Energy, Exergy and Sustainability Analysis of Two-stage Vapour Compression Refrigeration System

Kapil Chopra; V. Sahni; R.S. Mishra

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Energy, Exergy and Sustainability Analysis of Two-stage Vapour Compression Refrigeration System

机译：两级蒸汽压缩制冷系统的能量，火用和可持续性分析

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In this p aper comparative analysis of R152a, R600, R600a, R410a, R290, R1234yf, R404a and R134a as refrigerants in two stage vapour compression refrigeration system has been done on the basis of energetic and exergetic performance. Performance parameters such as entropy generations, COP, exergetic efficiency, sustainability index were investigated at different ambient condition. It was found that both energy and exerg y efficiencies of R134a is 8.97% and 5.38% lower than R152a and R600 respectively at -50 oC evaporating and 45 oC condensing temperatures. It was also observed that Irreversibility was minimal at higher evaporating temperatures and condenser was responsible for highest irreversibility or losses in two stage vapour compression refrigeration system. Sustainability index for R152a (1.96) was highest compared to other refrigerants.

机译：在本论文中，根据能量和能量的充沛性能，对两级蒸汽压缩制冷系统中作为制冷剂的R152a，R600，R600a，R410a，R290，R1234yf，R404a和R134a进行了比较分析。在不同的环境条件下研究了性能参数，例如熵的生成，COP，能量效率，可持续性指数。结果发现，在-50 oC的蒸发温度和45 oC的冷凝温度下，R134a的能量效率和能量效率分别比R152a和R600低8.97％和5.38％。还观察到，在较高的蒸发温度下，不可逆性极小，冷凝器是两级蒸气压缩制冷系统中最高不可逆性或损失的原因。与其他制冷剂相比，R152a的可持续性指数最高（1.96）。

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《Journal of Thermal Engineering》 |2015年第4期|共6页
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Kapil Chopra; V. Sahni; R.S. Mishra;
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Energy, Exergy and Sustainability Analysis of Two-stage Vapour Compression Refrigeration System

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