Improving the Engine Efficiency Using a New Combined Refrigeration Cycle for Low-Temperature Heat Source (Waste Heat Recovery)

Q4 Energy

Journal of Nuclear Energy Science and Power Generation Technology Pub Date : 2022-04-19 DOI:10.21926/jept.2202020

K. Goudarzi, M. Zare

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Abstract

Passenger and commercial internal combustion engines have relatively large dissipated thermal energy sources that can be used for initiating thermodynamic refrigeration cycles at low temperatures while improving engine efficiency. Researchers have focused on combined power-refrigeration cycles in past studies. This paper presents the operation and performance of a new combined refrigeration system driven by waste heat recovery within the internal combustion engines. For this purpose, the effects of several parameters on the performance of the cycle are examined. Results show that an increase in the engine water temperature, exhaust gas temperature, part-load ratio (PLR), generator temperature, as well as adsorption evaporator temperature had a positive effect on the performance of the cycle. However, the rise in condenser temperature of the adsorption cooling system leads to bad performance. Also, the results indicate that the application of the adsorption refrigeration cycle in the combined cooling cycle, along with the increase in the refrigeration cycle performance by up to 65%, also improves the efficiency of the internal combustion engine.

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新型低温热源联合制冷循环(余热回收)提高发动机效率

客运和商用内燃机具有相对较大的耗散热能源，可用于在低温下启动热力学制冷循环，同时提高发动机效率。在过去的研究中，研究人员一直专注于联合动力-制冷循环。本文介绍了一种利用内燃机余热回收驱动的新型联合制冷系统的运行和性能。为此，研究了几个参数对循环性能的影响。结果表明，提高发动机水温、排气温度、部分负荷比(PLR)、发电机温度和吸附蒸发器温度对循环性能有积极影响。然而，吸附冷却系统的冷凝器温度升高导致性能不佳。结果表明，吸附式制冷循环在联合制冷循环中的应用，不仅使制冷循环性能提高了65%，而且还提高了内燃机的效率。

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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Journal of Nuclear Energy Science and Power Generation Technology Energy-Energy Engineering and Power Technology

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