A Study on the Combined Driven Refrigeration Cycle Using Ejector

IF 0.8 Q4 THERMODYNAMICS
W. Raza, Gwang-Soo Ko, Youn Cheol Park
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引用次数: 0

Abstract

The rising need for thermal comfort has resulted in a rapid increase in refrigeration systems’ usage and, subsequently, the need for electricity for air-conditioning systems. The ejector system can be driven by a free or affordable low-temperature heat source such as waste heat as the primary source of energy instead of electricity. Heat-driven ejector refrigeration systems become a promising solution for reducing energy consumption to conventional compressor-based refrigeration technologies. An air-conditioning system that uses the ejector achieves better performance in terms of energy-saving. This paper presents a study on the combined driven refrigeration cycle based on ejectors to maximize cycle performance. The experimental setup is designed to determine the coefficient of performance (COP) with ejector nozzle sizes 1.8, 3.6, and 5.4[Formula: see text]mm, respectively. In this system, the R-134a refrigerant is considered as a working fluid. The results depict that the efficiency is higher than that of the conventional refrigeration method due to comparing the performance of the conventional refrigeration cycle and the combined driven refrigeration cycle. The modified cycle efficiency is better than the vapor compression cycle below 0∘C, which implies sustainability at low temperatures by using low-grade thermal energy. For the improvement of mechanical efficiency, proposed cycle can be easily used.
喷射器联合驱动制冷循环的研究
对热舒适的需求不断增加,导致制冷系统的使用迅速增加,随后,空调系统对电力的需求也随之增加。喷射系统可以由一个免费的或负担得起的低温热源驱动,如废热作为主要的能量来源,而不是电力。热驱动喷射器制冷系统是一种很有前途的解决方案,可以降低传统的基于压缩机的制冷技术的能耗。使用喷射器的空调系统在节能方面表现更好。本文研究了基于喷射器的联合驱动制冷循环,以实现循环性能的最大化。设计了实验装置,以确定分别为1.8、3.6和5.4 mm的引射喷嘴的性能系数(COP)。在这个系统中,R-134a制冷剂被认为是工作流体。通过对常规制冷循环和联合驱动制冷循环的性能进行比较,结果表明,联合驱动制冷循环的效率高于常规制冷方式。修改后的循环效率优于0°C以下的蒸汽压缩循环,这意味着使用低等级热能在低温下的可持续性。为了提高机械效率,所提出的循环可以方便地使用。
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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来源期刊
CiteScore
2.70
自引率
10.00%
发文量
0
期刊介绍: As the only international journal in the field of air-conditioning and refrigeration in Asia, IJACR reports researches on the equipments for controlling indoor environment and cooling/refrigeration. It includes broad range of applications and underlying theories including fluid dynamics, thermodynamics, heat transfer, and nano/bio-related technologies. In addition, it covers future energy technologies, such as fuel cell, wind turbine, solar cell/heat, geothermal energy and etc.
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