ecross_b steel_gr_3mm
 vis 1rot  ar_arm     upholstery       vis 1rot  epost PH_alu_frame
 vis 1rot  al_arm     upholstery       vis 1rot  er_arm_rest steel_gr_3mm
 vis 1rot  al_arm     upholstery       vis 1rot  er_arm_rest steel_gr_3mm
 vis 1rot  across_a   steel_gr_3mm     vis 1rot  eroller_a sensor_case
 vis 1rot  across_b   steel_gr_3mm     vis 1rot  eroller_b sensor_case
 vis 1rot  apost      PH_alu_frame     vis 1rot  eroller_c sensor_case
 vis 1rot  ar_arm_rest steel_gr_3mm    vis 1rot  eroller_d sensor_case
 vis 1rot  al_arm_rest steel_gr_3mm    vis 1rot  fdesk_top corian_count
 vis 1rot  aroller_a  sensor_case      vis 1rot  fdesk_leg_a steel_pl_3mm
 vis 1rot  aroller_b  sensor_case      vis 1rot  fdesk_leg_b steel_pl_3mm
 vis 1rot  aroller_c  sensor_case      vis 1rot  fdesk_leg_c steel_pl_3mm
 vis 1rot  aroller_d  sensor_case      vis 1rot  fdesk_leg_d steel_pl_3mm
 vis 1rot  bseat      upholstery       vis 1rot  aleft_ver furn_wd10mm
 vis 1rot  br_arm     upholstery       vis 1rot  aright_ver furn_wd10mm
 vis 1rot  bl_arm     upholstery       vis 1rot  abil_bk furn_wd10mm
 vis 1rot  bl_arm     upholstery       vis 1rot  abil_bk furn_wd10mm
 vis 1rot  bcross_a   steel_gr_3mm     vis 1rot  ashelf_b furn_wd10mm
 vis 1rot  bcross_b   steel_gr_3mm     vis 1rot  ashelf_c furn_wd10mm
 vis 1rot  bpost      PH_alu_frame     vis 1rot  ashelf_d furn_wd10mm
 vis 1rot  br_arm_rest steel_gr_3mm    vis 1rot  ashelf_e furn_wd10mm
 vis 1rot  bl_arm_rest steel_gr_3mm    vis 1rot  abil_top furn_wd10mm
 vis 1rot  broller_a  sensor_case      vis 1rot  akick furn_wd10mm
 vis 1rot  broller_b  sensor_case      vis 1rot  alow_books stuffonshelf
 vis 1rot  broller_c  sensor_case      vis 1rot  a2nd_books stuffonshelf
 vis 1rot  broller_d  sensor_case      vis 1rot  a3rd_books booksonshlf
 vis 1rot  cseat      upholstery       vis 1rot  a4th_books booksonshlf
 vis 1rot  cr_arm     upholstery       vis 1rot  atop_books booksonshlf
 vis 1rot  cl_arm     upholstery       vis 1rot  bleft_ver furn_wd10mm
 vis 1rot  cl_arm     upholstery       vis 1rot  bleft_ver furn_wd10mm
 vis 1rot  ccross_a   steel_gr_3mm     vis 1rot  bbil_bk furn_wd10mm
 vis 1rot  ccross_b   steel_gr_3mm     vis 1rot  bshelf_a furn_wd10mm
 vis 1rot  cpost      PH_alu_frame     vis 1rot  bshelf_b furn_wd10mm
 vis 1rot  cr_arm_rest steel_gr_3mm    vis 1rot  bshelf_c furn_wd10mm
 vis 1rot  cl_arm_rest steel_gr_3mm    vis 1rot  bshelf_d furn_wd10mm
 vis 1rot  croller_a  sensor_case      vis 1rot  bshelf_e furn_wd10mm
 vis 1rot  croller_b  sensor_case      vis 1rot  bbil_top furn_wd10mm
 vis 1rot  croller_c  sensor_case      vis 1rot  bkick furn_wd10mm
 vis 1rot  croller_d  sensor_case      vis 1rot  blow_books stuffonshelf
 vis 1rot  dseat      upholstery       vis 1rot  b2nd_books stuffonshelf
 vis 1rot  dr_arm     upholstery       vis 1rot  b3rd_books booksonshlf
 vis 1rot  dl_arm     upholstery       vis 1rot  b4th_books booksonshlf
 vis 1rot  dl_arm     upholstery       vis 1rot  b4th_books booksonshlf
 vis 1rot  dcross_a   steel_gr_3mm     vis 1rot  cleft_ver furn_wd10mm
 vis 1rot  dcross_b   steel_gr_3mm     vis 1rot  cright_ver furn_wd10mm
 vis 1rot  dpost      PH_alu_frame     vis 1rot  cbil_bk furn_wd10mm
 vis 1rot  dr_arm_rest steel_gr_3mm    vis 1rot  cshelf_a furn_wd10mm
 vis 1rot  dl_arm_rest steel_gr_3mm    vis 1rot  cshelf_b furn_wd10mm
 vis 1rot  droller_a  sensor_case      vis 1rot  cshelf_c furn_wd10mm
 vis 1rot  droller_b  sensor_case      vis 1rot  cshelf_d furn_wd10mm
 vis 1rot  droller_c  sensor_case      vis 1rot  cshelf_e furn_wd10mm
 vis 1rot  droller_d  sensor_case      vis 1rot  cbil_top furn_wd10mm
 vis 1rot  conf_table door             vis 1rot  ckick furn_wd10mm
 vis 1rot  eseat      upholstery       vis 1rot  clow_books stuffonshelf
 vis 1rot  er_arm     upholstery       vis 1rot  c2nd_books stuffonshelf
 vis 1rot  el_arm     upholstery       vis 1rot  c3rd_books booksonshlf
 vis 1rot  el_arm     upholstery       vis 1rot  c3rd_books booksonshlf
 vis 1rot  ecross_a   steel_gr_3mm     vis 1rot  ctop_books booksonshlf
 
 Shading patterns have been calculated for this zone.
 
 Ventilation & infiltration is assessed via network analysis
 and the associated network node is: conference
 
Notes:
morning and afternoon meetings 8 people on weekdays, nothing on
weekends
 
Daytype   Gain Label     Type    Unit Period Sensible  Latent      Radiant    Convec
          No.                          Hours Magn.(W)  Magn.(W)    Fraction   Fraction
weekday     1 Occupt     people    W    0-10      0.0      0.0       0.50       0.50
weekday     2 Occupt     people    W   10-12    800.0    400.0       0.50       0.50
weekday     3 Occupt     people    W   12-14      0.0      0.0       0.50       0.50
weekday     4 Occupt     people    W   14-16    700.0    350.0       0.50       0.50
weekday     5 Occupt     people    W   16-24      0.0      0.0       0.50       0.50
weekday     6 Lights     lighting  Wm2  0- 9      0.0      0.0       0.50       0.50
weekday     7 Lights     lighting  Wm2  9-17      8.0      0.0       0.50       0.50
weekday     8 Lights     lighting  Wm2 17-24      0.0      0.0       0.50       0.50
weekday     9 Equipt     equipment W    0-24    100.0      0.0       0.50       0.50
 
 ____________________________________________________________
 
 Zone reception ( 4) is composed of 78 surfaces and 167 vertices.
 It encloses a volume of 182.m^3 of space, with a total surface
 area of 255.m^2 & user list floor area of 60.8m^2
 reception of office group adj to conference room
 There is 18.000m2 of exposed surface area, 18.000m2 of which is vertical.
 Facade opaque is 7.3600m2 &   12.1 % of floor area & average U of 0.307 & UA of 2.2560.
 Facade glazing is 10.640m2 &  17.5 % of floor &  59.1 % facade with average U of 2.811 & UA of 29.905
 Opaque partitions:ceiling:floor 186.21m2 & trasparent partitions:ceiling:floor 28.062m2.
 
