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The industrial sectors covered in this chapter are too diverse to facilitate the level of development expenditure required to bring a new fluid to market. It therefore can be stated that, if any new development gains market share in industrial systems, it will be a fluid developed for some other purpose, either as a refrigerant in smaller mass-market systems or as a foam-blowing agent, solvent or other speciality chemical. Apart from absorption systems there is no significant growth of other not-in-kind cooling or heating solutions. 5.8 References Adams, G., Moore, D. 2008. A Cooling Case Study Heathrow Terminal 5 Ammonia Chillers, Proc. Inst. R. 2008-09, 4-1, The Institute of Refrigeration, London, UK Anonymous, 2010. Resolution on Sustainable Refrigeration, The Consumer Goods Forum, Paris Anderson, K. 2017. Ammonia safety, a global perspective, Technion Ammonia Conference, November 2017, Israel ASHRAE, 2009. Design Considerations for Datacom Equipment Centers, Second Edition, ASHRAE TC9.9, Atlanta ASHRAE, 2010. Refrigeration Handbook, chapter 3, Atlanta Averfalk, H., Ingvarsson, P., Persson, U., Gong, Mei, Werner, S. 2017. Large heat pumps in Swedish district heating systems, Renewable and Sustainable Energy Reviews 79 (2017) 1275- 1284. Bailer P. and Pietrucha, U., 2006. Design And Application of Ammonia Heat Pump Systems For Heating And Cooling Of Non-Residential Buildings, 10th International Symposium on District Heating and Cooling, Hannover Bantle, M., 2017. Turbo-compressors: Prototype test of mechanical vapour re-compression for steam driers. 12th IEA Heat Pump Conference 2017, Rotterdam Brasz, J., 2008. Assessment of C6F as a working fluid for Organic Rankine Cycle Applications, Int. Conf. on Refrigeration and Air-Conditioning, Purdue University Brown,A. H., 1991. Return to Ammonia?, Institute of Refrigeration, UK, London Calm, J.M., 2011. Refrigerants for deep mine refrigeration, Proc. IIR Congress, Prague Gadd, H., Werner, S., 2014. Achieving low return temperatures from district heating substations, Applied Energy 136 (2014) 59-67 Colibri, 2017. Ammonia Absorption Technology. Company presentation of absorption technology and reference list https://colibris.home.xs4all.nl/pdf_documents/english_docu/absorption_refrigeration_en.pdf CRAA, 2012. Survey of Refrigerant consumption for Industrial Refrigeration in China, CRAA, Beijing David,A., Mathiesen, B.V., Averfalk, H., Werner, S., Lund, H. 2017. Heat Roadmap Europe: Large-scale Electric Heat Pumps in District Heating Systems, Energies 2017, 10, 578; doi:10.3390/en10040578 Gulanikar, A.D., 2013. Energy Conservation in Ammonia Refrigeration System Installed for Meat Processing Unit in India, Proc 5th Ammonia Refrigeration Technology Conf., IIR, Ohrid Hodnebrog, Ø., Etminan, M., Fuglestvedt, J. S., Marston, G., Myhre, G., Nielsen, C. J., Shine, K. P., Wallington, T. J., 2013. Global Warming Potentials and Radiative Efficiencies of 2018 TOC Refrigeration, A/C and Heat Pumps Assessment Report 115PDF Image | Heat Pumps Technical Options
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CO2 Organic Rankine Cycle Experimenter Platform The supercritical CO2 phase change system is both a heat pump and organic rankine cycle which can be used for those purposes and as a supercritical extractor for advanced subcritical and supercritical extraction technology. Uses include producing nanoparticles, precious metal CO2 extraction, lithium battery recycling, and other applications... More Info
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