Teorijska analiza niskozapaljivih i ekološki prihvatljivih smjesa ukapljenog naftnog plina i tetrafluoretana kao hladila

Q4 Social Sciences Sigurnost Pub Date : 2024-01-03 DOI:10.31306/s.65.4.3

Bukola Olalekan Bolaji, Deborah Olufunke Bolaji, S. T. Amosun

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Abstract

Liquefied petroleum gas (LPG), like other hydrocarbon gases, has good thermo-physical and ecological properties, but its high-flammability has limited its direct use in refrigeration applications. Therefore, this paper investigates the thermodynamic performance of low flammable and ecological-save mixtures of LPG and tetrafluoroethane refrigerant in a refrigeration system. The computational results of global warming potential (GWP) and low flammability limit shown that the blends with 50 – 90 % LPG contents have GWP below 750 and fall within the lower flammability safety class of which five were selected for further analysis. The results showed that the thermal conductivity and the refrigerating effects produced by the selected blends are greater than those of the reference refrigerant (R134a). Also, the selected blends exhibited appropriate lower pressure ratio, discharge temperature and specific power than R134a refrigerant. Four of the blends required low power input and exhibited higher coefficient of performance which are clear indication that they are more energy efficient than R134a in the refrigeration systems.

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对液化石油气和四氟乙烷作为制冷剂的低可燃性和具有生态吸引力的混合物进行理论分析

液化石油气（LPG）与其他碳氢化合物气体一样，具有良好的热物理和生态特性，但其高易燃性限制了其在制冷应用中的直接使用。因此，本文研究了制冷系统中液化石油气和四氟乙烷制冷剂的低易燃性和生态节约型混合物的热力学性能。全球升温潜能值（GWP）和低可燃性限值的计算结果显示，液化石油气含量为 50 - 90 % 的混合物的全球升温潜能值低于 750，属于低可燃性安全等级，其中五种混合物被选作进一步分析。结果表明，所选混合物产生的热传导率和制冷效果均高于参考制冷剂（R134a）。此外，与 R134a 制冷剂相比，所选混合物的压力比、排出温度和比功率都适当较低。其中四种混合物所需的输入功率较低，性能系数较高，这清楚地表明它们在制冷系统中比 R134a 制冷剂更节能。

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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Sigurnost Social Sciences-Safety Research

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