 A summary of the surfaces in reception( 4) follows:
 
 Sur| Area  |Azim|Elev|          Surface                           | construction             |environment
    | m^2   |deg |deg | name       |optical|locat| use             | name                     |other side
  1  22.5    270.   0. pt_core_a    OPAQUE   VERT -:-               gyp_blk_ptn              ||< identical environment
  2  18.0    180.   0. fict_rec     SC_ficti VERT FICT:AJAR-BID     fictitious               ||< fict_rec:general
  3  9.00    180.   0. pt_rec_a     OPAQUE   VERT -:-               gyp_gyp_ptn              ||< pt_rec_a:general
  4  9.00      0.   0. pt_recp_a    OPAQUE   VERT -:-               gyp_gyp_ptn              ||< pt_recp_a:conference
  5  10.1     27.   0. fict_open    SC_ficti VERT FICT:AJAR-BID     fictitious               ||< fict_open:conference
  6  9.00      0.   0. pt_recp_b    OPAQUE   VERT -:-               gyp_gyp_ptn              ||< pt_recp_b:conference
  7  2.30     90.   0. spandral     OPAQUE   VERT -:-               extern_wall              ||< external
  8  0.400    90.   0. vent         OPAQUE   VERT GRILL:OPEN        insul_frame              ||< external
  9  0.980    90.   0. frame        OPAQUE   VERT F-FRAME:VENT      insul_frame              ||< external
 10  5.32     90.   0. glazing      DCF7671_ VERT C-WINDOW:CRACK    dbl_glz                  ||< external
 11  2.30     90.   0. spandral_a   OPAQUE   VERT -:-               extern_wall              ||< external
 12  0.400    90.   0. vent_a       OPAQUE   VERT GRILL:OPEN        insul_frame              ||< external
 13  0.980    90.   0. frame_a      OPAQUE   VERT -:-               insul_frame              ||< external
 14  5.32     90.   0. glazing_a    DCF7671_ VERT C-WINDOW:CRACK    dbl_glz                  ||< external
 15  60.1      0.  90. ceiling      OPAQUE   CEIL -:-               ceiling                  ||< ceiling_recp:ceil_void
 16  60.8      0. -90. floor        OPAQUE   FLOR -:-               flr_ov_pln               ||< recep_floor:floor_void
 17  0.814     0.  90. aseat_mass   OPAQUE   CEIL FURNI:-           upholstery               ||< aseat_mass_:reception
 18  0.814     0. -90. aseat_mass_  OPAQUE   FLOR FURNI:-           upholstery               ||< aseat_mass:reception
 19  0.324    90.   0. aarm_mass_l  OPAQUE   VERT FURNI:-           upholstery               ||< aarm_mass_l_:reception
 20  0.324   270.   0. aarm_mass_l_ OPAQUE   VERT FURNI:-           upholstery               ||< aarm_mass_l:reception
 21  0.324    90.   0. aarm_mass_r  OPAQUE   VERT FURNI:-           upholstery               ||< aarm_mass_r_:reception
 22  0.324   270.   0. aarm_mass_r_ OPAQUE   VERT FURNI:-           upholstery               ||< aarm_mass_r:reception
 23  0.814     0.  90. bseat_mass   OPAQUE   CEIL FURNI:-           upholstery               ||< bseat_mass_:reception
 24  0.814     0. -90. bseat_mass_  OPAQUE   FLOR FURNI:-           upholstery               ||< bseat_mass:reception
 25  0.324    90.   0. barm_mass_l  OPAQUE   VERT FURNI:-           upholstery               ||< barm_mass_l_:reception
 26  0.324   270.   0. barm_mass_l_ OPAQUE   VERT FURNI:-           upholstery               ||< barm_mass_l:reception
 27  0.324    90.   0. barm_mass_r  OPAQUE   VERT FURNI:-           upholstery               ||< barm_mass_r_:reception
 28  0.324   270.   0. barm_mass_r_ OPAQUE   VERT FURNI:-           upholstery               ||< barm_mass_r:reception
 29  0.515     0.  90. at_top       OPAQUE   CEIL FURNI:-           shelves_20mm             ||< at_top_:reception
 30  0.515     0. -90. at_top_      OPAQUE   FLOR FURNI:-           shelves_20mm             ||< at_top:reception
 31  0.271     0.  90. act_shelf    OPAQUE   CEIL FURNI:-           furn_wd10mm              ||< act_shelf_:reception
 32  0.271     0. -90. act_shelf_   OPAQUE   FLOR FURNI:-           furn_wd10mm              ||< act_shelf:reception
 33  1.17      0.  90. adesk_t      OPAQUE   CEIL FURNI:-           door                     ||< adesk_t_:reception
 34  1.17      0. -90. adesk_t_     OPAQUE   FLOR FURNI:-           door                     ||< adesk_t:reception
 35  1.17      0.  90. bdesk_t      OPAQUE   CEIL FURNI:-           door                     ||< bdesk_t_:reception
 36  1.17      0. -90. bdesk_t_     OPAQUE   FLOR FURNI:-           door                     ||< bdesk_t:reception
 37  0.207     0.  90. aseat        OPAQUE   CEIL FURNI:-           upholstery               ||< aseat_:reception
 38  0.207     0. -90. aseat_       OPAQUE   FLOR FURNI:-           upholstery               ||< aseat:reception
 39  0.231   220.   6. astback      OPAQUE   SLOP FURNI:-           upholstery               ||< astback_:reception
 40  0.231    40.  -6. astback_     OPAQUE   SLOP FURNI:-           upholstery               ||< astback:reception
 41  0.148    90.   0. acase        OPAQUE   VERT FURNI:-           IT_case                  ||< acase_:reception
 42  0.148   270.   0. acase_       OPAQUE   VERT FURNI:-           IT_case                  ||< acase:reception
 43  0.123    90.   0. acircuit     OPAQUE   VERT FURNI:-           circuit_bd               ||< acircuit_:reception
 44  0.123   270.   0. acircuit_    OPAQUE   VERT FURNI:-           circuit_bd               ||< acircuit:reception
 45  0.484   270.   0. acab_lf      OPAQUE   VERT FURNI:-           steel_pl_3mm             ||< acab_lf_:reception
 46  0.484    90.   0. acab_lf_     OPAQUE   VERT FURNI:-           steel_pl_3mm             ||< acab_lf:reception
 47  0.484   270.   0. acab_rt      OPAQUE   VERT FURNI:-           steel_pl_3mm             ||< acab_rt_:reception
 48  0.484    90.   0. acab_rt_     OPAQUE   VERT FURNI:-           steel_pl_3mm             ||< acab_rt:reception
 49  1.45    180.   0. acab_fr      OPAQUE   VERT FURNI:-           steel_gr_3mm             ||< acab_fr_:reception
 50  1.45    360.   0. acab_fr_     OPAQUE   VERT FURNI:-           steel_gr_3mm             ||< acab_fr:reception
 51  0.484   270.   0. bcab_lf      OPAQUE   VERT FURNI:-           steel_pl_3mm             ||< bcab_lf_:reception
 52  0.484    90.   0. bcab_lf_     OPAQUE   VERT FURNI:-           steel_pl_3mm             ||< bcab_lf:reception
 53  0.484   270.   0. bcab_rt      OPAQUE   VERT FURNI:-           steel_pl_3mm             ||< bcab_rt_:reception
 54  0.484    90.   0. bcab_rt_     OPAQUE   VERT FURNI:-           steel_pl_3mm             ||< bcab_rt:reception
 55  1.45    180.   0. bcab_fr      OPAQUE   VERT FURNI:-           steel_gr_3mm             ||< bcab_fr_:reception
 56  1.45    360.   0. bcab_fr_     OPAQUE   VERT FURNI:-           steel_gr_3mm             ||< bcab_fr:reception
 57  0.484   270.   0. ccab_lf      OPAQUE   VERT FURNI:-           steel_pl_3mm             ||< ccab_lf_:reception
 58  0.484    90.   0. ccab_lf_     OPAQUE   VERT FURNI:-           steel_pl_3mm             ||< ccab_lf:reception
 59  0.484   270.   0. ccab_rt      OPAQUE   VERT FURNI:-           steel_pl_3mm             ||< ccab_rt_:reception
 60  0.484    90.   0. ccab_rt_     OPAQUE   VERT FURNI:-           steel_pl_3mm             ||< ccab_rt:reception
 61  1.45    180.   0. ccab_fr      OPAQUE   VERT FURNI:-           steel_gr_3mm             ||< ccab_fr_:reception
 62  1.45    360.   0. ccab_fr_     OPAQUE   VERT FURNI:-           steel_gr_3mm             ||< ccab_fr:reception
 63  0.484   270.   0. dcab_lf      OPAQUE   VERT FURNI:-           steel_pl_3mm             ||< dcab_lf_:reception
 64  0.484    90.   0. dcab_lf_     OPAQUE   VERT FURNI:-           steel_pl_3mm             ||< dcab_lf:reception
 65  0.484   270.   0. dcab_rt      OPAQUE   VERT FURNI:-           steel_pl_3mm             ||< dcab_rt_:reception
 66  0.484    90.   0. dcab_rt_     OPAQUE   VERT FURNI:-           steel_pl_3mm             ||< dcab_rt:reception
 67  1.45    180.   0. dcab_fr      OPAQUE   VERT FURNI:-           steel_gr_3mm             ||< dcab_fr_:reception
 68  1.45      0.   0. dcab_fr_     OPAQUE   VERT FURNI:-           steel_gr_3mm             ||< dcab_fr:reception
 69  0.484   270.   0. ecab_lf      OPAQUE   VERT FURNI:-           steel_pl_3mm             ||< ecab_lf_:reception
 70  0.484    90.   0. ecab_lf_     OPAQUE   VERT FURNI:-           steel_pl_3mm             ||< ecab_lf:reception
 71  0.484   270.   0. ecab_rt      OPAQUE   VERT FURNI:-           steel_pl_3mm             ||< ecab_rt_:reception
 72  0.484    90.   0. ecab_rt_     OPAQUE   VERT FURNI:-           steel_pl_3mm             ||< ecab_rt:reception
 73  1.45    180.   0. ecab_fr      OPAQUE   VERT FURNI:-           steel_gr_3mm             ||< ecab_fr_:reception
 74  1.45      0.   0. ecab_fr_     OPAQUE   VERT FURNI:-           steel_gr_3mm             ||< ecab_fr:reception
 75  0.160     0.  90. recep_a_ret  OPAQUE   CEIL GRILL:OPEN        steel_gr_3mm             ||< recep_a_ret:ceil_void
 76  0.160     0.  90. recep_b_ret  OPAQUE   CEIL GRILL:OPEN        steel_gr_3mm             ||< recep_b_ret:ceil_void
 77  0.160     0.  90. recep_a_inle OPAQUE   CEIL GRILL:INLET       steel_gr_3mm             ||< recep_a_inle:ceil_void
 78  0.160     0.  90. recep_b_inle OPAQUE   CEIL GRILL:INLET       steel_gr_3mm             ||< recep_b_inle:ceil_void
 
