Techno-Economic Optimization of Radiator Configurations in Power Transformer Cooling

Designs Pub Date : 2024-02-02 DOI:10.3390/designs8010015

A. Koca, Oguzkan Senturk, Ömer Akbal, Hakan Özcan

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Abstract

In this research, a numerical approach is created to assess the effective parameters of power transformer thermal management and, as a result, improve their cooling systems. This study analyzes the radiator’s thermal performance across several arrangements and optimizes the dimensions and configurations for varied cooling loads from a techno-economic perspective. The optimization criteria were the radiator’s height (L), fin spacing (D), and number of fins (N). Due to the great complexity of the generated models, the coupled thermo-hydraulic numerical simulations were carried out on a computer cluster. An in-house radiator test facility was constructed for the experiments in order to verify the numerical model. The simulation findings accord well with the empirically obtained values. A total of 76 radiator sets were investigated. Following that, the generated findings were used to perform an optimization analysis. Finally, the response surface method was used to establish an ideal radiator layout for the specified cooling capacity at the lowest possible cost. These findings reveal that the best cooling performance is obtained when the spacing between the fins is 50 mm. Cooling capacity per unit cost rises as radiator size decreases. The cost factor and geometric details were shown to have strong connections.

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电力变压器冷却散热器配置的技术经济优化

本研究采用数值方法评估电力变压器热管理的有效参数，从而改进其冷却系统。本研究分析了散热器在几种排列方式下的热性能，并从技术经济角度优化了不同冷却负荷下的尺寸和配置。优化标准是散热器的高度（L）、散热片间距（D）和散热片数量（N）。由于生成的模型非常复杂，因此在计算机集群上进行了热液耦合数值模拟。为了验证数值模型，还建造了一个内部散热器测试设备用于实验。模拟结果与经验值十分吻合。共研究了 76 套散热器。随后，利用生成的结果进行了优化分析。最后，利用响应面法确定了理想的散热器布局，从而以尽可能低的成本获得指定的冷却能力。这些研究结果表明，散热片间距为 50 毫米时，冷却性能最佳。单位成本的冷却能力随着散热器尺寸的减小而增加。成本因素与几何细节之间存在密切联系。

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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Designs

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