Thermal and hydrodynamic studies for micro-channel cooling for large area silicon sensors in high energy physics experiments

Nils Flaschel; Dario Ariza; Sergio Diez; Marta Gerboles; Ingrid-Maria Gregor; Xavier Jorda; Roser Mas; David Quirion; Kerstin Tackmann; Miguel Ullan

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Thermal and hydrodynamic studies for micro-channel cooling for large area silicon sensors in high energy physics experiments

机译：高能物理实验中大面积硅传感器微通道冷却的热力学和流体力学研究

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Micro-channel cooling initially aiming at small-sized high-power integrated circuits is being transferred to the field of high energy physics. Today's prospects of micro-fabricating silicon opens a door to a more direct cooling of detector modules. The challenge in high energy physics is to save material in the detector construction and to cool large areas. In this paper, we are investigating micro-channel cooling as a candidate for a future cooling system for silicon detectors in a generic research and development approach. The work presented in this paper includes the production and the hydrodynamic and thermal testing of a micro-channel equipped prototype optimized to achieve a homogeneous flow distribution. Furthermore, the device was simulated using finite element methods.

机译：最初以小型高功率集成电路为目标的微通道冷却已转移到高能物理领域。如今，微制造硅的前景为检测器模块的更直接冷却打开了一扇门。高能物理中的挑战是节省探测器构造中的材料并冷却大面积区域。在本文中，我们正在研究微通道冷却，以此作为通用研究与开发方法中未来硅检测器冷却系统的候选方案。本文介绍的工作包括微通道样机的生产以及流体动力学和热力测试，该样机经过优化可实现均匀的流量分配。此外，使用有限元方法对设备进行了仿真。

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来源
《Nuclear Instruments & Methods in Physics Research. Section A, Accelerators, Spectrometers, Detectors and Associated Equipment》 |2017年第11期|26-34|共9页
作者
Nils Flaschel; Dario Ariza; Sergio Diez; Marta Gerboles; Ingrid-Maria Gregor; Xavier Jorda; Roser Mas; David Quirion; Kerstin Tackmann; Miguel Ullan;
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作者单位

Deutsches Elektronen-Synchrotron, Notkestraße 85, 22607 Hamburg, Germany;

Deutsches Elektronen-Synchrotron, Notkestraße 85, 22607 Hamburg, Germany;

Deutsches Elektronen-Synchrotron, Notkestraße 85, 22607 Hamburg, Germany;

Centra National de Microelectronica, Barcelona, Spain;

Deutsches Elektronen-Synchrotron, Notkestraße 85, 22607 Hamburg, Germany;

Centra National de Microelectronica, Barcelona, Spain;

Centra National de Microelectronica, Barcelona, Spain;

Centra National de Microelectronica, Barcelona, Spain;

Deutsches Elektronen-Synchrotron, Notkestraße 85, 22607 Hamburg, Germany;

Centra National de Microelectronica, Barcelona, Spain;

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原文格式 PDF
正文语种 eng
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关键词
Micro-channel; Cooling; HEP; Silicon sensors; ANSYS; CFX; OpenFoam; Microfluidics; Heat sink; DESY; IMB-CNM; Heat;

机译：微信;冷却;HEP;硅传感器;ANSYS;CFX;OpenFoam;微流体;散热器;DESY;IMB-CNM;热;

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机译：未来高能物理实验硅传感器特征系统的开发
2. Development of Silicon Sensor Characterization System for Future High Energy Physics Experiments [J] . Preeti Kumari, Kavita Lalwani, Ranjeet Dalal, Journal of Nuclear Physics, Material Sciences, Radiation and Applications . 2015,第1期

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3. An efficient hardware design for rejecting common mode in a group of adjacent channels of silicon microstrip sensors used in high energy physics experiments [J] . Manthos N., Sidiropoulos G., Vichoudis P. IEEE Transactions on Nuclear Science . 2006,第3期

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7. Thermal and hydrodynamic studies for micro-channel cooling for largearea silicon sensors in high energy physics experiments [O] . Flaschl, Nils, Arizaa, Dario, Díeza, Sergio, 2017

机译：高能物理实验中大面积硅传感器微通道冷却的热力学和流体力学研究

Thermal and hydrodynamic studies for micro-channel cooling for large area silicon sensors in high energy physics experiments

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