Surface      Width(m)   Height(m)  Above ffl...
frame           3.00       2.10      0.90    F-FRAME
glazing         2.80       1.90      1.00    C-WINDOW
glazing_a       2.80       1.90      1.00    C-WINDOW
  
In reception           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
extern_wall              4.6      4.6      0.0      0.0      0.0      0.0
insul_frame              2.8      2.8      0.0      0.0      0.0      0.0
door                     2.3      0.0      0.0      2.3      0.0      0.0
dbl_glz                 10.6     10.6      0.0      0.0      0.0      0.0
ceiling                 60.1      0.0     60.1      0.0      0.0      0.0
gyp_blk_ptn             22.5      0.0      0.0      0.0      0.0     22.5
gyp_gyp_ptn             27.0      0.0     27.0      0.0      0.0      0.0
fictitious              28.1      0.0     28.1      0.0      0.0      0.0
flr_ov_pln              60.8      0.0     60.8      0.0      0.0      0.0
steel_pl_3mm             4.8      0.0      0.0      4.8      0.0      0.0
circuit_bd               0.1      0.0      0.0      0.1      0.0      0.0
upholstery               3.4      0.0      0.0      3.4      0.0      0.0
shelves_20mm             0.5      0.0      0.0      0.5      0.0      0.0
IT_case                  0.1      0.0      0.0      0.1      0.0      0.0
furn_wd10mm              0.3      0.0      0.0      0.3      0.0      0.0
steel_gr_3mm             7.9      0.0      0.6      7.3      0.0      0.0
 
 An hourly solar radiation distribution is used for this zone.
 Surfaces (all applicable) for shading analysis:
spandral vent frame glazing spandral_a vent_a frame_a glazing_a
 Insolation sources (all applicable):
glazing glazing_a
 Explicit viewfactors have been derived for this zone.
Block  X-     Y-    Z-coords   DX-    DY-    DZ-values  Orientation   Opacity  Name  Construction
  1    12.1     6.0     3.1     6.0     0.0     0.3    90.0     0.0 1.00 eob1 NONE
  2    12.3     6.0     3.1     6.0     0.0     0.2    90.0     0.0 1.00 eob2 NONE
  3    12.5     6.0     3.1     6.0     0.0     0.2    90.0     0.0 1.00 eob3 NONE
  4    12.7     6.0     3.1     6.0     0.0     0.2    90.0     0.0 1.00 eob4 NONE
  5    12.9     6.0     3.1     6.0     0.0     0.2    90.0     0.0 1.00 eob5 NONE
  6    13.1     6.0     3.1     6.0     0.0     0.2    90.0     0.0 1.00 eob6 NONE
 
