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太阳能喷射式空调系统中喷射系数的计算方法的探讨 被引量:3

Discuss of the entrainment ratio calculation method in ejector air-conditioner system powered by solar energy
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摘要 喷射系数是喷射器最重要的性能参数之一,在喷射式空调系统中喷射系数的大小直接决定着太阳能喷射式空调系统的工作能力。通过研究发现,测得喷射器的进口、出口壁面的温度和压力,利用制冷剂工质的物性计算软件计算出测点的热工参数,根据热力学定律可以计算出喷射系数。通过喷射器的CFD模拟数据计算,并且把由质量流量计算的直接法所获得的喷射系数,与壁面测量法计算的间接法所获得的喷射系数进行了比较,比较结果验证了喷射系数的壁面测量法的可行性。 The entrainment ratio is one of the most important performance parameter. The value of the entrainment ratio affect the performance of the ejector air - conditioner system powered by solar energy. The thermodynamics parameters can be calculate by the measurement of the temperature and pressure on the wall of the ejector inlet and outlet. And based on the parameters, the ejector entrainment ratio can be achieved through the thermodynamics laws. The simulation of ejector with CFD technique was done. On the base of the simulation, the value of the entrainment ratio was gained by the direct calculation method of the mass flow; the value of the entrainment ratio was also gained by the indirect calculation method of the temperature and pressure measurement. The result of the two different calculation method was compared, and the comparison proved the feasibility of the indirect calculation method.
作者 陶乐仁 王永红 王金锋 郑志皋 黄理浩
机构地区 上海理工大学动力学院低温研究所 特灵空调系统(中国)有限公司上海分公司
出处 《低温与超导》 CAS CSCD 北大核心 2009年第6期37-40,共4页 Cryogenics and Superconductivity
基金 国家高技术研究发展计划(2008AA05Z204)资助
关键词 喷射系数 可用能 空调系统 温度测量 压力测量 Entrainment ratio, Energy, Air - conditioner system, Temperature measurement, Pressure measurement
分类号 TQ027.1 [化学工程] TH451 [机械工程—机械制造及自动化]
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参考文献5

  • 1Kanjanapon Chunnanond, Satha Aphomratana. Ejectors : applications in refrigeration technology [ J ]. Renewable and sustainable energy reviews, 2004, 8 : 129 - 155.
  • 2Wimolsiri Pridasawas. Solar - driven refrigeration systems with focus on the ejector cycle [ D ]. Stockholm: Royal Institute of Technology, KTH, 2006.
  • 3Yu Jianlin, Chen Hua, Ren Yunfeng, et al. A new ejector refrigeration system with an additional jet pump [J]. Int. J. Refrig. , 2006, 26:312-319.
  • 4Huang B J, Chang J M, Wang C P, et al. A 1 - D analysis of ejector performance [ J ]. Int. Refrig. , 1999, 22 : 354 - 364.
  • 5Yapiei R, Yetisen C C. Experimental study on ejector refrigeration system powered by low grade heat[ J]. Energy Conversion and Management. 2007, 48 : 1 560 - 1 568.

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低温与超导
2009年 第6期

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