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一种冷凝热分级利用复合型溶液除湿空调系统性能分析 被引量:3

Performance Analysis of a Hybrid Liquid Desiccant Air-Conditioning System with Sectional Utilization of Condensation Heat
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摘要 基于蒸汽压缩式制冷系统冷凝热和太阳能作为溶液再生过程热源的利用,构建了一种新型高效的冷凝热分段利用复合型溶液除湿空调系统,并采用ε-NTU模型对系统进行了理论分析.研究了室内显热负荷比、室外空气状态及新风比对系统性能的影响,并与未利用冷凝热的传统溶液除湿空调系统进行对比,得到系统节能的特性,即使在使用电加热辅助溶液再生时,系统性能仍然优于未利用冷凝热的溶液除湿系统,尤其在ta、RH较小时,系统性能提升更大. In this paper, the condensation heat of vapor compression refrigeration system and solar energy are used as auxiliary heat source in the solution regeneration process. A novel hybrid liquid desiccant air conditioning system is established with efficiently sectional utilization of condensation heat. Theε-NTU model is used to conduct the theoretical analysis of the system. The paper studies the effects of indoor sensible heat load ratio,outdoor air condition as well as fresh air ratio on the performance of the system,and compared the results with the conventional liquid desiccant air con-ditioning system which does not utilize condensation heat as auxiliary heat source. It is concluded that even if electrical energy is used to assist regenerating solution, the system’s performance is better than that of the conventional system without utilization of condensation heat. The promotion will be more especially when ta and RH are relatively little.
出处 《南京师范大学学报(工程技术版)》 CAS 2014年第3期33-42,共10页 Journal of Nanjing Normal University(Engineering and Technology Edition)
基金 江苏省自然科学基金(BK2011791)
关键词 热湿独立处理空调系统 溶液除湿 蒸汽压缩式制冷 ε-NTU模型 性能分析 temperature and humidity independent control air-conditioning system liquid desiccant vapor compression refrigeration ε-NTU performance analysis
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  • 1江亿.我国建筑能耗趋势与节能重点[J].建设科技,2006(7):10-13. 被引量:112
  • 2Niu Xiaofeng,Xiao Fu, Ge Gaoming. Performance analysis of liquid desiccant based air-conditioning system under variable fresh air ratios[ J]. Energy and Buildings,2010,42(12) :2 457-2 464.
  • 3Zhang Li, Dang Chaobin, Hihara Eiji. Performance analysis of a no-frost hybrid air conditioning system with integrated liquid desiccant dehumidification[ J ]. International Journal of Refrigeration 2010,33 ( 1 ) : 116-124.
  • 4Lof G 0 G. Cooling with solar energy [ C ]//Congress on Solar Energy. Tucson, USA, 1955 : 171 - 1 $9.
  • 5Howell J R, Peterson J L. Preliminary performance evaluation of a hybrid vapor compression/liquid desiccant air conditioning system [ C ]//ASME Paper 86-WA/sol. 9. Anaheim, California, 1986.
  • 6Yadav Y K. Vapour-compression and liquid-desiccant hybrid solar space conditioning system for energy conservation [ J ]. Renewable Energy, 1995,6 ( 7 ) : 719- 723.
  • 7Khalil A. An experimental study on muhi-purpose desiccant integrated vapor-compression air conditioning system [ J ].International Journal of Energy Research,2012,36 (4) : 535-544.
  • 8Kaushik S C, Singh M. Feasibility and design studies for heat recovery from a refrigeration system with a canopus heat exchanger [ J ]. Heat RecovSyst C HP, 1995,15 (7) :665-673.
  • 9Adran A Kinsara, Moustafa M Elsayed, Omer M Al-Rabghi. Proposed energy efficient air conditioning system using liquid desiccant [ J ]. Applied Thermal Engineering, 1996,16 (10) :791-806.
  • 10Conde M R. Properties of aqueous solutions of lithium and calcium chlorides: formulations for use in air conditioning equipment design [ J ]. Int J Therm Sci,2004,43 (4) : 367-382.

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