机械过冷CO2跨临界制冷循环性能理论分析
采用蒸气压缩制冷循环(辅助循环)对CO2跨临界制冷循环气体冷却器出口的CO2流体进行冷却,可减小节流不可逆损失,提高循环性能。本文对机械过冷CO2跨临界制冷循环进行热力学循环分析,结果表明:当在最优排气压力和最优过冷度两个参数条件下,循环存在最大COP。环境温度越高、蒸发温度越低,采用机械过冷方法使循环性能提升越显著,相对传统CO2制冷循环,通过辅助循环可显著提高循环COP,降低CO2排气压力和温度。相对CO2压缩机,辅助循环压缩机的功耗较少。分析了辅助循环中采用11种不同制冷剂的性能,可得除R41外,其它10种工质对循环整体COP的提升程度差异不明显。综上所述,机械过冷CO2跨临界制冷循环更...
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| Published in | 制冷学报 Vol. 39; no. 1; pp. 13 - 19 |
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| Main Author | |
| Format | Journal Article |
| Language | Chinese |
| Published |
天津商业大学天津市制冷技术重点实验室 天津300134%天津三电汽车空调有限公司 天津300385%天津市计量监督检测科学研究院 天津300192%天津大学热能研究所 天津300072
2018
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| Subjects | |
| Online Access | Get full text |
| ISSN | 0253-4339 |
| DOI | 10.3969/j.issn.0253-4339.2018.01.013 |
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| Abstract | 采用蒸气压缩制冷循环(辅助循环)对CO2跨临界制冷循环气体冷却器出口的CO2流体进行冷却,可减小节流不可逆损失,提高循环性能。本文对机械过冷CO2跨临界制冷循环进行热力学循环分析,结果表明:当在最优排气压力和最优过冷度两个参数条件下,循环存在最大COP。环境温度越高、蒸发温度越低,采用机械过冷方法使循环性能提升越显著,相对传统CO2制冷循环,通过辅助循环可显著提高循环COP,降低CO2排气压力和温度。相对CO2压缩机,辅助循环压缩机的功耗较少。分析了辅助循环中采用11种不同制冷剂的性能,可得除R41外,其它10种工质对循环整体COP的提升程度差异不明显。综上所述,机械过冷CO2跨临界制冷循环更适用于环境温度较高、蒸发温度较低的场合。 |
|---|---|
| AbstractList | 采用蒸气压缩制冷循环(辅助循环)对CO2跨临界制冷循环气体冷却器出口的CO2流体进行冷却,可减小节流不可逆损失,提高循环性能。本文对机械过冷CO2跨临界制冷循环进行热力学循环分析,结果表明:当在最优排气压力和最优过冷度两个参数条件下,循环存在最大COP。环境温度越高、蒸发温度越低,采用机械过冷方法使循环性能提升越显著,相对传统CO2制冷循环,通过辅助循环可显著提高循环COP,降低CO2排气压力和温度。相对CO2压缩机,辅助循环压缩机的功耗较少。分析了辅助循环中采用11种不同制冷剂的性能,可得除R41外,其它10种工质对循环整体COP的提升程度差异不明显。综上所述,机械过冷CO2跨临界制冷循环更适用于环境温度较高、蒸发温度较低的场合。 TB61+1%TB657.5; 采用蒸气压缩制冷循环(辅助循环)对CO2跨临界制冷循环气体冷却器出口的CO2流体进行冷却,可减小节流不可逆损失,提高循环性能.本文对机械过冷CO2跨临界制冷循环进行热力学循环分析,结果表明:当在最优排气压力和最优过冷度两个参数条件下,循环存在最大COP.环境温度越高、蒸发温度越低,采用机械过冷方法使循环性能提升越显著,相对传统CO2制冷循环,通过辅助循环可显著提高循环COP,降低CO2排气压力和温度.相对CO2压缩机,辅助循环压缩机的功耗较少.分析了辅助循环中采用11种不同制冷剂的性能,可得除R41外,其它10种工质对循环整体COP的提升程度差异不明显.综上所述,机械过冷CO2跨临界制冷循环更适用于环境温度较高、蒸发温度较低的场合. |
| Abstract_FL | The performance of the CO2 transcritical refrigeration cycle can be improved,and the throttling irreversibility loss can be reduced,by subcooling CO2 at the outlet of the gas cooler with a vapor compression refrigeration cycle (auxiliary cycle).A thermodynamical analysis is performed to study the operation characteristics of the CO2 transcritical refrigeration cycle with mechanical subeooling,and the results indicate that the maximum coefficient of performance (COP) is achieved at the optimum discharge pressure and optimum subcooling temperature.Compared with the traditional CO2 transcritical cycle,the improvement in COP is more significant at higher ambient temperatures and lower evaporation temperatures,and the discharge pressure and temperature can be notably reduced by the auxiliary cycle.The energy consumption of the auxiliary cycle compressor is much lower than that of the CO2 compressor.Among the 11 auxiliary cycle refrigerants,the differences between the COP improvements of the other 10 auxiliary working fluids are not obvious,except for R41.The CO2 transcritical cascade refrigeration cycle is more applicable to working conditions with higher ambient temperatures and lower evaporation temperatures. |
