散热片
热管
热阻
材料科学
热的
有限元法
机械工程
垂直的
热点(地质)
热撒布器
核工程
功率(物理)
结构工程
传热
电源模块
机械
水冷
热负荷
热流密度
汽车工程
热分析
船舶推进
电子设备冷却
计算机冷却
冷却液
结温
计算机科学
作者
Binyu Wang,Ting Lu,Qisheng Wu,Bobin Yao,Hongwei Zhang,Xiwei Zhou,Weiyu Liu
出处
期刊:Micromachines
[Multidisciplinary Digital Publishing Institute]
日期:2025-10-22
卷期号:16 (11): 1197-1197
摘要
This paper proposes an enhanced cooling method for multi-chip power modules (e.g., in MMC inverters) with uneven power loss in all-electric propulsion ships based on sintered heat pipe parameter optimization and special-shaped design. First, five key parameters of straight sintered heat pipes were optimized: placement directly under hotspot chips, 10 mm in diameter, quantity matching the number of hotspot chips, length equal to the heatsink side length, and direction perpendicular to heatsink fins. Then, a C-shaped heat pipe was designed using the parallel thermal resistance principle, which forms two parallel low-thermal-resistance paths and outperforms conventional U-shaped ones. Finite element simulations showed that the hotspot temperature of the conventional heatsink was 91.26 °C, while it dropped to 87.35 °C with optimized straight heat pipes and further to 80.85 °C with C-shaped ones. Experiments verified an 11.65% temperature reduction (from 86.7 °C of conventional heatsinks to 76.6 °C of C-shaped heat pipe heatsinks). This method effectively lowers hotspot temperatures, reduces device failure rates, improves the thermal reliability of power modules, and provides a generalized design methodology for heatsinks of various power electronic converters.
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