THERMODYNAMIC EFFICIENCY OF HEAT PUMP AIR CONDITIONING SYSTEM BASED ON VERTICAL GROUND HEAT EXCHANGER

Енергетика і автоматика Pub Date : 2023-01-01 DOI:10.31548/energiya3(67).2023.074

M Bezrodny, S Oslovskyi

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Abstract

An analysis of literary sources in which heat pump heating and air conditioning systems were studied over the past 10 years was carried out. It was determined that research for heat pumps using vertical soil heat exchangers was conducted more in the empirical plane. The authors analyzed the effectiveness of using existing systems that work for heating and air conditioning in different countries. The results of many studies are given, which show that, in fact, the use of ground heat pumps in a temperate climate only in the heating mode entails the exhaustion of the thermal potential and the impossibility of its use in the future. Theoretical studies at the system design stage are not sufficiently presented, and the issue of predictioning the efficiency of the use of such systems is not disclosed. In this regard, it is proposed to investigate the energy efficiency of the heat-pump air conditioning system based on vertical soil heat exchangers. A heat pump air conditioning system based on a vertical soil heat exchanger is considered. Two research tasks were defined: analysis of efficiency in active and passive modes of conditioning. A thermodynamic analysis of the efficiency of the proposed scheme was carried out. The main operating parameters of the system at nodal points are defined. With the help of balance equations, the framework of the system's operation in passive and active modes according to the main parameters is determined. Graphical dependences of energy efficiency indicators on the determining parameters of the system were constructed and analyzed. It is shown at which parameter values the system has optimal operating costs. The results of the study are compared with those for the split system. The advantages and disadvantages of using the proposed solution are determined. It was determined that the heat pump system using soil heat for air conditioning with a vertical soil heat exchanger has stricter requirements for the thermal insulation of the air conditioning object than the system based on the air heat pump.

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基于垂直地热交换器的热泵空调系统热力效率研究

对过去10年研究的热泵供暖和空调系统的文献资料进行了分析。确定了采用垂直土壤换热器的热泵研究更多地停留在经验层面。作者分析了在不同国家使用现有供暖和空调系统的有效性。文中给出了许多研究的结果，这些结果表明，事实上，在温带气候中仅以加热方式使用地热泵会耗尽热势，并且将来不可能使用它。在系统设计阶段的理论研究没有充分提出，并且预测使用这些系统的效率的问题没有披露。为此，提出对基于垂直土壤换热器的热泵空调系统的能效进行研究。研究了一种基于垂直土壤换热器的热泵空调系统。确定了两项研究任务:分析主动和被动条件反射模式的效率。对该方案的效率进行了热力学分析。确定了系统在节点处的主要运行参数。利用平衡方程，根据主要参数确定了系统在无源和主动模式下的运行框架。构建并分析了能效指标与系统确定参数的图形依赖关系。给出了在哪个参数值下系统具有最佳运行成本。研究结果与分体式系统的结果进行了比较。确定了使用所提出的解决方案的优点和缺点。确定采用垂直土壤换热器的土壤热空调热泵系统比基于空气热泵的系统对空调对象的保温性要求更严格。

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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Енергетика і автоматика

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