STUDY THERMAL OF COMPRESSOR POWER REDUCTION ON USING SOLID DRY PAD PRE-AIR COOLING SYSTEM

Machine : Jurnal Teknik Mesin Pub Date : 2023-11-08 DOI:10.33019/jm.v9i2.2803

I. G. T. P. Surya, Hendra Wijaksana

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Abstract

AbstractThe uses of compressor based air conditioning system has rapidly increased the consumption of fossil fuel energy resources and the degradation of environment quality. Massive study has been done worldwide to reduce energy consumption for compressor based air conditioning (AC) system. This study is subjected to investigate the use of solid dry pad as pre-air cooling for AC system. In this study, solid dry pad would be placed in the evaporator and condenser inlet air side. This placement was objected to give a pre-cooling effect for evaporator and condenser inlet air, so then the compressor could be operated with a lower power consumption. The experiment would be carried out within three level air mass flowrate of 0.293 kg/s; 0.319 kg/s; and 0.359 kg/s, for air velocity of 2.2; 2.4; and 2.7 m/s respectively, the cooling cabin is set into 30oC using a heater as a cooling load. As a results, it could be revealed that at the highest air mass flowrate of 0.359 kg/s, it could achieved the lowest compressor power consumption of 0.44 kW, within a higher cooling capacity of 2.625 kW, a higher condenser heat rejection of 3.622 kW and also higher COP of 5.9. Referring to those results, it can be concluded that when employing solid dry pad pre-air cooling for evaporator and condenser AC system, it could reduced compressor power consumption by 12.2%; 21.9% and 20% for air velocity of 2.2; 2.4; and 2.7 m/s respectively.Keywords : solid dry pad, pre-air cooling, compressor power reduction.

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使用固体干垫预空气冷却系统降低压缩机功率的热能研究

摘要压缩机空调系统的使用迅速增加了化石燃料能源的消耗和环境质量的恶化。为降低压缩机空调（AC）系统的能耗，全世界已开展了大量研究。本研究旨在调查使用固体干燥垫作为空调系统的预空气冷却。在这项研究中，固体干燥垫将被放置在蒸发器和冷凝器的进气侧。这种放置方式旨在为蒸发器和冷凝器的进气提供预冷效果，从而降低压缩机的运行能耗。实验将在空气质量流量分别为 0.293 公斤/秒、0.319 公斤/秒和 0.359 公斤/秒，空气速度分别为 2.2、2.4 和 2.7 米/秒的三个级别内进行，使用加热器作为冷却负载，将冷却舱设定为 30 摄氏度。结果表明，在最高空气质量流量为 0.359 kg/s 时，压缩机功耗最低，为 0.44 kW，制冷量最高，为 2.625 kW，冷凝器排热量最高，为 3.622 kW，COP 最高，为 5.9。根据这些结果，可以得出结论：在蒸发器和冷凝器空调系统中采用固体干垫预冷时，当空气流速分别为 2.2、2.4 和 2.7 m/s 时，可将压缩机功耗分别降低 12.2%、21.9% 和 20%。

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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Machine : Jurnal Teknik Mesin

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