visual type name    composition        visual type name    composition
 vis 1rot  aarm_l     upholstery       vis 1rot  adrw_f steel_gr_3mm
 vis 1rot  aarm_r     upholstery       vis 1rot  adrw_g steel_gr_3mm
 vis 1rot  aleg_a     steel_gr_3mm     vis 1rot  adrw_h steel_gr_3mm
 vis 1rot  aleg_b     steel_gr_3mm     vis 1rot  adrw_i steel_gr_3mm
 vis 1rot  aleg_c     steel_gr_3mm     vis 1rot  adrw_j steel_gr_3mm
 vis 1rot  aleg_d     steel_gr_3mm     vis 1rot  adrw_k steel_gr_3mm
 vis poly  aback      upholstery       vis poly  adrw_l steel_gr_3mm
 vis poly  aseat      upholstery       vis poly  bf_cabinet steel_pl_3mm
 vis 1rot  barm_l     upholstery       vis 1rot  bdrw_a steel_gr_3mm
 vis 1rot  barm_r     upholstery       vis 1rot  bdrw_b steel_gr_3mm
 vis 1rot  bleg_a     steel_gr_3mm     vis 1rot  bdrw_c steel_gr_3mm
 vis 1rot  bleg_b     steel_gr_3mm     vis 1rot  bdrw_d steel_gr_3mm
 vis 1rot  bleg_c     steel_gr_3mm     vis 1rot  bdrw_e steel_gr_3mm
 vis 1rot  bleg_d     steel_gr_3mm     vis 1rot  bdrw_f steel_gr_3mm
 vis poly  bback      upholstery       vis poly  bdrw_g steel_gr_3mm
 vis poly  bseat      upholstery       vis poly  bdrw_h steel_gr_3mm
 vis 1rot  atbl_top   shelves_20mm     vis 1rot  bdrw_i steel_gr_3mm
 vis 1rot  atbl_shelf furn_wd10mm      vis 1rot  bdrw_j steel_gr_3mm
 vis 1rot  aleg_a     shelves_20mm     vis 1rot  bdrw_k steel_gr_3mm
 vis 1rot  aleg_b     shelves_20mm     vis 1rot  bdrw_l steel_gr_3mm
 vis 1rot  aleg_c     shelves_20mm     vis 1rot  cf_cabinet steel_pl_3mm
 vis 1rot  aleg_d     shelves_20mm     vis 1rot  cdrw_a steel_gr_3mm
 vis 1rot  adesk_top  door             vis 1rot  cdrw_b steel_gr_3mm
 vis 1rot  adesk_leg_a steel_pl_3mm    vis 1rot  cdrw_c steel_gr_3mm
 vis 1rot  adesk_leg_b steel_pl_3mm    vis 1rot  cdrw_d steel_gr_3mm
 vis 1rot  adesk_leg_c steel_pl_3mm    vis 1rot  cdrw_e steel_gr_3mm
 vis 1rot  adesk_leg_d steel_pl_3mm    vis 1rot  cdrw_f steel_gr_3mm
 vis 1rot  bdesk_top  door             vis 1rot  cdrw_g steel_gr_3mm
 vis 1rot  bdesk_leg_a steel_pl_3mm    vis 1rot  cdrw_h steel_gr_3mm
 vis 1rot  bdesk_leg_b steel_pl_3mm    vis 1rot  cdrw_i steel_gr_3mm
 vis 1rot  bdesk_leg_c steel_pl_3mm    vis 1rot  cdrw_j steel_gr_3mm
 vis 1rot  bdesk_leg_d steel_pl_3mm    vis 1rot  cdrw_k steel_gr_3mm
 vis 1rot  aseat      upholstery       vis 1rot  cdrw_l steel_gr_3mm
 vis 1rot  ar_arm     upholstery       vis 1rot  df_cabinet steel_pl_3mm
 vis 1rot  al_arm     upholstery       vis 1rot  ddrw_a steel_gr_3mm
 vis poly  aseat_bk   upholstery       vis poly  ddrw_b steel_gr_3mm
 vis 1rot  across_a   steel_gr_3mm     vis 1rot  ddrw_c steel_gr_3mm
 vis 1rot  across_b   steel_gr_3mm     vis 1rot  ddrw_d steel_gr_3mm
 vis 1rot  apost      PH_alu_frame     vis 1rot  ddrw_e steel_gr_3mm
 vis 1rot  ar_arm_rest steel_gr_3mm    vis 1rot  ddrw_f steel_gr_3mm
 vis 1rot  al_arm_rest steel_gr_3mm    vis 1rot  ddrw_g steel_gr_3mm
 vis 1rot  aroller_a  sensor_case      vis 1rot  ddrw_h steel_gr_3mm
 vis 1rot  aroller_b  sensor_case      vis 1rot  ddrw_i steel_gr_3mm
 vis 1rot  aroller_c  sensor_case      vis 1rot  ddrw_j steel_gr_3mm
 vis 1rot  aroller_d  sensor_case      vis 1rot  ddrw_k steel_gr_3mm
 vis 1rot  adbase     IT_case          vis 1rot  ddrw_l steel_gr_3mm
 vis 1rot  adstand    steel_pl_3mm     vis 1rot  ef_cabinet steel_pl_3mm
 vis 1rot  adlow_edge IT_case          vis 1rot  edrw_a steel_gr_3mm
 vis 1rot  adup_edge  IT_case          vis 1rot  edrw_b steel_gr_3mm
 vis 1rot  adlft_edge IT_case          vis 1rot  edrw_c steel_gr_3mm
 vis 1rot  adrt_edge  IT_case          vis 1rot  edrw_d steel_gr_3mm
 vis 1rot  adscreen   collector_pl     vis 1rot  edrw_e steel_gr_3mm
 vis 1rot  af_cabinet steel_pl_3mm     vis 1rot  edrw_f steel_gr_3mm
 vis 1rot  adrw_a     steel_gr_3mm     vis 1rot  edrw_g steel_gr_3mm
 vis 1rot  adrw_b     steel_gr_3mm     vis 1rot  edrw_h steel_gr_3mm
 vis 1rot  adrw_c     steel_gr_3mm     vis 1rot  edrw_i steel_gr_3mm
 vis 1rot  adrw_d     steel_gr_3mm     vis 1rot  edrw_j steel_gr_3mm
 vis 1rot  adrw_e     steel_gr_3mm     vis 1rot  edrw_k steel_gr_3mm
                                       vis 1rot  edrw_l     steel_gr_3mm
 
 Shading patterns have been calculated for this zone.
 
 Ventilation & infiltration is assessed via network analysis
 and the associated network node is: reception
 
Notes:
2 people most hours, 8Wm2 lights  5Wm2 small power weekdays, no gains
on weekends.
 
