期刊文献+

CO_2二元混合物压缩/引射制冷循环性能研究 被引量:6

Performance of binary mixture of CO_2 in compression/ejection refrigeration cycle
下载PDF
导出
摘要 引入CO_2混合物以及利用压缩/引射制冷循环,能有效提高其系统循环效率。建立了两相流引射器系统,采用均相流的索科洛夫理论、Eames等理论及热力学方法中两相流引射器模型进行分析,通过与文献中的实验结果对比,确定热力学方法在两相流引射器的设计计算中较为接近实际。基于热力学方法对CO_2/R32(质量比40/60)、CO_2/R41(质量比20/80)两类二元非共沸混合工质压缩/引射制冷循环系统的效率进行分析,发现带引射器比不带引射器时效率分别提高了30%和20%,而且通过引入混合物改善物性后的系统效率可以比纯工质CO_2系统效率提高50%以上,同时证明了CO_2/R32的效果要好于CO_2/R41。 The mixture of CO2 and compression/ejection refrigeration cycle can increase the system efficiency of CO2. This system which was about two phase flow ejector system was established and analyzed by theory of Sokurov, theory of Eames etc. and two phase flow ejector model from thermodynamics method. After comparing with the results in the literature, the thermodynamics method was proved to be more close to the truth in design and calculate method for the ejector of two-phase flow. Thermodynamics method was used for analysing the ejector in compression/ejection refrigeration cycle which working medium were binary non-azeotropic mixed refrigerants CO2/ R32 (mass ratio 40/60 ) and CO2/R41 (mass ratio 20/80 ). The comparisons show that the efficiency of the system with ejector is respectively 30% and 20% higher than the one without ejetor. The system efficiency which is increased by using mixed refrigerants for improving physical properties is more than 50% higher than the one of simple substance CO2 and CO2/R32 is better than CO2/R41.
出处 《化学工程》 CAS CSCD 北大核心 2017年第8期27-32,共6页 Chemical Engineering(China)
基金 国家自然科学基金资助项目(51176133) CO2热泵型电动汽车空调系统研究(16YFZCGX00080)
关键词 两相流引射器 引射系数 CO2/R32 CO2/R41 二元混合物 two phase ejector ejector coefficient CO2/R32 CO2/R41 binary mixture
  • 相关文献

参考文献5

二级参考文献31

  • 1徐海涛,桑芝富,顾斌,柴宁,徐卫东.蒸汽喷射真空泵性能的CFD模拟研究[J].高校化学工程学报,2005,19(1):22-29. 被引量:26
  • 2范晓伟,阴建民,刘海峰,陈钟颀.一种新型蒸气压缩/喷射混合制冷循环的探讨[J].西安交通大学学报,1996,30(5):5-11. 被引量:17
  • 3P Chaiwongsa, S Wongwises. Experimental study on R-134a refrigeration system using a two-phase ejector as an expansion device[J].Applied Thermal Engineering, 2008, 28 (5) : 467-477.
  • 4P Chaiwongsa, S Wongwises. Effect of throat diameters of the ejector on the performance of the refrigeration cycle using a two-phase ejector as an expansion device[J]. Int. J. Refrigeration, 2007, 30 (4) : 601-608.
  • 5J S Lee, M SKim, M SKim. Experimental study on the improvement of CO2 air conditioning system performance using an ejector[J] . Int. J. Refrigeration, 2011, 34 (7): 1614-1625.
  • 6M Nakagawa, A R Marasigan, T Matsukawa, et al. Experimental investigation on the effect of mixing length on the performance of two-phase ejector for CO2 refrigeration cycle with and without heat exchanger [J]. Int.J. Refrigeration, 2011,34 (7) :1604-1613.
  • 7Jahar Sarkar,Neeraj Agrawal.Performance optimization of transcritical CO 2 cycle with parallel compression economization[J].International Journal of Thermal Sciences.2009(5)
  • 8Honghyun Cho,Changhyun Baek,Chasik Park,Yongchan Kim.Performance evaluation of a two-stage CO 2 cycle with gas injection in the cooling mode operation[J].International Journal of Refrigeration.2008(1)
  • 9Luca Cecchinato,Manuel Chiarello,Marco Corradi,Ezio Fornasieri,Silvia Minetto,Paolo Stringari,Claudio Zilio.Thermodynamic analysis of different two-stage transcritical carbon dioxide cycles[J].International Journal of Refrigeration.2008(5)
  • 10Neeraj Agrawal,Souvik Bhattacharyya.Studies on a two-stage transcritical carbon dioxide heat pump cycle with flash intercooling[J].Applied Thermal Engineering.2006(2)

共引文献25

同被引文献32

引证文献6

二级引证文献23

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部