Buoyancy-Driven Heat Transfer in Nanofluid-Filled Trapezoidal Enclosure with Variable Thermal Conductivity and Viscosity

R. Roslana H. Salehb amp; I. Hashimb*

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Buoyancy-Driven Heat Transfer in Nanofluid-Filled Trapezoidal Enclosure with Variable Thermal Conductivity and Viscosity

机译：具有可变导热系数和粘度的纳米流体填充梯形外壳中的浮力驱动传热

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Heat transfer performance utilizing nanofluids in a trapezoidal enclosure is investigated taking into account variable thermal conductivity and viscosity. Transport equations are modelled by a stream-vorticity formulation, and are solved numerically by the finite difference method. The effects of the Rayleigh number, base angle, volume fraction, and size of nanoparticles on flow and temperature patterns as well as the heat transfer rate are presented. We found that the effect of the viscosity was more dominant than the thermal conductivity, and there is almost no improvement in heat transfer performance utilizing nanofluids.View full textDownload full textRelated var addthis_config = { ui_cobrand: "Taylor & Francis Online", services_compact: "citeulike,netvibes,twitter,technorati,delicious,linkedin,facebook,stumbleupon,digg,google,more", pubid: "ra-4dff56cd6bb1830b" }; Add to shortlist Link Permalink http://dx.doi.org/10.1080/10407782.2011.616778

机译：考虑到可变的热导率和粘度，研究了在梯形外壳中利用纳米流体的传热性能。输运方程通过流涡公式化建模，并通过有限差分法进行数值求解。提出了瑞利数，底角，体积分数和纳米粒子的尺寸对流动和温度模式以及传热速率的影响。我们发现，粘度的影响比导热系数更重要，利用纳米流体的传热性能几乎没有改善。查看全文下载全文相关的var addthis_config = {ui_cobrand：“ Taylor＆Francis Online”，services_compact：“ citeulike，netvibes，twitter，technorati，美味，linkedin，facebook，stumbleupon，digg，google，更多”，发布：“ ra-4dff56cd6bb1830b”};添加到候选列表链接永久链接http://dx.doi.org/10.1080/10407782.2011.616778

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《Numerical Heat Transfer, Part A: Applications 》 |2011年第10期| p.867-882| 共16页
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R. Roslana H. Salehb amp; I. Hashimb*;
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1. Buoyancy-driven heat transfer in nanofluid-filled trapezoidal enclosure with variable thermal conductivity and viscosity [J] . Roslan R., Saleh H., Hashim I. Numerical Heat Transfer, Part A. Application: An International Journal of Computation and Methodology . 2011 ,第7a12期

机译：纳米流体填充的梯形外壳中的浮力驱动传热，具有可变的热导率和粘度
2. Buoyancy-driven flow and heat transfer in a nanofluid-filled enclosure [J] . Siddhartha Kosti, Malay K. Das, Arun K. Saha Nanomaterials and Energy . 2013 ,第NME4期

机译：在纳米流体填充的外壳中由浮力驱动的流动和传热
3. Natural convection heat transfer in a nanofluid-filled trapezoidal enclosure [J] . H. Saleh, R. Roslan, I. Hashim International Journal of Heat and Mass Transfer . 2011 ,第1a3期

机译：纳米流体填充的梯形外壳中的自然对流传热
4. EFFECT ON NATURAL CONVECTION HEAT TRANSFER OF NANOFLUID IN AN ENCLOSURE DUE TO UNCERTAINTIES OF VISCOSITY AND THERMAL CONDUCTIVITY [C] . C. J. Ho, M. W. Chen, Z. W. Li ASME(American Society of Mechanical Engineers)/JSME(Japanese Society of Mechanical Engineers) Thermal Engineering Summer Heat Transfer Conference 2007 . 2007

机译：由于粘度和热导率的不确定性，纳米流体对自然对流换热的影响
5. Reacting Magnetohydrodynamic (MHD) Flow of Nanofluids with Variable Thermal Conductivity and Viscosity in Presence of Thermal Radiation [D] . Jimoh, Muinat Oluwatosin. 2021

机译：在热辐射存在下使纳米流体（MHD）纳米流体的磁性动力学（MHD）流动反应
6. Effect of variable thermal conductivity and viscosity on Casson nanofluid flow with convective heating and velocity slip [O] . J.A. Gbadeyan, E.O. Titiloye, A.T. Adeosun 2020

机译：可变导热系数和粘度对对流加热和速度滑移对Casson纳米流体流动的影响
7. Laminar mixed convection heat transfer of SiC-EG nanofluids in a triangular enclosure with a rotating inner cylinder: simulations based on the measured thermal conductivity and viscosity [O] . Yu-fei Wang, Xu Xu, Tian Tian, 2015

机译：层状混合对流传热SiC - 例如纳米流体中的三角形外壳中的旋转内筒：基于测量的导热率和粘度模拟

Buoyancy-Driven Heat Transfer in Nanofluid-Filled Trapezoidal Enclosure with Variable Thermal Conductivity and Viscosity

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