Daytype   Gain Label     Type    Unit Period Sensible  Latent      Radiant    Convec
          No.                          Hours Magn.(W)  Magn.(W)    Fraction   Fraction
weekday     1 Occupt     people    W    0- 9      0.0      0.0       0.50       0.50
weekday     2 Occupt     people    W    9-18    200.0    100.0       0.50       0.50
weekday     3 Occupt     people    W   18-24      0.0      0.0       0.50       0.50
weekday     4 Lights     lighting  Wm2  0- 8      0.0      0.0       0.50       0.50
weekday     5 Lights     lighting  Wm2  8-18      8.0      0.0       0.50       0.50
weekday     6 Lights     lighting  Wm2 18-24      0.0      0.0       0.50       0.50
weekday     7 Equipt     equipment Wm2  0- 8      0.0      0.0       0.50       0.50
weekday     8 Equipt     equipment Wm2  8-18      5.0      0.0       0.50       0.50
weekday     9 Equipt     equipment Wm2 18-24      0.0      0.0       0.50       0.50
 
 ____________________________________________________________
 
 Zone ceil_void ( 5) is composed of 41 surfaces and 105 vertices.
 It encloses a volume of 89.5m^3 of space, with a total surface
 area of 396.m^2 & approx floor area of 180.m^2
 ceil_void is a 0.5m ceiling void over offices
 There is 19.500m2 of exposed surface area, 19.500m2 of which is vertical.
 Facade opaque is 19.500m2 &   10.8 % of floor area & average U of 0.214 & UA of 4.1720.
 Opaque partitions:ceiling:floor 186.48m2.
 
 A summary of the surfaces in ceil_void( 5) follows:
 
 Sur| Area  |Azim|Elev|          Surface                           | construction             |environment
    | m^2   |deg |deg | name       |optical|locat| use             | name                     |other side
  1  180.      0.  90. structure    OPAQUE   CEIL -:-               conc_250                 ||< identical environment
  2  6.00    180.   0. south_edge   OPAQUE   VERT FRAME:CRACK       extern_wall              ||< external
  3  9.00     90.   0. east_edge    OPAQUE   VERT -:-               extern_wall              ||< external
  4  4.50      0.   0. north_edge   OPAQUE   VERT -:-               extern_wall              ||< external
  5  6.00    270.   0. core_b       OPAQUE   VERT -:-               ceiling_rev              ||< identical environment
  6  1.50      0.   0. core_a       OPAQUE   VERT -:-               gyp_blk_ptn              ||< identical environment
  7  3.00    270.   0. core_c       OPAQUE   VERT -:-               gyp_blk_ptn              ||< identical environment
  8  13.2      0. -90. ceiling      OPAQUE   FLOR PARTN:-           ceiling_rev              ||< ceiling:manager
  9  0.160     0. -90. office_inlet OPAQUE   FLOR GRILL:CLOSED      steel_gr_3mm             ||< office_inlet:manager
 10  0.160     0. -90. office_ret   OPAQUE   FLOR GRILL:OPEN        steel_gr_3mm             ||< office_ret:manager
 11  57.9      0. -90. ceiling_gen  OPAQUE   FLOR -:-               ceiling_rev              ||< ceiling:general
 12  0.160     0. -90. op_a_inlet   OPAQUE   FLOR GRILL:CLOSED      steel_gr_3mm             ||< op_a_inlet:general
 13  0.160     0. -90. op_b_inlet   OPAQUE   FLOR GRILL:CLOSED      steel_gr_3mm             ||< op_b_inlet:general
 14  0.160     0. -90. op_a_return  OPAQUE   FLOR GRILL:OPEN        steel_gr_3mm             ||< op_a_return:general
 15  0.160     0. -90. op_b_return  OPAQUE   FLOR GRILL:OPEN        steel_gr_3mm             ||< op_b_return:general
 16  46.9      0. -90. ceiling_conf OPAQUE   FLOR -:-               ceiling_rev              ||< ceiling:conference
 17  0.160     0. -90. conf_return  OPAQUE   FLOR GRILL:OPEN        steel_gr_3mm             ||< conf_return:conference
 18  0.160     0. -90. conf_inlet   OPAQUE   FLOR GRILL:CLOSED      steel_gr_3mm             ||< conf_inlet:conference
 19  60.1      0. -90. ceiling_recp OPAQUE   FLOR -:-               ceiling_rev              ||< ceiling:reception
 20  0.160     0. -90. recep_b_inle OPAQUE   FLOR GRILL:INLET       steel_gr_3mm             ||< recep_b_inle:reception
 21  0.160     0. -90. recep_a_inle OPAQUE   FLOR GRILL:INLET       steel_gr_3mm             ||< recep_a_inle:reception
 22  0.160     0. -90. recep_b_ret  OPAQUE   FLOR GRILL:OPEN        steel_gr_3mm             ||< recep_b_ret:reception
 23  0.160     0. -90. recep_a_ret  OPAQUE   FLOR GRILL:OPEN        steel_gr_3mm             ||< recep_a_ret:reception
 24  0.300     0.   0. mb_o_front   OPAQUE   VERT -:-               hvac_case                ||< mb_o_front:mix_op_man
 25  0.180   270.   0. mb_o_right   OPAQUE   VERT -:-               hvac_case                ||< mb_o_right:mix_op_man
 26  0.300   180.   0. mb_o_back    OPAQUE   VERT -:-               hvac_case                ||< mb_o_back:mix_op_man
 27  0.180    90.   0. mb_o_left    OPAQUE   VERT GRILL:OPEN        hvac_case                ||< mb_o_left:mix_op_man
 28  0.600     0. -90. mb_o_top     OPAQUE   FLOR -:-               hvac_case                ||< mb_o_top:mix_op_man
 29  0.600     0.  90. mb_o_base    OPAQUE   CEIL -:-               gyp_blk_ptn              ||< mb_o_base:mix_op_man
 30  0.300     0.   0. mb_r_front   OPAQUE   VERT -:-               hvac_case                ||< mb_o_front:mb_recep
 31  0.180   270.   0. mb_r_right   OPAQUE   VERT -:-               hvac_case                ||< mb_o_right:mb_recep
 32  0.300   180.   0. mb_r_back    OPAQUE   VERT -:-               hvac_case                ||< mb_o_back:mb_recep
 33  0.180    90.   0. mb_r_left    OPAQUE   VERT GRILL:OPEN        hvac_case                ||< mb_o_left:mb_recep
 34  0.600     0. -90. mb_r_top     OPAQUE   FLOR -:-               hvac_case                ||< mb_o_top:mb_recep
 35  0.600     0.  90. mb_r_base    OPAQUE   CEIL -:-               hvac_case                ||< mb_o_base:mb_recep
 36  0.300     0.   0. mb_c_front   OPAQUE   VERT -:-               hvac_case                ||< mb_o_front:mb_conf
 37  0.180   270.   0. mb_c_right   OPAQUE   VERT -:-               hvac_case                ||< mb_o_right:mb_conf
 38  0.300   180.   0. mb_c_back    OPAQUE   VERT -:-               hvac_case                ||< mb_o_back:mb_conf
 39  0.180    90.   0. mb_c_left    OPAQUE   VERT GRILL:OPEN        hvac_case                ||< mb_o_left:mb_conf
 40  0.600     0. -90. mb_c_top     OPAQUE   FLOR -:-               hvac_case                ||< mb_o_top:mb_conf
 41  0.600     0.  90. mb_c_base    OPAQUE   CEIL -:-               hvac_case                ||< mb_o_base:mb_conf
 
Surface      Width(m)   Height(m)  Above ffl...
south_edge     12.00       0.50      0.00    FRAME
  
In ceil_void           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
extern_wall             19.5     19.5      0.0      0.0      0.0      0.0
ceiling_rev            184.1      0.0    178.1      0.0      0.0      6.0
gyp_blk_ptn              5.1      0.0      0.6      0.0      0.0      4.5
conc_250               180.0      0.0      0.0      0.0      0.0    180.0
steel_gr_3mm             1.9      0.0      1.9      0.0      0.0      0.0
hvac_case                5.9      0.0      5.9      0.0      0.0      0.0
 
 All surfaces will receive diffuse insolation (if shading not calculated).
 No shading analysis requested.
 No insolation analysis requested.
 Explicit viewfactors have been derived for this zone.
 
