References

[1] Harvey, F. 2016. Engineers warn of looming UK energy gap. [online] Available at: http://www.theguardian.com/environment/2016/jan/26/engineers-warn-of-looming-uk-energy-gap [2] Stacey, K. and Correspondent, E. 2016. Industry boss warns on electricity supply crisis. [online] Available at: http://www.ft.com/cms/s/0/aa73555e-6c35-11e5-8171-ba1968cf791a.html#axzz45KZadzgg [3] U.S. Energy information administration. 2015. United Kingdom - international - analysis -. [online] Available at: http://www.eia.gov/beta/international/analysis.cfm?iso=GBR [4] Biomass Energy Centre, 2013. UK biomass power stations. [pdf] Available at: http://www.biomassenergycentre.org.uk/pls/portal/docs/PAGE/BEC_TECHNICAL/REF_LIB_TECH/EXISTING%20INSTALLATIONS/UK%20BIOMASS%20POWER%20STATIONS%20V1.4%20MARCH%202013.PDF [5] Chen, H., Cong, T.N., Yang, W., Tan, C., Li, Y., Ding, Y. 2009. "Progress In Electrical Energy Storage System: A Critical Review". Progress in Natural Science 19(3) p. 291-312. [6] Gil, A., Medrano, M., Martorell, I., Lazaro, A., Dolado, P., Zalba, B., Cabeza, L.F., 2010. State Of The Art On High Temperature Thermal Energy Storage For Power Generation. Part 1—Concepts, Materials And Modellization. Renewable and Sustainable Energy Reviews 14(1) p. 31-55. [7] Medrano, M., Gil, A., Martorell, I., Potau, X., Cabeza, L.F. 2010. State Of The Art On High-Temperature Thermal Energy Storage For Power Generation. Part 2—Case Studies. Renewable and Sustainable Energy Reviews 14(1) p. 56-72. [8] Steinmann, W.d., Eck, M. 2006. Buffer Storage For Direct Steam Generation. Solar Energy 80(10) p. 1277-1282. [9] Stevanovic, V.D., Maslovaric, B., Prica, S. 2012. Dynamics of steam accumulation. Applied Thermal Engineering 37. pp, 73-79 [10]Spirax Sarco International, 2016. Steam Accumulators. [online] Available at: < http://www.spiraxsarco.com/Resources/Pages/Steam-Engineering-Tutorials/the-boiler-house/steam-accumulators.aspx#close> [11] Cordaro, J.G., Rubin, N.C. and Bradshaw, R.W., 2011. Multicomponent molten salt mixtures based on nitrate/nitrite anions. Journal of Solar Energy Engineering, 133(1), p.011-014. [12] Brosseau, D.A., Hlava, P.F., Kelly, M.J., 2004. Testing Thermocline Filler Materials and Molten-Salt Heat Transfer Fluids for Thermal Energy Storage Systems Used in Parabolic Trough Solar Power Plants. California: Sandia National Laboratories. [13] Tamme, R., 2010. Optimised Industrial Process Heat and Power Generation with Thermal Energy Storage. [pdf] IEA ECES. Available at: http://www.iea-eces.org/files/annex_19_finalreport-07-2010.pdf [Accessed 10 May 2016]. [14] IEA-ETSAP, IRENA, 2013. Thermal Energy Storage: Technology Brief. [pdf] Available at: https://www.irena.org/DocumentDownloads/Publications/IRENA-ETSAP%20Tech%20Brief%20E17%20Thermal%20Energy%20Storage.pdf [15]Cunha, J. 2015. Medium Temperature Latent Heat Storage with Phase Change Materials. [pdf] Available at: http://www.i-stute.org/Other%20files/Progress%20MC%20June%202015/MC%20presentation%2029th%20June%202015%20-%20Jose.pdf [16] Madsen, C.K., Liu, Y., Huang, R., Mathew, A., O'Meara, T., Anguiano, M., Prakash, V.Y., Eze, C., Dogra, A., Mai, D. 2013. A Low Cost and Efficient Solar-Thermal System. [pdf] Available at: https://engineering.tamu.edu/media/610286/team_5_spring_2013_poster_2.pdf [17] Biomass Energy Centre, 2008. Short rotation coppice. [online] Available at: http://www.biomassenergycentre.org.uk/portal/page?_pageid=75,18092&_dad=portal&_schema=PORTAL [18] Bacenetti, J., Pessina, D., Fiala, M. 2016. Environmental assessment of different harvesting solutions for short rotation coppice plantations. Science of the Total Environment. 541. p. 210-217 [19] Barontini, M., Scarfone, A., Spinelli, R., Gallucci, F., Santangelo, E., Acampora, A., Jirjis, R., Civitarese, V., Pari, L. 2014. Storage dynamics and fuel quality of poplar chips. Biomass and Bioenergy. 62. p. 17-25 [20] Scottish Agricultural College. 2009. Willow Short Rotation Coppice: Is it commercially viable?. [pdf] Available at: http://www.sruc.ac.uk/download/downloads/id/103/willow_short_rotation_coppice_2008 [21] Stephenson, A.L., Dupree, P., Scott, S.A., Dennis, J.s., 2010. The environmental and economic sustainability of potential ethanol from willow in the UK. Bioresource Technology. 101. p. 9612-9623 [22] The Moray Council. Native Trees- Characteristics, Tolerances & Site Suitability. [pdf] Available at: http://www.moray.gov.uk/downloads/file58111.pdf [23] Lindegaard, K. Crops for Renewable Heat: SRC, SRF, SIDA, Agric. Residues & waste streams. [pdf] Available at: https://www.regensw.co.uk/7283018298372873/wp-content/uploads/2015/07/Kevin-Lindegaard_Crops-for-Energy_Crops-for-Heat_300615.pdf [24] Farming UK. FEED WHEAT 2011-2016. [online] Available at: http://www.farminguk.com/MarketData/Cereals/FEED-WHEAT-2011-2016-_18.html [25] Roser, D., Sikanen, L., Asikainen, A., Parikka, H., Vaatainen, K. 2011. Productivity and cost of mechanized energy wood harvesting in Northern Scotland. Biomass & Bioenergy. 35. p. 4570-4580 [26] Department of Energy & Climate Change. 2014. Life cycle impacts of biomass electricity in 2020. [online] Available at: https://www.gov.uk/government/publications/life-cycle-impacts-of-biomass-electricity-in-2020 [27] Scottish Natural Heritage. 2013. Onshore Wind Farms in Scotland. [pdf] Available at: http://www.snh.gov.uk/docs/A1055080.pdf [28] Soils Scotland. 2016. Soil maps - Scotland’s soils. [online] Available at: http://www.soils-scotland.gov.uk/data/soils [29] Digimap. ND. Home page. [online] Available at: http://digimap.edina.ac.uk/ [30] Fenton, F. 2010. The Importance of Scottish Blanket Peat in Carbon Storage: Visual comparison of peat stored in blanket peat and commercial forest. [pdf] Available at: http://www.james-hc-fenton.eu/Downloads/CarbonStoreComparisonPeat&Forests.pdf [31] Biomas combustion science, technology and engineering. Edited by Lasse Rosendahl. Woodhead Publishing Limited, 2013.