NUMERICAL MODELLING OF NANOFLUID HEAT TRANSFER INSIDE A MICROCHANNEL HEAT SINK

机译：微通道热沉内纳米流体传热的数值模拟

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The problem of laminar flow and heat transfer of water-based nanofluids inside a 3D-microchannel heat sink was numerically investigated, considering temperature-dependent fluids properties. Results, obtained for the 250-2000 Reynolds number range, show that an important enhancement of surface convective heat transfer coefficient can be achieved by increasing the particle volume fraction. For given Reynolds number and particle fraction, a highest heat transfer enhancement is obtained using CuO-water nanofluid. However, the use of nanofluids considerably increases the wall friction and consequently the pumping power. The 'heat transferred to fluid/pumping power' ratio was calculated for nanofluids. For given Reynolds number and particle volume fraction, such a ratio was found lowest for CuO-water nanofluid, while alumina-water nanofluids provide similar results.

机译：考虑到与温度有关的流体特性，对3D微通道散热器内部的水基纳米流体的层流和传热问题进行了数值研究。在250-2000雷诺数范围内获得的结果表明，可通过增加颗粒体积分数来实现表面对流传热系数的重要提高。对于给定的雷诺数和颗粒分数，使用CuO-水纳米流体可获得最高的传热增强效果。但是，纳米流体的使用大大增加了壁摩擦力，因此增加了泵送功率。对于纳米流体，计算了“传给流体/泵浦功率的热量”比率。对于给定的雷诺数和颗粒体积分数，发现该比例对于CuO-水纳米流体最低，而氧化铝-水纳米流体提供相似的结果。

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《ASME international conference on nanochannels, microchannels and minichannels》|2012年|123-132|共10页
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Benjamin Rimbault; Cong Tarn Nguyen; Nicolas Galanis;
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microchannel; laminar forced flow; heat transfer; nanofluids; alumina-water nanofluid; copper-oxide nanofluid;

机译：微通道层流强迫流动传播热量;纳米流体氧化铝水纳米流体氧化铜纳米流体;

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1. Experimental investigation of CuO-water nanofluid flow and heat transfer inside a microchannel heat sink [J] . Benjamin Rimbault, Cong Tam Nguyen, Nicolas Galanis International Journal of Thermal Sciences . 2014,第Null期

机译：CuO-水纳米流体在微通道散热器内流动和传热的实验研究
2. Numerical investigation of hydrodynamic and heat transfer performances of nanofluids in a fractal microchannel heat sink [J] . Wen-Tao Yan, Cong Li, Wei-Biao Ye Heat transfer . 2019,第6期

机译：分形微通道散热器中纳米流体的水动力和传热性能的数值研究
3. Numerical investigation of heat transfer of nanofluid flow through a microchannel with heat sinks and sinusoidal cavities by using novel nozzle structure [J] . Akbari Omid Ali, Khodabandeh Erfan, Kahbandeh Faramarz, Journal of thermal analysis and calorimetry . 2019,第1期

机译：用新型喷嘴结构通过微通道通过微通道流过微通道传热的数值研究
4. NUMERICAL MODELLING OF NANOFLUID HEAT TRANSFER INSIDE A MICROCHANNEL HEAT SINK [C] . Benjamin Rimbault, Cong Tarn Nguyen, Nicolas Galanis ASME international conference on nanochannels, microchannels and minichannels . 2012

机译：微通道散热器内纳米流体传热的数值模拟
5. Computational analysis of nanofluid flow in microchannels with applications to micro-heat sinks and bio-MEMS. [D] . Li, Jie. 2008

机译：微通道中纳米流体流动的计算分析及其在微散热器和生物MEMS中的应用。
6. Analysis and Optimization of a Microchannel Heat Sink with V-Ribs Using Nanofluids for Micro Solar Cells [O] . Ruijin Wang, Jiawei Wang, Weijia Yuan 2019

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7. Numerical Investigation of Forced Convective Heat Transfer and Performance Evaluation Criterion of Al2O3/Water Nanofluid Flow inside an Axisymmetric Microchannel [O] . Misagh Irandoost Shahrestani, Akbar Maleki, Mostafa Safdari Shadloo, 2020

机译：轴对称微通道内Al2O3 /水纳米流体流动强制对流传热和性能评价标准的数值研究

NUMERICAL MODELLING OF NANOFLUID HEAT TRANSFER INSIDE A MICROCHANNEL HEAT SINK

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