 Ventilation & infiltration is assessed via network analysis
 and the associated network node is: ceil_void
 
Notes:
the ceiling void has no casual gains.
 
Daytype   Gain Label     Type    Unit Period Sensible  Latent      Radiant    Convec
          No.                          Hours Magn.(W)  Magn.(W)    Fraction   Fraction
 
 ____________________________________________________________
 
 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 -:-               hvac_case                ||< mb_o_front:ceil_void
  2  0.180    90.   0. mb_o_right   OPAQUE   VERT -:-               hvac_case                ||< mb_o_right:ceil_void
  3  0.300     0.   0. mb_o_back    OPAQUE   VERT -:-               hvac_case                ||< mb_o_back:ceil_void
  4  0.180   270.   0. mb_o_left    OPAQUE   VERT GRILL:OPEN        hvac_case                ||< mb_o_left:ceil_void
  5  0.600     0.  90. mb_o_top     OPAQUE   CEIL -:-               hvac_case                ||< mb_o_top:ceil_void
  6  0.600     0. -90. mb_o_base    OPAQUE   FLOR -:-               gyp_blk_ptn              ||< mb_o_base:ceil_void
 
  
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
gyp_blk_ptn              0.6      0.0      0.6      0.0      0.0      0.0
hvac_case                1.6      0.0      1.6      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 this zone.
 
Daytype   Gain Label     Type    Unit Period Sensible  Latent      Radiant    Convec
          No.                          Hours Magn.(W)  Magn.(W)    Fraction   Fraction
weekday     1 Occupants  people    W    0-24      0.0      0.0       0.60       0.40
weekday     2 Lights     lighting  W    0-24      0.0      0.0       0.30       0.70
weekday     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
 
 ____________________________________________________________
 
 Zone floor_void ( 7) is composed of 11 surfaces and 34 vertices.
 It encloses a volume of 36.0m^3 of space, with a total surface
 area of 372.m^2 & approx floor area of 180.m^2
 floor_void is a 200mm floor void
 There is 7.8000m2 of exposed surface area, 7.8000m2 of which is vertical.
 Facade opaque is 7.8000m2 &    4.3 % of floor area & average U of 0.214 & UA of 1.6688.
 Opaque partitions:ceiling:floor 360.00m2.
 
 A summary of the surfaces in floor_void( 7) follows:
 
 Sur| Area  |Azim|Elev|          Surface                           | construction             |environment
    | m^2   |deg |deg | name       |optical|locat| use             | name                     |other side
  1  13.5      0.  90. man_floor    OPAQUE   CEIL -:-               top_pln                  ||< floor:manager
  2  58.5      0.  90. gen_floor    OPAQUE   CEIL -:-               top_pln                  ||< floor:general
  3  47.3      0.  90. conf_floor   OPAQUE   CEIL -:-               top_pln                  ||< floor:conference
  4  60.8      0.  90. recep_floor  OPAQUE   CEIL -:-               top_pln                  ||< floor:reception
  5  2.40    180.   0. front        OPAQUE   VERT FRAME:CRACK       extern_wall              ||< external
  6  3.60     90.   0. right        OPAQUE   VERT -:-               extern_wall              ||< external
  7  1.80      0.   0. back         OPAQUE   VERT F-FRAME:VENT      extern_wall              ||< external
  8  2.40    270.   0. left_a       OPAQUE   VERT -:-               gyp_gyp_ptn              ||< identical environment
  9  0.600     0.   0. back_a       OPAQUE   VERT -:-               gyp_gyp_ptn              ||< identical environment
 10  1.20    270.   0. left_b       OPAQUE   VERT -:-               gyp_gyp_ptn              ||< identical environment
 11  180.      0. -90. Base         OPAQUE   FLOR -:-               conc_250                 ||< structure:ceiling_belo
 
Surface      Width(m)   Height(m)  Above ffl...
front          12.00       0.20      0.00    FRAME
back            9.00       0.20      0.00    F-FRAME
  
In floor_void          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
extern_wall              7.8      7.8      0.0      0.0      0.0      0.0
gyp_gyp_ptn              4.2      0.0      0.0      0.0      0.0      4.2
top_pln                180.0      0.0    180.0      0.0      0.0      0.0
conc_250               180.0      0.0    180.0      0.0      0.0      0.0
 
 All surfaces will receive diffuse insolation (if shading not calculated).
 No shading analysis requested.
 No insolation analysis requested.
 Explicit viewfactors have been derived for this zone.
 
 Ventilation & infiltration is assessed via network analysis
 and the associated network node is: floor_void
 
Notes:
Nothing happens in this zone in terms of occupants lights and small
power.
 
Daytype   Gain Label     Type    Unit Period Sensible  Latent      Radiant    Convec
          No.                          Hours Magn.(W)  Magn.(W)    Fraction   Fraction
weekday     1 Occupants  people    W    0-24      0.0      0.0       0.60       0.40
weekday     2 Lights     lighting  W    0-24      0.0      0.0       0.30       0.70
weekday     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
 
 ____________________________________________________________
 
 Zone ceiling_belo ( 8) is composed of 8 surfaces and 22 vertices.
 It encloses a volume of 36.0m^3 of space, with a total surface
 area of 372.m^2 & approx floor area of 180.m^2
 ceil_below is ceiling below floor void as boundary condition
 There is 7.8000m2 of exposed surface area, 7.8000m2 of which is vertical.
 Facade opaque is 7.8000m2 &    4.3 % of floor area & average U of 0.214 & UA of 1.6688.
 Opaque partitions:ceiling:floor 180.00m2.
 
 A summary of the surfaces in ceiling_belo( 8) follows:
 
 Sur| Area  |Azim|Elev|          Surface                           | construction             |environment
    | m^2   |deg |deg | name       |optical|locat| use             | name                     |other side
  1  180.      0.  90. structure    OPAQUE   CEIL -:-               conc_250                 ||< Base:floor_void
  2  2.40    180.   0. front        OPAQUE   VERT FRAME:CRACK       extern_wall              ||< external
  3  3.60     90.   0. right        OPAQUE   VERT -:-               extern_wall              ||< external
  4  1.80      0.   0. back         OPAQUE   VERT F-FRAME:VENT      extern_wall              ||< external
  5  2.40    270.   0. left_a       OPAQUE   VERT -:-               gyp_gyp_ptn              ||< identical environment
  6  0.600     0.   0. back_a       OPAQUE   VERT -:-               gyp_gyp_ptn              ||< identical environment
  7  1.20    270.   0. left_b       OPAQUE   VERT -:-               gyp_gyp_ptn              ||< identical environment
  8  180.      0. -90. Base         OPAQUE   FLOR -:-               ceiling_rev              ||< identical environment
 
Surface      Width(m)   Height(m)  Above ffl...
front          12.00       0.20      0.00    FRAME
back            9.00       0.20      0.00    F-FRAME
  
In ceiling_belo        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
extern_wall              7.8      7.8      0.0      0.0      0.0      0.0
ceiling_rev            180.0      0.0      0.0      0.0      0.0    180.0
gyp_gyp_ptn              4.2      0.0      0.0      0.0      0.0      4.2
conc_250               180.0      0.0    180.0      0.0      0.0      0.0
 
 All surfaces will receive diffuse insolation (if shading not calculated).
 No shading analysis requested.
 No insolation analysis requested.
 Explicit viewfactors have been derived for this zone.
 
