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26 Advances in Thermal Energy Storage Systems Acknowledgements The work is partially funded by the Spanish government (ENE2011-28269-C03-02 and ENE2011-22722). The authors would like to thank the Catalan Government for the quality accreditation given to their research groups GREA (2009 SGR 534) and research group DIOPMA (2009 SGR 645). The work leading to this invention has received funding from the European Union’s Seventh Framework Programme (FP7/2007-2013) under grant agreement no. PIRSES-GA-2013-610692 (INNOSTORAGE). Laia Miró would like to thank the Spanish Government for her research fellowship (BES-2012-051861). References 1. Mehling, H. and Cabeza, L.F. (2008) Heat and Cold Storage with PCM: An Up to Date Introduction into Basics and Applications. Heidelberg, Berlin: Springer. 2. Dincer, I. and Rosen, M.A. (2002) Thermal energy storage (TES) methods. In: Dincer, I. and Rosen, M.A. (eds) Thermal Energy Storage: Systems and Applications, pp. 93–212. New York: John Wiley & Sons. 3. Cabeza, L.F. (2012) Thermal energy storage. In: Sayigh, A. (ed.) Comprehensive Renewable Energy, Vol. 3, pp. 211–253. Oxford: Elsevier. 4. Gil, A., Medrano, M., Martorell, I., Lazaro, A., Dolado, P., Zalba, B. and 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, 31–55. 5. Arce, P., Medrano, M., Gil, A., Oró, E. and Cabeza, L.F. (2011) ‘Overview of thermal energy storage (TES) potential energy savings and climate change mitigation in Spain and Europe’, Applied Energy, 88, 2764-2774. 6. Navarro, M.E., Martinez, M., Gil, A., Fernandez, A.I., Cabeza, L.F., Olives, R. and Py X. (2012) ‘Selection and characterization of recycled materials for sensible thermal energy storage’, Solar Energy Materials and Solar Cells, 107, 131–135. 7. Fernandez, A.I., Martinez, M., Segarra, M., Martorell, I. and Cabeza, L.F. (2010) ‘Selection of materials with potential in sensible thermal energy storage’, Solar Energy Materials and Solar Cells, 94, 1723–1729. 8. Zalba, B., Marín, J.M., Cabeza, L.F. and Mehling H. (2003) ‘Review on thermal energy storage with phase change: materials, heat transfer analysis and applications’, Applied Thermal Engineering, 23, 251–283. 9. Kato, Y. (2007) Chemical energy conversion technologies for efficient energy use. In: Paksoy, H.O. (ed.) NATO Sciences Series, II. Mathematics, Physics and Chemistry, Vol. 234: Thermal Energy Storage for Sustainable Energy Consumption: Fundamentals, Case Studies and Design, pp. 377–391. Dordrecht: Springer. 10. Michel, B., Mazet, N., Mauran, S., Stitou, D. and Xu, J. (2012) ‘Thermochemical process for seasonal storage of solar energy: characterization and modeling of a high density reactive bed’, Energy, 47, pp. 553–563. 11. Cot-Gores, J., Castell, A. and Cabeza, L.F. (2012) ‘Thermochemical energy storage and conversion: A-state-of-the-art review of the experimental research under practical conditions’, Renewable and Sustainable Energy Reviews, 16, 5207–5224.PDF Image | Introduction to thermal energy storage TES systems
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