Performance analysis of the refrigeration system for improving energy efficiency

Andrii Sazanskyi, M. Khmelniuk
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Abstract

Refrigeration system holds an important role in many industrial processes. The global industrial refrigeration system market is expected to grow from USD 19.3 billion in 2019 to USD 25.7 billion by 2025, at a CAGR of 4.7%. The traditional systems (cascade/multistage) as well as hybrid system with non-zeotrope refrigerant blends are widely used for processes where more than one temperature level is required. The optimal utilization of energy saving technologies in industrial processes is a key issue for the rational use of energy resources in the process industry. Among the various existing energy saving means, the refrigeration system is a technology area that introduces several degrees of freedom. The goal is to identify the optimal refrigerant/refrigerant mixtures, the optimal temperature levels, and the best cycle's configuration to satisfy the refrigeration requirements of a technological process. It is common that hydrocarbons have great thermodynamic properties, making them efficient refrigerants. The problem is that hydrocarbons are highly flammable, it has restricted their wider adoption for some applications in the refrigeration industry, mostly for applications demanding large refrigerant charges. Targeting to reduce safety as well as regulatory problems getting up from the use of hydrocarbons, the performance of hydrocarbons and carbon dioxide mixtures as refrigerants in a standard vapor-compression cycle has studied. To take into account all energy losses in the compressor, a technique was used that allows one to assess the energy perfection of a hermetically sealed compressor during experimental studies. The given method contains indicators that estimate certain types of energy losses of a hermetic compressor using the electrical efficiency of the compressor.
提高制冷系统能效的性能分析
制冷系统在许多工业过程中起着重要的作用。全球工业制冷系统市场预计将从2019年的193亿美元增长到2025年的257亿美元,复合年增长率为4.7%。传统系统(级联/多级)以及非共沸制冷剂混合物的混合系统广泛用于需要多个温度水平的过程。工业过程中节能技术的优化利用是过程工业能源合理利用的关键问题。在现有的各种节能手段中,制冷系统是一个引入几个自由度的技术领域。目标是确定最佳制冷剂/制冷剂混合物、最佳温度水平和最佳循环配置,以满足工艺过程的制冷要求。碳氢化合物通常具有很好的热力学性质,这使它们成为高效的制冷剂。问题是碳氢化合物是高度易燃的,这限制了它们在制冷行业的广泛应用,主要是在需要大制冷剂充注量的应用中。为了减少使用碳氢化合物带来的安全问题和监管问题,研究了碳氢化合物和二氧化碳混合物作为制冷剂在标准蒸汽压缩循环中的性能。为了考虑到压缩机的所有能量损失,采用了一种技术,可以在实验研究中评估密封压缩机的能量完美性。所提供的方法包含使用压缩机的电效率估计密闭压缩机的某些类型的能量损失的指标。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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