PENGARUH LIQUID SUCTION HEAT EXCHANGER TERHADAP KINERJA SISTEM PENDINGIN PADA MESIN PORTABLE CHILLER

Jurnal Rekayasa Mesin Pub Date : 2023-12-15 DOI:10.21776/jrm.v14i3.1368

Fajar Budi Sulistiono, R. Trisno

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Abstract

When the Covid-19 pandemic occured, most of the industries and public facilities were not used properly, but the cooling machines was still used, resulting in large consumption of power and electrical energy. Along with high energy consumption where the availability of energy is running low, savings are needed. As an alternative so that the cooling machine can save energy is to use the subcooling method, namely the addition of a liquid suction heat exchanger on a spiral portable chiller with 29 spirals. Furthermore, the refrigerant used in the portable chiller is R407c. This study aims to determine the effect and effectiveness of Liquid Suction Heat Exchanger on a portable chiller. The results obtained are the coefficient of performance on the non-Liquid Suction Heat Exchanger portable chiller is 4,699 with a cooling capacity of 6,668 kW and compressor performance of 1,419 kW while the portable chiller with the addition of Liquid Suction Heat Exchanger, the Coefficient Of Performance obtained is 5,197 with a cooling capacity of 6,719 kW and compressor performance of 1,219 kW. From the calculation above, the use of a liquid suction heat exchanger in a portable chiller can increase the cooling capacity by 1,97 %.

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吸液换热器对便携式冷水机冷却系统性能的影响

当 Covid-19 大流行发生时，大多数工业和公共设施都没有正常使用，但冷却设备仍在使用，导致大量电力和电能消耗。在能源供应不足的情况下，伴随着高能耗，需要节约能源。冷却机节能的替代方法是使用过冷方法，即在有 29 个螺旋的螺旋便携式冷却机上增加一个液体吸入热交换器。此外，便携式制冷机使用的制冷剂是 R407c。本研究旨在确定液体吸入热交换器对便携式冷水机组的影响和效果。得出的结果是，无液体吸入式热交换器的便携式冷水机组的性能系数为 4,699 ，制冷量为 6,668 千瓦，压缩机性能为 1,419 千瓦；而加装液体吸入式热交换器的便携式冷水机组的性能系数为 5,197 ，制冷量为 6,719 千瓦，压缩机性能为 1,219 千瓦。根据上述计算，在便携式冷水机中使用液体吸入热交换器可将冷却能力提高 1.97%。

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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Jurnal Rekayasa Mesin

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