太阳能吸附除湿制冷的置换通风系统

张鹏; 王浚

太阳能吸附除湿制冷的置换通风系统

张鹏,
王浚

北京航空航天大学飞行器设计与应用力学系, 北京 100083

详细信息

中图分类号: TK 123
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- 被引次数: 0
出版历程
- 收稿日期: 2002-06-07
- 网络出版日期: 2003-08-31

Displacement ventilation system using solar energy desiccant cooling technology

Dept. of Flight Vehicle Design and Applied Mechanics, Beijing University of Aeronautics and Astronautics, Beijing 100083, China

摘要

摘要: 根据现今空调的发展方向,介绍了一种新兴的通风方式——置换通风系统,论述了其原理及结合冷却顶板后的热舒适性条件．针对目前能源危机和生态环境恶化的状况,提出了基于太阳能吸附除湿制冷的置换通风送风系统．阐述了两者结合的节能、环保、创造热舒适环境的特性．
- 太阳能 /
- 节能 /
- 舒适性 /
- 置换通风 /
- 吸附除湿制冷系统
Abstract: Based on the development trend of the current air conditioning, a new mode of ventilation-displacement ventilation is introduced, not only the principle of this ventilation system but also the thermal comfort conditions of the ventilation system combined with cooled ceiling.According to the current situation of energy crisis and ecological environment deterioration, a displacement ventilation air supply system is presented based on solid desiccant cooling cycles using solar energy, and the properties of the combination of the two systems are expounded in terms of energy conservation, environmental protection and thermal comfort ambient creation.
- solar energy /
- energy conservation /
- comfortableness /
- displacement ventilation /
- desiccant cooling system

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参考文献(1)

[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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