 Ventilation & infiltration is assessed via network analysis
 and the associated network node is: ceiling_belo
 
Notes:
Nothing happens in this zone in terms of occupants lights and small
power.
 
Daytype   Gain Label     Type    Unit Period Sensible  Latent      Radiant    Convec
          No.                          Hours Magn.(W)  Magn.(W)    Fraction   Fraction
weekday     1 Occupants  people    W    0-24      0.0      0.0       0.60       0.40
weekday     2 Lights     lighting  W    0-24      0.0      0.0       0.30       0.70
weekday     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
 
 ____________________________________________________________
 
 Zone mb_recep ( 9) 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
 mb_recep is hvac mixer for reception
 Opaque partitions:ceiling:floor 2.1600m2.
 
 A summary of the surfaces in mb_recep( 9) 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 -:-               hvac_case                ||< mb_r_front:ceil_void
  2  0.180    90.   0. mb_o_right   OPAQUE   VERT -:-               hvac_case                ||< mb_r_right:ceil_void
  3  0.300   360.   0. mb_o_back    OPAQUE   VERT -:-               hvac_case                ||< mb_r_back:ceil_void
  4  0.180   270.   0. mb_o_left    OPAQUE   VERT GRILL:OPEN        hvac_case                ||< mb_r_left:ceil_void
  5  0.600     0.  90. mb_o_top     OPAQUE   CEIL -:-               hvac_case                ||< mb_r_top:ceil_void
  6  0.600     0. -90. mb_o_base    OPAQUE   FLOR -:-               hvac_case                ||< mb_r_base:ceil_void
 
  
In mb_recep            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
hvac_case                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.
 
 Uses same operations as zone mix_op_man
 
 ____________________________________________________________
 
 Zone mb_conf (10) 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
 mb_conf is hvac mixing box for conference room
 Opaque partitions:ceiling:floor 2.1600m2.
 
 A summary of the surfaces in mb_conf(10) 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 -:-               hvac_case                ||< mb_c_front:ceil_void
  2  0.180    90.   0. mb_o_right   OPAQUE   VERT -:-               hvac_case                ||< mb_c_right:ceil_void
  3  0.300     0.   0. mb_o_back    OPAQUE   VERT -:-               hvac_case                ||< mb_c_back:ceil_void
  4  0.180   270.   0. mb_o_left    OPAQUE   VERT GRILL:OPEN        hvac_case                ||< mb_c_left:ceil_void
  5  0.600     0.  90. mb_o_top     OPAQUE   CEIL -:-               hvac_case                ||< mb_c_top:ceil_void
  6  0.600     0. -90. mb_o_base    OPAQUE   FLOR -:-               hvac_case                ||< mb_c_base:ceil_void
 
  
In mb_conf             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
hvac_case                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.
 
 Uses same operations as zone mix_op_man
 
 ____________________________________________________________
 
 Project floor area is 721.80m2, wall area is 82.940m2, window area is 69.160m2.
 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 152.10m2 of outside surface area, 152.10m2 of which is vertical.
 
 Outside walls are 11.491 % of floor area & average U of 0.267 & UA of 22.174 & max MLC thickness 0.412
 Glazing is 9.5816 % of floor & 45.470 % facade with average U of 2.811 & UA of 194.38
 
 ____________________________________________________________
 Multi-layer constructions used:
 
 Details of opaque construction: extern_wall and overall thickness  0.412
 In category general constructions also shown in menus as: extern_wall
extern_wall is brick skin over insulated blockwork
 
 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     0.960  2000.   650. 0.90 0.70     25.  0.10 200.0 Lt brown brick : Light brown brick (inorganic-porous)
    2  150.0     0.040   250.   840. 0.90 0.30      4.  3.75  37.5 glasswool : Glasswool (generic) (non-hygroscopic)
    3   50.0     -         -      -  -    -         -   -      -   air gap resistance  0.17 0.17 0.17
    4  100.0     0.240   750.  1000. 0.90 0.65     10.  0.42  75.0 aerated conc block : Aerated concrete block (inorganic-porous)
 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)=  0.214  0.215  0.212 (partition)  0.210
 Weight per m^2 of this construction  323.96
Kappa (thermal mass value)    75.6
 Total area of extern_wall (  1) is     65.00
 
 Details of opaque construction: insul_frame and overall thickness  0.088
 In category general constructions also shown in menus as: insul_frame
insul_frame is a metal panel with 80mm insulation
 
 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   80.0     0.040    12.   840. 0.90 0.65     30.  2.00   1.0 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)=  0.461  0.467  0.452 (partition)  0.442
 Weight per m^2 of this construction   22.56
Kappa (thermal mass value)    19.0
 Total area of insul_frame (  2) is     18.90
 
 Details of opaque construction: door and overall thickness  0.025
 In category general constructions also shown in menus as: door
door is a solid wood door
 
 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 (  3) is     27.67
 
 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 (  6) is     74.20
 
 Details of opaque construction: ceiling linked to ceiling_rev & with overall thickness  0.110
 In category general constructions also shown in menus as: ceiling
ceiling is an accoustic ceiling looking from below
 
 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 ( 10) is     89.04
 
 Details of opaque construction: ceiling_rev linked to ceiling & with overall thickness  0.110
 In category general constructions also shown in menus as: ceiling_rev
ceiling_rev is an acoustic ceiling looking from void
 
 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 ( 11) is    275.04
 
 Details of opaque construction: gyp_blk_ptn and overall thickness  0.226
 In category general constructions also shown in menus as: gyp_blk_ptn
gyp_blk_ptn is block partition skinned in gypboard
 
 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 ( 12) is     36.60
 
 Details of opaque construction: gyp_gyp_ptn and overall thickness  0.074
 In category general constructions also shown in menus as: gyp_gyp_ptn
gyp_gyp_ptn is lightweight gypboard partition
 
 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 ( 13) is     75.90
 
 Details of transparent construction: fictitious with SC_fictit optics and thickness  0.004
 
 Layer|Thick |Conduc-|Density|Specif|IR  |Solar|Diffu| R    | Kg |Description
      |(mm)  |tivity |       |heat  |emis|abs  |resis|m^2K/W| m^2|
    1    4.0    20.000    10.    10. 0.99 0.01  19200.  0.00   0.0 fict : fictitious material (almost not there) with matching single layer optics
 ISO 6946 U values (horiz/upward/downward heat flow)=  5.875  7.133  4.757 (partition)  3.843
 Weight per m^2 of this construction    0.04
Kappa (thermal mass value)     0.0
 
 Fictitious 99/99,      4mm, no blind: with id of: SC_fictit
 with 1 layers [including air gaps] and visible trn: 0.99
 Direct transmission @ 0, 40, 55, 70, 80 deg
   0.998 0.987 0.986 0.985 0.984
 Layer| absorption @ 0, 40, 55, 70, 80 deg
    1  0.001 0.001 0.001 0.001 0.001
 Total area of fictitious ( 14) is     28.06
 
