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射流冲击冷却热力-水力性能多目标优化研究OA

Investigation on Multi-Objective Optimization of Thermal-Hydraulic Performance for Enhanced Heat Transfer in Jet Impingement Cooling

中文摘要英文摘要

探索高效、清洁、节能的冷却方案是数据中心脱碳的重要途径.本文提出一种变间距多射流直接芯片冷却方案,旨在提高传热系数并改善温度均匀性.研究了冷却剂流量、入口温度、针翅设计参数及射流孔间距对热阻、压降、温度标准差和努塞尔数的影响.基于计算流体力学(CFD)和拉丁超立方采样实验设计生成用于构建代理模型的数据集,建立了以结构和热参数为输入,热阻、压降、温度均匀性为输出的人工神经网络模型,并采用基于均匀搜索的约束多目标优化算法(CMOES)求解优化模型.优化结果表明:最优设计在热力-水力性能上均优于初始设计及现有研究,具有良好工程应用前景.

Implementing efficient,clean,and energy-saving cooling solutions is important to decarbonize data centers.This study investigates a variable-spacing multijet direct-chip cooling device that increases the heat-transfer coefficient and improves temperature uniformity.The effects of the coolant flow rate,inlet temperature,pin-fin design parameters,and jet hole spacings on the thermal resistance,pressure drop,standard deviation of temperature,and Nusselt number are investigated.The dataset for the surrogate model construction is obtained based on computational fluid dynamics and Latin hypercube-sampling experimental designs.An artificial neural network model is developed with structural and thermal parameters as inputs and thermal resistance,pressure drop,and temperature uniformity as outputs.An algorithm called constrained multi-objective optimization based on the even search is used to find the solution.The optimization results show that the optimal design outperforms the initial design and has better performance specifications than those of existing studies for both thermal and hydraulic performances.Thus,it has good prospects for engineering applications.Herein,the optimization of variable-spacing multijet direct-chip cooling is investigated,enabling the chip to operate at a higher performance level.

关苏敏;丁若晨;王宁波;叶青平;郑志美;邵双全

中国长江电力股份有限公司 宜昌 100032||湖北省智慧水电技术创新中心 武汉 430000中国三峡集团科学技术研究院 北京 100000华中科技大学能源与动力工程学院 武汉 430074中国长江电力股份有限公司 宜昌 100032||湖北省智慧水电技术创新中心 武汉 430000中国三峡集团科学技术研究院 北京 100000华中科技大学能源与动力工程学院 武汉 430074

能源科技

数据中心射流冲击冷却高热流密度代理模型多目标优化

data centerjet impingement coolinghigh heat fluxsurrogate modelmulti-objective optimization

《制冷学报》 2026 (1)

80-87,8

国家重点研发计划(2020YFF0218601)资助项目.(The project was supported by the National Key Research and Development Program of China(No.2020YFF0218601).)本文受中国长江电力股份有限公司科研项目(Z152402007)资助.(The project was supported by Research project of China Yangtze Power Co.,Ltd. (No. Z152402007). )

10.12465/issn.0253-4339.20250812002

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