期刊文献+

CO2跨临界水-水热泵系统实验研究 被引量:3

Experimental study on transcritical CO2 water to water heat pump system
原文传递
导出
摘要 对CO2跨临界水-水热泵系统进行研究,并搭建实验台进行测试:系统中添加回热器与否的两种情况下,通过改变蒸发温度、冷冻水的流量和温度、冷却水的流量和温度,测试系统的制热系数COPh和制冷系数COP。结果表明,蒸发温度升高,系统的COPh、COP也随之增加;而冷冻水流量增加,系统的COPh、COP增加不明显;增加回热器后随着冷冻水温度升高,系统COPh和COP上升趋势显著;冷却水流量增加对系统性能的影响很大;随着冷却水温度的升高,系统的换热量降低,导致系统的COPh和COP随之降低。通过以上实验证明在相同的工况下,添加回热器可提高系统的性能。 In this paper, transcritical CO2water to water heat pump system was experimentally studied and an experimental bench was set up for experimental testing. In the case of a regenerator and no regenerator in the system, the heating coefficient COPh and the COP of the system were tested by changing the evaporation temperature, chilled water flow, chilled water temperature, cooling water flow and cooling water temperature. The experimental results show that as the evaporation temperature increases, the system COPh and COP also increase;With the increase of chilled water flow, there is no obvious increase in COPh and COP of the system;As the temperature of chilled water increases, the COPh and COP increase significantly after the system increases the regenerator;The increase of the cooling water flow has a great influence on the system performance, the system heating and cooling capacities increase significantly;With the increase of the cooling water temperature, the heat exchange capacity of the system decreases, resulting in a decrease of the COPh and COP of the system. Through the above experiments, under the same working conditions, adding a regenerator can improve the performance of the system.
作者 杨俊兰 吴依彤 王晨曦 李佳伟 Yang Junlan;Wu Yitong;Wang Chenxi;Li Jiawei(School of Energy and Safety Engineering,Tianjin Chengjian University,Tianjin 300384,China)
出处 《低温与超导》 CAS 北大核心 2020年第4期79-84,共6页 Cryogenics and Superconductivity
基金 天津市自然科学基金项目(17JCZDJC31400) 天津市科技特派员项目(16JCTPJC52800)。
关键词 CO2跨临界水-水热泵系统 性能系数 回热器 实验研究 Transcritical CO2water to water heat pump system Coefficient of performance Regenerator Experimental study
  • 相关文献

参考文献5

二级参考文献43

  • 1Gustav Lorentzen. Revival of carbon dioxide as a refrigerant[J].International Journal of Refrigeration, 1994, 17 (5) :292-301.
  • 2Hirao T, Mizukami H, Takeuchi M, et al. Development of air conditioning system using CO2 for automobile [C]// The Proceedings of the 4th Ⅱ R-Gustav Lorentzen Conference on Natural Working Fluids. Purdue: Purdue University, 2000: 193-200.
  • 3Cavallini A, Corradi M, Fomasieri E, et al. Experimental investigation on the effect of the internal heat exchanger and intercooler effectiveness on the energy performance of a two-stage transcritical carbon dioxide cycle[C] // The Proceedings of the 22nd International Congress of Refrigeration. Beijing, 2007: 1-8.
  • 4Neeraj Agrawal, Souvik Bhattacharyya. Non-adiabatic capillary tube flow of carbon dioxide in a transcritical heat pump cycle [ J ] . Energy Conversion and Management, 2007,48 : 2491-2501.
  • 5Chen Ying, Gu Junjie. The optimum high pressure for CO2 transcritical refrigeration systems with internal heat exchangers[J].International Journal of Refrigeration, 2005,28 : 1238-1249.
  • 6Lee Tzong-Shing, Liu Cheng-Hao, Chen Tung-Wei. Thermodynamic analysis of optimal condensing temperature of cascade-condenser in CO2-NH3 cascade refrigeration systems [J].International Journal of Refrigeration, 2006, 29 : 1100-1108.
  • 7Skaugen G, Neksa P, Pettersen J. Simulation of trans -critical CO2 vapor compression systems [ M ]. In: Xu ZZ, Fan JJ, Huang W, editors. Preliminary Pro- ceedings of the 5'h IIR - Gustav Lorentzen Conference on Natural Working Fluids at Guangzhou. China: Guangdong Provincial Association of Refrigeration, 2002 : 68 -75.
  • 8Wang JF, Hihara E. Performance comparison of heat pump water heaters using carbon dioxide and R22 as refrigerants [ M ]. In: Xu ZZ, Fan J J, Huang W, edi- tors. Preliminary Proceedings of the 5th IIR - Gustav Lorentzen Conference on Natural Working Fluids at Guangzhou. China: Guangdong Provincial Association of Refrigeration, 2002 : 260-267.
  • 9Ortiz TM, Groll EA. Simulation of a 3 - ton residential CO2 air conditioner [ M ]. In : Xu ZZ, Fan JJ, Huang W, editors. Preliminary Proceedings of the 5'h IIR - Gustav Lorentzen Conference on Natural Working Flu- ids at Guangzhou. China: Guangdong Provincial Asso- ciation of Refrigeration, 2002.39- 46.
  • 10Sarkar J. Transcritical CO2 heat pump simulation mod- el and validation for simultaneous cooling and heating [J ]. World Academy of Science, Engineering and Technology 2008 ; 43 : 249-254.

共引文献40

同被引文献13

引证文献3

二级引证文献1

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