| Author | 代宝民;刘圣春;孙志利;齐海峰;陈启;王晓明;马一太 |
| AuthorAffiliation | 天津商业大学天津市制冷技术重点实验室,天津300134;天津三电汽车空调有限公司,天津300385;天津市计量监督检测科学研究院,天津300192;天津大学热能研究所,天津300072 |
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| Author_FL | Wang Xiaoming Chen Qi Qi Haifeng Sun Zhili Ma Yitai Liu Shengchun Dai Baomin |
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| Copyright | Copyright © Wanfang Data Co. Ltd. All Rights Reserved. |
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| DOI | 10.3969/j.issn.0253-4339.2018.01.013 |
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| DocumentTitleAlternate | Theoretical Performance Analysis of CO2 Transcritical Refrigeration Cycle with Mechanical Subcooling |
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| Keywords | 机械过冷 refrigeration cycle CO2 制冷循环 mechanical subcooling transcritical 跨临界 |
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| Notes | C02 ; transcritical; mechanical subcooling; refrigeration cycle The performance of the CO2 transcritical refrigeration cycle can be improved, and the throttling irreversibility loss can be re-duced, by subcooling CO2 at the outlet of the gas cooler with a vapor compression refrigeration cycle ( auxiliary cycle). A thermodynami-cal analysis is performed to study the operation characteristics of the CO2 transcritical refrigeration cycle with mechanical subcooling, and the results indicate that the maximum coefficient of performance (COP) is achieved at the optimum discharge pressure and optimum sub-cooling temperature. Compared with the traditional CO2 transcritical cycle, the improvement in COP is more significant at higher ambient temperatures and lower evaporation temperatures, and the discharge pressure and temperature can be notably reduced by the auxiliary cy-cle. The energy consumption of the auxiliary cycle compressor is much lower than that of the CO2 compressor. Among the 11 auxiliary cy-cle refrigeran |
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| PublicationTitle | 制冷学报 |
| PublicationTitleAlternate | Journal of Refrigeration |
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| Publisher | 天津商业大学天津市制冷技术重点实验室 天津300134%天津三电汽车空调有限公司 天津300385%天津市计量监督检测科学研究院 天津300192%天津大学热能研究所 天津300072 |
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| Snippet | 采用蒸气压缩制冷循环(辅助循环)对CO2跨临界制冷循环气体冷却器出口的CO2流体进行冷却,可减小节流不可逆损失,提高循环性能。本文对机械过冷CO2跨临界制冷循环进行热力学... TB61+1%TB657.5; 采用蒸气压缩制冷循环(辅助循环)对CO2跨临界制冷循环气体冷却器出口的CO2流体进行冷却,可减小节流不可逆损失,提高循环性能.本文对机械过冷CO2跨临界制冷... |
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| SubjectTerms | CO2 制冷循环 机械过冷 跨临界 |
| Title | 机械过冷CO2跨临界制冷循环性能理论分析 |
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