Improvement of Air Compressor Cooling with Intercooler Fine Pruning

Journal of Engineering and Sustainable Development Pub Date : 2024-07-01 DOI:10.31272/jeasd.28.4.8

B. Kirubadurai, R. Jaganraj, G. Jegadeeswari, C. Jayabalan

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Abstract

An intercooler serves as a heat exchanger between the several stages of the working compressor, assisting in the transmission of thermal energy between fluids of varying temperatures. This article is about the experimental analysis of the effectiveness of an intercooler. Multiple variables oversee the performance evaluation under different circumstances. Standard operational values are used to calculate performance evaluation metrics such as total heat transfer coefficient and others. Heat rejection of intercoolers has been enhanced from 61% to 65% by the variation of different fin lengths. Furthermore, the recently added intercooler's isothermal efficiency, which reached an astounding 56.5% significantly, outperformed the earlier unit. This serves to highlight how well the intercooler design was modified. Furthermore, the effectiveness of the Intercooler was assessed considering the circumstances during operation. The intercooler fin is primarily concerned with the performance of the air compressor. This work analyses the many characteristics of fin length, fin number, and fin diameter. When compared to the existing intercooler, this modified intercooler has a high performance

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利用中间冷却器微调改善空气压缩机冷却效果

中间冷却器是工作压缩机几级之间的热交换器，有助于不同温度流体之间的热能传输。本文将对中冷器的有效性进行实验分析。在不同情况下，多个变量对性能评估起着监督作用。标准操作值用于计算总传热系数等性能评估指标。通过不同翅片长度的变化，中间冷却器的热量排出率从 61% 提高到 65%。此外，最近增加的中间冷却器的等温效率达到了惊人的 56.5%，大大超过了早期的装置。这突出说明了中冷器设计的改进效果。此外，考虑到运行时的情况，还对中冷器的效果进行了评估。中间冷却器翅片主要与空气压缩机的性能有关。这项工作分析了翅片长度、翅片数量和翅片直径的许多特性。与现有的中间冷却器相比，改进后的中间冷却器具有更高的性能

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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