Thermodynamic analysis of an ejector-vapour compressor cascade refrigeration system

Trung Kien Nguyen; Chi Hiep Le

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Thermodynamic analysis of an ejector-vapour compressor cascade refrigeration system

机译：喷射器 - 蒸汽压缩机级联制冷系统的热力学分析

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Using the framework of the first and second law of thermodynamics, an ejector-vapour compressor cascade refrigeration system is studied. The criteria for refrigerant selection are examined, with R134a and R410A selected as the refrigerant for the ejector and compressor sub-cycle, respectively. The effects of generator temperature, evaporator temperature, condenser temperature, intercooler temperature and intercooler temperature difference are examined. The results demonstrate that a combined cycle can improve 30.8% when compared to the COP of single compressor cycle and 122% when compared to the single ejector cycle. In addition, intercooler temperature can be set at 26.5 degrees C for minimizing total exergy loss.

机译：使用热力学第一和第二律规律的框架，研究了喷射器 - 蒸汽压缩机级联制冷系统。检查制冷剂选择的标准，R134A和R410A分别选择作为喷射器和压缩机子循环的制冷剂。检查发电机温度，蒸发器温度，冷凝器温度，中间冷却器温度和中间冷却器温度差的影响。结果表明，与单个喷射器循环相比，组合循环与单个压缩机循环的COP和122％相比，组合循环可以提高30.8％。此外，中间冷却器温度可以设定为26.5℃，以最大限度地减少总远程损耗。

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来源
《Journal of thermal analysis and calorimetry 》 |2020年第6期| 共12页
作者
Trung Kien Nguyen; Chi Hiep Le;
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作者单位

Ho Chi Minh City Univ Technol VNU HCM Dept Heat &

Refrigerat 268 Ly Thuong Kiet St Ward 14 Dist 10 Ho Chi Minh City Vietnam;

Ho Chi Minh City Univ Technol VNU HCM Dept Heat &

Refrigerat 268 Ly Thuong Kiet St Ward 14 Dist 10 Ho Chi Minh City Vietnam;

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原文格式 PDF
正文语种 eng
中图分类物理化学（理论化学）、化学物理学 ;
关键词
Ejector; Vapour compression; Cascade refrigeration system; Intercooler temperature;

机译：喷射器;蒸汽压缩;级联制冷系统;中间冷却器温度;

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专利

1. Thermodynamic analysis of an ejector-vapour compressor cascade refrigeration system [J] . Trung Kien Nguyen, Chi Hiep Le Journal of thermal analysis and calorimetry . 2020 ,第6期

机译：喷射器 - 蒸汽压缩机级联制冷系统的热力学分析
2. Thermodynamic analysis of optimal intermediate temperatures in R134a-R410A cascade refrigeration systems and its experimental verification [J] . Hansaem Park, Dong Ho Kim, Min Soo Kim Applied thermal engineering: Design, processes, equipment, economics . 2013 ,第1期

机译：R134a-R410A级联制冷系统最佳中间温度的热力学分析及其实验验证
3. Optimum Parametric Analysis Based on Thermodynamic Modeling of a Compression Absorption Cascade Refrigeration System [J] . Naushad Ansari, Akhilesh Arora, Samsher Gautam, Journal of Thermal Engineering . 2020 ,第4期

机译：基于压缩吸收级联制冷系统热力学建模的最佳参数分析
4. Thermodynamic Analysis and Optimization of Cascade Condensing Temperature of a CO_2 (R744)/R404A Cascade Refrigeration System [C] . Baris YILMAZ, Nasuh ERDONMEZ, Mustafa K. SEVINDIR, International Refrigeration and Air Conditioning Conference at Purdue . 2016

机译：CO_2（R744）/ R404A级联制冷系统级联冷凝温度分析及优化
5. Statistical energy analysis for a compact refrigeration compressor and model improvement. [D] . Lim, Jimin. 2006

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6. Application of a Fluid–Structure Interaction Model for Analysis of the Thermodynamic Process and Performance of Boil-Off Gas Compressors [O] . Bin Zhao, Shuangmei Zhou, Jianmei Feng, 2019

机译：流体结构相互作用模型在蒸发气体压缩机的热力过程分析中的应用
7. Analysis of Typical Booster Configuration, Parallel-Compressor Booster Configuration and R717/R744 Cascade Refrigeration System for Food Retail Applications. Part 2: Energy Performance in Various Climate Conditions. [O] . Konstantinos M. Tsamos, Carlos Amaris, Zoi Mylona, 2019

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Thermodynamic analysis of an ejector-vapour compressor cascade refrigeration system

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