IEA Solar Heating and Cooling Programm - NachhaltigWirtschaften.at

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IEA SHC Task 38 Solar Air Conditioning and Refrigeration Subtask C1 Report, 31 October 2010 Relevant publications: [132] Bourdoukan, P., Wurtz, E., Joubert, P. (2009). "Comparison between the conventional and recirculation modes in desiccant cooling cycles and deriving critical efficiencies of components”. Energy an international journal, in press Corrected proof. [133] Bourdoukan, P., Wurtz, E., Joubert, P. (2009). "Experimental investigation of a solar desiccant cooling system" Solar Energy, accepted for publication CEA-INES Research: CEA-INES is investigating a new desiccant exchanger cooled by water besides some model development for desiccant wheel. Corresponding researchers: Philippe Papillon: philippe.papillon@cea.fr François Boudéhenn: francois.boudehenn@cea.fr Relevant publications: [134] Clausse M., Meunier F., Perigaud Y., Boudehenn F. & Demasles H., Experimental characterisation of a novel adsorber heat exchanger for desiccant cooling applications, Article, 22nd IIR International Congress of Refrigeration, Beijing (Chine), 21-26 August 2007. [135] Demasles H., Boudehenn F. & Clausse M., Numerical and experimental studies of a novel adsorber heat exchanger for desiccant solar air conditioning, Article, 2nd International Conference Solar Air-Conditioning, Tarragone (Espagne), 18-19 October 2007. [136] Boudehenn F. & Burgun F., Technical analysis of desiccant cooling systems, Article, 2nd Workshop of EMINENT project, Weszprem (Hongrie), 05-06 May 2008. [137] Clausse M., Meunier F., Perigaud Y., Boudehenn F. & Demasles H., Experimental investigation and building integration of a novel adsorber heat exchanger for solar desiccant cooling applications, article, International Sorption Heat Pump Conference 2008, Seoul (Corée), 23-26 September 2008. CETHIL-INSA Lyon Research: CETHIL developed mainly numerical model for desiccant cooling systems Corresponding researchers: Jean Brau: jean.brau@insa-lyon.fr Relevant publications: [138] Thibaut Vitte, Jean Brau, Nadège Chatagnon and Monika Woloszyn, “Proposal for a new hybrid control strategy of a solar desiccant evaporative cooling air handling unit”, Energy and Buildings, In Press, Corrected Proof , Available online 25 July 2007. EDF, Electricité de France Research: In association with CETHIL, EDF research domain is the simulation of desiccant cooling systems. Corresponding researcher: Nadège Chatagnon: nadege.chatagnon@edf.fr China In China, some research institutes have conducted extensive investigation work on solid desiccant cooling systems. Information about these institutes is listed below: page 57

IEA SHC Task 38 Solar Air Conditioning and Refrigeration Subtask C1 Report, 31 October 2010 Shanghai Jiao Tong University Research: carried out lots of investigations in the past years relating to desiccant cooling systems, such as desiccant material, construction of solid desiccant wheel and desiccant cooling system. Corresponding researchers: Prof. Ruzhu Wang (rzwang@sjtu.edu.cn ) Prof. Yanjun Dai (yjdai@sjtu.edu.cn ). Relevant publications: [139] X.J. Zhang. Study on Dehumidification Performance of Silica Gel-Haloid Composite Desiccant Wheel. PhD Thesis, Shanghai Jiao Tong University, Shanghai, China; 2003 [in Chinese]. [140] C.X. Jia, Y.J. Dai, J.Y. Wu, R.Z. Wang. Experimental comparison of two honeycombed desiccant wheels fabricated with silica gel and composite desiccant material, Energy Conversion and Management 2006, 47(15-16): 2523-2534. [141] C.X. Jia, Y.J. Dai, J.Y. Wu, R.Z. Wang. Use of compound desiccant to develop high performance desiccant cooling system, International Journal of Refrigeration 2007, 30(2): 345-353. [142] C.X. Jia, Y.J. Dai, J.Y. Wu, R.Z. Wang, Analysis on a hybrid desiccant air-conditioning system, Applied Thermal Engineering 2006, 26(17-18):2393-2400. [143] Ge TS, Li Y, Wang RZ, Dai YJ. Experimental study on a two-stage rotary desiccant cooling system. International Journal of Refrigeration 2009; 32 (3): 498-508. [144] Ge TS, Dai YJ, Wang RZ, Li Y. Experimental investigation on a one-rotor two-stage desiccant cooling system. Energy 2008; 33 (12): 1807-15. [145] K. Daou, R.Z. Wang, Z.Z. Xia. Desiccant cooling air conditioning: a review. Renewable and Sustainable Energy Reviews 2006, 10(2): 55-77. [146] Y.J. Dai, R.Z. Wang, Y.X. Xu. Study of a solar powered solid adsorption desiccant cooling system used for grain storage, Renewable Energy 2002, 25(3): 417-430. South China University of Technology Research: investigated lots of different desiccant materials. Corresponding researcher: Prof. Jing Ding (cejding@scut.edu.cn ). Relevant publications: [147] J. Ding, X.X. Yang, G.Q. Li, S.Z. Liang, Y.K. Tan. Sorption equilibrium of microporous active silica gel and the effect of sorption properties on the performance of the desiccant rotary dehumidifiers, Chemical Engineering 1998, 26:11-13. (in Chinese). Beijing University of Aero & Astro Research: conducted some work on solid desiccant cooling systems recently. Corresponding researcher: Weixing Yuan (yuanwx@buaa.edu.cn ). Relevant publications: [148] W.X. Yuan, Y. Zheng, X.R. Liu, X.G. Yuan. Study of a new modified cross-cooled compact solid desiccant dehumidifier. Applied Thermal Engineering 2008, 28(17-18): 2257-2266. page 58

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