约旦气候下光伏热集成吸收制冷系统的理论研究

Volume 2 issue 1 Pub Date : 2019-12-01 DOI:10.48103/jjeci2102019

M. Al-Odat

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引用次数: 1

摘要

本文提出了一个理论研究，模拟利用(PV/T)技术驱动吸收式制冷系统用于约旦气候条件下的教室空调。吸收式制冷循环使用来自PV/T集热器的热水和辅助电加热器作为发电机中的热源。此外，如果不需要运行制冷循环，还可以利用PV/T为建筑提供生活热水和电力。利用excel程序和理论方程对系统进行了分析。研究发现，PV/T技术在热电应用中具有很高的效率。吸收式制冷循环主要依靠电能消耗低的热能来运行水泵，因而具有良好的性能系数。该系统具有投资回收期短、能耗低、运行成本低、对环境影响小等特点。研究结果表明，该系统需要约(84 m2 PV/T集热器)来覆盖16吨冷负荷。

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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Theoretical Study of Photovoltaic Thermal Integrated Absorption Cooling System under Jordan Climate

This paper presents a theoretical investigation to simulate the utilization of (PV/T) technology to drive an absorption refrigeration system that is used for air conditioning of a classroom under Jordan climate conditions. The absorption refrigeration cycle uses the hot water from the PV/T collector with an assisted electrical heater as a heat source in the generator. In addition to the capability to utilize the PV/T to supply the building by domestic hot water and electricity if no need to run the refrigeration cycle. This analysis was carried using excel program and theoretical equations for the system. It was found that (PV/T) technology is very useful for thermal applications with high efficiency. Also, absorption refrigeration cycle has a good coefficient of performance because it main ly depends on the thermal energy with low electrical energy consumption to run the pump. Moreover, this system has a short payback period, low energy consumption, low running cost, and minimum environmental impact. The results of this study show that the system needs about (84 m 2 PV/T collectors) to cover 16 tons cooling load.

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Volume 2 issue 1

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