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Performance of Concentrator Photovoltaic Systems Integrated With Double Layer MicroChannel Heat Sink

机译：集成有双层微通道散热器的聚光光伏系统的性能

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In this study, a new design of double layer microchannel heat sink (DL-MCHS) has been monolithically fabricated using 3D metal printer and experimentally examined as a heat sink for concentrator photovoltaic (CPV) systems. Single phase liquid cooling using ethanol and flow boiling cooling using NOVEC-7000 coolant in the designed DL-MCHS are experimentally compared. The results proved that using the flow boiling cooling technique for the CPV systems attained a lower solar cell temperature with high temperature uniformity. In more details, flow boiling in counterflow (CF) operated DL-MCHS, attained a very low solar cell temperature close to the NOVEC-7000 boiling point with temperature uniformity of 0.2 ℃ over a wide range of coolant flow rate from 25-250 ml/hr.

机译：在这项研究中，已经使用3D金属打印机整体制造了双层微通道散热器（DL-MCHS）的新设计，并作为聚光光伏（CPV）系统的散热器进行了实验检验。实验比较了设计的DL-MCHS中使用乙醇的单相液体冷却和使用NOVEC-7000冷却剂的流沸腾冷却。结果证明，在CPV系统中使用流式沸腾冷却技术可实现较低的太阳能电池温度和高温均匀性。更详细地讲，在逆流（CF）操作的DL-MCHS中沸腾，在25-250 ml的较大冷却剂流量范围内，达到了非常低的太阳能电池温度，接近NOVEC-7000沸点，温度均匀度为0.2℃。 /小时

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《ASME International Conference on Nanochannels, Microchannels, and Minichannels 》|2019年|V001T11A002.1-V001T11A002.10|共10页
会议地点 St. Johns(CA)
作者
Ali Radwan; Shinichi Ookawara; Mohamed M. Awad; Mahmoud Ahmed;
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Mechanical Power Engineering Department Faculty of Engineering Mansoura University Mansoura Egypt 35516;

Department of Chemical Science and Engineering Tokyo Institute of Technology Tokyo 152-8552 Japan;

Energy Resources Engineering Department Egypt-Japan University of Science and Technology (E-JUST). New Borg El-Arab Alexandria Egypt;

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1. Performance evaluation of concentrator photovoltaic systems integrated with a new jet impingement-microchannel heat sink and heat spreader [J] . Solar Energy . 2020 ,第Mara期

机译：集成了新型射流撞击-微通道散热器和散热器的聚光光伏系统的性能评估
2. Thermal management of concentrator photovoltaic systems using two-phase flow boiling in double-layer microchannel heat sinks [J] . Radwan Ali, Ookawara Shinichi, Ahmed Mahmoud Applied Energy . 2019 ,第MAY1期

机译：双层微通道散热器中使用两相流沸腾的聚光光伏系统的热管理
3. Concentrator photovoltaic thermal management using a new design of double-layer microchannel heat sink [J] . Elqady Hesham I, Radwan Ali, Ali Abdallah Y. M., Solar Energy . 2021 ,第May期

机译：使用新设计的双层微通道散热器的集中光光伏热管理
4. Performance of Concentrator Photovoltaic Systems Integrated With Double Layer MicroChannel Heat Sink [C] . Ali Radwan, Shinichi Ookawara, Mohamed M. Awad, ASME International Conference on Nanochannels, Microchannels, and Minichannels . 2019

机译：与双层微通道散热器集成的集中光光伏系统的性能
5. Forced convection heat transfer in integrated microchannel heat sinks. [D] . Lee, Man. 2006

机译：集成微通道散热器中的强制对流换热。
6. Performance Analysis of Double-Layer Microchannel Heat Sinks under Non-Uniform Heating Conditions with Random Hotspots [O] . Danish Ansari, Kwang-Yong Kim 2017

机译：随机热点非均匀加热条件下双层微通道散热器的性能分析
7. Experimental and Numerical Thermal Analysis of Multi-Layered Microchannel Heat Sink for Concentrating Photovoltaic Application [O] . Idris Al Siyabi, Sourav Khanna, Senthilarasu Sundaram, 2018

机译：多层微通道散热器浓缩光伏应用的实验性和数值热分析

Performance of Concentrator Photovoltaic Systems Integrated With Double Layer MicroChannel Heat Sink

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