针肋微通道热沉的拓扑优化方法  

Research on Topology Optimization for Pin-fin Microchannel Heat Sink

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作  者:段治健 李赵源冰 马欣荣 DUAN Zhijian;LI Zhaoyuanbing;MA Xinrong(School of Mathematical and Statistical Sciences,Xianyang Normal University,Xianyang 712000,Shaanxi,China)

机构地区:[1]咸阳师范学院数学与统计学院,陕西咸阳712000

出  处:《咸阳师范学院学报》2024年第4期1-5,共5页Journal of Xianyang Normal University

基  金:陕西省自然科学基金项目(2024JC-YBMS-013);咸阳师范学院重点培育项目(XSYK21043);咸阳师范学院大学生创新创业训练计划项目(xysfxy2024149);国家级大学生创新创业训练计划项目(S202210722016)。

摘  要:为了提高液冷微通道热沉的散热性能,基于材料属性有理近似方法,最小化基底加热面平均温度和能量耗散,提出不同针肋结构微通道热沉的对流传热多目标耦合拓扑优化方法,结合移动渐近线方法求解数学优化模型,以期获得最佳针肋优化结构。计算结果表明,优化后针肋结构散热性能更好,在泵功相同的情况下,优化后的顺排与叉排针肋阵列的综合传热因子分别比矩形光滑微通道提高了31.20%、32.19%,压降降低了51.71%、54.68%,为微通道热沉散热技术提供了可靠的理论指导。For the purposes of improving the heat dissipation performance of liquid-cooled micro-channel heat sinks,this paper proposes a multi-objective coupled topology optimization method for the convective heat transfer of microchannel heat sinks with different pin-fin structures based on the materi-al property rational approximation method,aiming to minimize the average temperature of the substrate heating surface and the energy dissipation.The results show that the multi-objective optimal structure has good heat transfer performance.As the same pumping power,the comprehensive heat transfer effi-ciency of the optimized inline and staggered pin-fin arrays increases by 31.20%and 32.19%,and the pressure drops decrease by 51.71%and 54.68%,respectively,compared with the smooth rectangular.The results can provide reliable theoretical basis and application support for the electronic chip cooling technology.

关 键 词:微通道热沉 拓扑优化 间断有限元方法 综合传热效率 

分 类 号:TK01[动力工程及工程热物理]

 

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