Thermodynamic Evaluation of a Direct Expansion Ground-Sourced Heat Pump with Horizontal Ground Heat Exchangers Using Advanced Exergy Analysis

IF 0.8 Q4 THERMODYNAMICS
Abdolazim Zarei, M. Ameri, H. Ghazizade-Ahsaee
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引用次数: 0

Abstract

This paper deals with the advanced exergetic analysis of a horizontal direct-expansion ground sourced CO2 heat pump operating in a transcritical cycle. The cycle is thermodynamically modeled in Engineering Equation Solver (EES) considering the pressure drops in both high and low temperature heat exchangers, and the system is to provide a fixed heating load. Conventional exergy analysis orderly suggests a compressor, expansion valve, gas cooler and ground heat exchanger to be considered for system improvement, while tracing exergy destruction of all components in detail demonstrates true improvement potential of each and all components and the system as a whole and offers a different order. Advanced exergy analysis points out that the compressor is directly and indirectly responsible for 56% of the overall exergy destruction generated in the cycle, confirming the detrimental role of this component in the system. The second influential component is recognized to be a ground heat exchanger accounting for 20% exergy destruction of the compressor as well as submitting 89% avoidability in its own exergy destruction, and expansion valve proves to be the last option for system improvement according to this analysis.
采用先进的火用分析方法对带水平地热交换器的直接膨胀式地源热泵进行热力学评价
本文对跨临界循环运行的卧式直扩式地源CO2热泵进行了先进的火用分析。在工程方程求解器(EES)中对该循环进行了热力学建模,同时考虑了高温换热器和低温换热器的压降,系统提供固定的热负荷。常规的火用分析顺序建议从压缩机、膨胀阀、气体冷却器和地热交换器四个方面对系统进行改进,而对所有部件的火用破坏进行详细跟踪,则显示了各个部件和整个系统的真正改进潜力,并提供了不同的顺序。先进的火用分析指出,在循环中产生的总火用破坏中,压缩机直接和间接承担了56%的责任,证实了该部件在系统中的有害作用。第二个影响部件为地埋管换热器,占压缩机火用破坏的20%,其自身火用破坏的可避免性为89%,根据分析,膨胀阀是系统改进的最后选择。
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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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