Advanced (Metal 3D-Printed) Direct Liquid Jet-Impingement Cooling Solution for Autonomous Driving High-Performance Vehicle Computer (HPVC)

机译：先进（金属3D印刷）直接液体喷射冲洗冷却解决方案，用于自主驾驶高性能车计算机（HPVC）

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In this paper, a High-Performance direct liquid jet-impingement cooler is presented to guarantee the proper thermal operating conditions in High-Performance processors (up to 300W), enabling level 5 autonomous driving. Computational Fluid-Dynamics (CFD) simulations are performed on the 3D model to reach the final design iteration and show the superior performances. The 3D metal printability of a prototyped liquid-based printed cooler version and the integration to a chip is demonstrated, furthermore experiments are carried out to proof the validity of the CFD modeling methodology and the enhanced potentialities of the solution compared to possible cooling alternatives.

机译：本文提出了一种高性能直接液体喷射调速冷却器，以保证高性能处理器（最多300W）的适当热操作条件，使5级自主驱动。在3D模型上执行计算流体动力学（CFD）模拟以达到最终设计迭代并显示出优越的性能。证明了原型液体的印刷冷却器版本的3D金属可印刷性和对芯片的集成，此外，与可能的冷却替代方案相比，进行了证明CFD建模方法的有效性和解决方案的增强潜力。

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《International Conference on Thermal, Mechanical and Multi-Physics Simulation and Experiments in Microelectronics and Microsystems》|2021年|1-14|共14页
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Antonio Pappaterra; Bart Vandevelde; Majid Nazemi; Willem Verleysen; Herman Oprins;
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Micromechanical devices; Solid modeling; Three-dimensional displays; Program processors; Cooling; Computational modeling; Metals;

机译：微机械设备;实心建模;三维显示器;程序处理器;冷却;计算建模;金属;

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1. Microstructure and mechanical properties of NiAl-based hypereutectic alloy obtained by liquid metal cooling and zone melted liquid metal cooling directional solidification techniques [J] . Lei Wang, Jun Shen, Yunpeng Zhang, Journal of Materials Research . 2016,第5期

机译：液态金属冷却和区域熔融液态金属冷却定向凝固技术获得的NiAl基过共晶合金的组织和力学性能
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机译：使用低熔点液态金属作为冷却液冷却计算机芯片的有效方法
3. Bidirectional multiport solar-assisted SRM drive for pure electric vehicle applications with versatile driving and autonomous charging capabilities [J] . Thankachan Jose, Singh Sajjan Pal Electric Power Applications, IET . 2020,第4期

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4. A Novel Pin-fin Based Cooling Device for Autonomous Driving High-performance Computers [C] . S. Majid Nazemi, Antonio Pappaterra, Willem Verleysen, Smart Systems Integration Conference . 2021

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机译：通过液态金属冷却对大截面镍基高温合金铸件进行定向凝固。
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机译：通过高效液相色谱，荧光检测和计算机驱动模式识别模型，直接从涂片阳性痰标本和BACTEC 12B培养物中鉴定结核分枝杆菌和鸟分枝杆菌。
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机译：HERa-1a，杆组件中的传热。一种计算机程序，用于在非沸腾条件下由液态金属冷却的多棒燃料束的稳态热液压分析。 4905欧元。

Advanced (Metal 3D-Printed) Direct Liquid Jet-Impingement Cooling Solution for Autonomous Driving High-Performance Vehicle Computer (HPVC)

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