 Details of opaque construction: top_pln linked to flr_ov_pln & with overall thickness  0.037
 In category general constructions also shown in menus as: top_pln
top_pln is a carpeted raised floor system looking from void
 
 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     0.060   160.  2500. 0.90 0.85     10.  0.08   0.8 grey loop pile : Grey loop pile synthetic carpet (non-hygroscopic)
    2    2.0    50.000  7800.   502. 0.12 0.20  19200.  0.00  15.6 steel : Steel
    3   28.0     0.170  1000.  1300. 0.90 0.70     55.  0.16  28.0 HighDensityParticleBd : HDF based on info in Handbook of Heat Transfer by Thomas I
 Int     2.0    50.000  7800.   502. 0.12 0.20  19200.  0.00  15.6 steel : Steel
 ISO 6946 U values (horiz/upward/downward heat flow)=  2.392  2.577  2.183 (partition)  1.968
 Weight per m^2 of this construction   60.00
Kappa (thermal mass value)    29.3
 Total area of top_pln ( 16) is     90.00
 
 Details of opaque construction: flr_ov_pln linked to top_pln & with overall thickness  0.037
 In category general constructions also shown in menus as: flr_ov_pln
flr_ov_pln is a carpeted raised floor system looking from room
 
 Layer|Thick |Conduc-|Density|Specif|IR  |Solar|Diffu| R    | Kg |Description
      |(mm)  |tivity |       |heat  |emis|abs  |resis|m^2K/W| m^2|
 Ext     2.0    50.000  7800.   502. 0.12 0.20  19200.  0.00  15.6 steel : Steel
    2   28.0     0.170  1000.  1300. 0.90 0.70     55.  0.16  28.0 HighDensityParticleBd : HDF based on info in Handbook of Heat Transfer by Thomas I
    3    2.0    50.000  7800.   502. 0.12 0.20  19200.  0.00  15.6 steel : Steel
 Int     5.0     0.060   160.  2500. 0.90 0.85     10.  0.08   0.8 grey loop pile : Grey loop pile synthetic carpet (non-hygroscopic)
 ISO 6946 U values (horiz/upward/downward heat flow)=  2.392  2.577  2.183 (partition)  1.968
 Weight per m^2 of this construction   60.00
Kappa (thermal mass value)    29.3
 Total area of flr_ov_pln ( 17) is     90.00
 
 Details of opaque construction: conc_250 and overall thickness  0.250
 In category general constructions also shown in menus as: conc_250
conc_250 is a 250mm concrete slab
 
 Layer|Thick |Conduc-|Density|Specif|IR  |Solar|Diffu| R    | Kg |Description
      |(mm)  |tivity |       |heat  |emis|abs  |resis|m^2K/W| m^2|
    1  250.0     1.400  2100.   653. 0.90 0.21     19.  0.18 525.0 white ptd concrete : White painted heavy mix concrete
 ISO 6946 U values (horiz/upward/downward heat flow)=  2.869  3.139  2.574 (partition)  2.280
 Weight per m^2 of this construction  525.00
Kappa (thermal mass value)   137.1
 Total area of conc_250 ( 19) is    360.00
 
 Details of opaque construction: steel_pl_3mm and overall thickness  0.003
 In category general constructions also shown in menus as: steel_pl_3mm
steel_pl_3mm is a 3mm white steel panel
 
 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 ( 24) is      7.74
 
 Details of opaque construction: collector_pl and overall thickness  0.003
 In category general constructions also shown in menus as: collector_pl
collector_pl is a dark coated copper panel
 
 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 ( 25) is      0.00
 
 Details of opaque construction: sensor_case and overall thickness  0.002
 In category general constructions also shown in menus as: sensor_case
sensor_case is an equipment case made of ABS
 
 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 ( 26) is      0.00
 
 Details of opaque construction: circuit_bd and overall thickness  0.002
 In category general constructions also shown in menus as: circuit_bd
circuit_bd   is a ...
 
 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 ( 27) is      0.12
 
 Details of opaque construction: upholstery and overall thickness  0.035
 In category general constructions also shown in menus as: upholstery
upholstery is wool materials for furniture
 
 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 ( 29) is      9.64
 
 Details of opaque construction: corian_count and overall thickness  0.020
 In category general constructions also shown in menus as: corian_count
corian_count is a ...
 
 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 ( 30) is      0.94
 
 Details of opaque construction: shelves_20mm and overall thickness  0.020
 In category general constructions also shown in menus as: shelves_20mm
shelves_20mm is wood shelving
 
 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     0.190   700.  2390. 0.90 0.45     12.  0.11  14.0 oak_light_stained : oak_light_stained (copy of oak)
 ISO 6946 U values (horiz/upward/downward heat flow)=  3.633  4.077  3.172 (partition)  2.738
 Weight per m^2 of this construction   14.00
Kappa (thermal mass value)    16.7
 Total area of shelves_20mm ( 31) is      1.03
 
 Details of opaque construction: IT_case and overall thickness  0.003
 In category general constructions also shown in menus as: IT_case
IT_case is a dark ABS case for equipment
 
 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 ( 32) is      0.15
 
 Details of opaque construction: furn_wd10mm and overall thickness  0.010
 In category general constructions also shown in menus as: furn_wd10mm
furn_wd10mm is a 10mm wood for furniture
 
 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 ( 33) is      6.54
 
 Details of opaque construction: steel_gr_3mm and overall thickness  0.003
 In category general constructions also shown in menus as: steel_gr_3mm
steel_gr_3mm is a 3mm beige steel panel
 
 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 ( 34) is     13.03
 
 Details of opaque construction: PH_alu_frame and overall thickness  0.079
 In category general constructions also shown in menus as: PH_alu_frame
PH_alu_frame is a set of layers representing a PH framing system
 
 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 ( 35) is      0.00
 
 Details of opaque construction: file_papers and overall thickness  0.300
 In category general constructions also shown in menus as: file_papers
file_papers  represents paper within 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 ( 36) is      0.95
 
 Details of opaque construction: booksonshlf and overall thickness  0.210
 In category general constructions also shown in menus as: booksonshlf
booksonshlf represents paper-back books on a shelf
 
 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 ( 37) is      0.00
 
 Details of opaque construction: stuffonshelf and overall thickness  0.210
 In category general constructions also shown in menus as: stuffonshelf
stuffonshelf repreents a mix of papter types on a shelf
 
 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 ( 38) is      9.30
 
 Details of opaque construction: hvac_case and overall thickness  0.031
 In category general constructions also shown in menus as: hvac insulated case
steel case for HVAC with 25mm insulation
 
 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    50.000  7800.   502. 0.12 0.20  19200.  0.00  23.4 steel : Steel
    2   25.0     0.050    12.  1000. 0.90 0.70     30.  0.50   0.3 Min wool quilt k 0.05 tb : Quilt (Min wool quilt k=0.05) (non-hygroscopic)
 Int     3.0    50.000  7800.   502. 0.12 0.20  19200.  0.00  23.4 steel : Steel
 ISO 6946 U values (horiz/upward/downward heat flow)=  1.492  1.562  1.408 (partition)  1.316
 Weight per m^2 of this construction   47.10
Kappa (thermal mass value)    23.5
 Total area of hvac_case ( 39) is      5.88
