Citation: | Zhang Pong, Wang Jun. Displacement ventilation system using solar energy desiccant cooling technology[J]. Journal of Beijing University of Aeronautics and Astronautics, 2003, 29(8): 713-716. (in Chinese) |
[1] 孟广田,李强民.置换通风的热舒适分析与评价[J] 建筑热能通风空调,2000,19(1):21~22 Meng Guangtian, Li Qiangmin. Analysis and evaluation on thermal comfort of replacement ventilation[J] Building Energy and Environment, 2000, 19(1):21~22(in Chinese) [2] 张行周,王 浚.置换通风与冷却顶板相结合的空调系统[J] 流体机械,2002,30(1):54~56 Zhang Xingzhou, Wang Jun. A combined air-conditioning system of displacement ventilation and cooled ceiling[J] Fluid Machinery, 2002, 30(1):54~56(in Chinese) [3] 朱 能,刘 珊.置换通风与冷却顶板的热舒适性研究[J] 制冷学报,2000,(4):64~70 Zhu Neng,Liu Shan.Thermal comfort with displacement ventilation combined with chilled ceiling system[J] Journal of Refrigeration,2000,(4):64~70(in Chinese) [4] 钱文明,陈 跃.太阳能空调制冷技术及其应用[J] 家用电器科技,1995,(1):16~18 Qian Wenming,Chen Yue.Solar air-conditioning system technique and its application[J] Science and Technology of Household Electric Appliance,1995,(1):16~18(in Chinese) [5] Jurian J,Michell J W,Beekman W A.Open cycle desiccant air conditioning as an alternative to vapor compression cooling residential applications[J] J of Solar Energy Engineering,1984,106:252~260 [6] Zheng W,Worek W M,Novosel D.Performance optimization of rotary dehumidifiers[J] J of Solar Energy Engineering,1995,117:40~46 [7] Kangand T S,Maclaine-cross I L.High performance solid desiccant open cooling cycles[J] Trans of the ASME,1989,111(5):176~180 [8] Schultz K.An analysis of a direct radiation solar dehumidification system[J] J of Solar Energy Engineering,1987,109:15~21 [9] Henning H-M,Erpenbeck T,Hindenburg C,et al.The potential of solar energy use in desiccant cooling cycles[J] International Journal of Refrigeration,2001,24:220~229 [10] Mazzei P,Minichiello F,Palma D.Desiccant HVAC systems for commercial buildings[J] Applied Thermal Engineering,2002,22:545~560 [11] Juriank J.Open cycle solid desiccant cooling-component modes and systems simulations[J] J of Solar Energy Engineering,1982,104:252~260 [12] Maclaine-cross I L.High performance adiabatic desiccant open cooling-cycles[J] J of Solar Energy Engineering,1985,107:102~104 [13] Wangaman D G,Kini A,Kettleborough C F.A review of desiccant cooling system[J] J of Energy Resource Technology,1993,115(3):1~6 [14] Collier R K,Barlow R S,Arnold F H.An overview of open-cycle desiccant-cooling systems and materials[J] Trans of the ASME,1982,104(2):28~33 [15] 王全学,冯 毅,汪立军,等.吸附除湿制冷空调系统的研究现状及发展趋势[J] 制冷学报,1997,(4):33~39 Wang Quanxue,Feng Yi,Wang Lijun,et al.Present status and tendency of the desiccant cooling cycle[J] Journal of Refrigeration,1997,(4):33~39(in Chinese)
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