Numerical investigation on Enhancing Heating performance in Automotive Radiator

Ola Najman, Zina K. Kadhim, K. Khalaf
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Abstract

In this paper, the improvement of heat exchange in a compact heat exchanger that is used in the automotive cooling system is numerically studied due to the importance that this part of the automotive represents in removing the heat generated in the automotive engine. The study adopted CFD simulation to introduce a new design of radiator that included changing the geometry and material of the tube while maintaining the same cross-section area In addition, the study also included replacing the shape of the fins from the louver to plain fin with the increase in the number of tubes. The study used a water-Ethylene glycol mixture (50:50) as a hot fluid with four flow rates (10, 12, 18, 24) l/h, (75, 85, 95) °C inlet temperature, and air as a cold fluid with 1.5, 2.5, 4.5, 5.5) m/s and (35) °C inlet temperature. Through the results obtained, the designed model appeared to have a higher thermal performance than the standard model due to the material and shape of the tube and fins. The designed model performed well, achieving an improvement ratio of (18.6%) for the heat transfer rate, (13.8%) for the overall heat transfer coefficient for the hot fluid, and (29.8%) for the air-side heat transfer coefficient
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提高汽车散热器加热性能的数值研究
本文对用于汽车冷却系统的紧凑型热交换器的热交换改进进行了数值研究,因为汽车的这一部分在消除汽车发动机产生的热量方面具有重要意义。本研究采用CFD模拟的方法,引入了一种新的散热器设计,在保持相同横截面积的情况下,改变了散热管的几何形状和材料,并随着散热管数量的增加,将散热片的形状从百叶改为平面散热片。该研究使用水-乙二醇混合物(50:50)作为热流体,流速为4种(10、12、18、24)l/h,入口温度为(75、85、95)℃,空气作为冷流体,入口温度为1.5、2.5、4.5、5.5 m/s,入口温度为(35)℃。结果表明,由于管、翅片的材料和形状的不同,设计模型比标准模型具有更高的热性能。设计的模型运行良好,传热率提高18.6%,热流体总换热系数提高13.8%,空气侧换热系数提高29.8%
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