An investigation on the flow and heat transfer characteristics of nanofluids by nonequilibrium molecular dynamics simulations

Hu Chengzhi; Bai Minli; Lv Jizu; Li Xiaojie

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An investigation on the flow and heat transfer characteristics of nanofluids by nonequilibrium molecular dynamics simulations

机译：非纤维分子动力学模拟纳米流体流动和传热特性的研究

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The flow and heat transfer characteristics of nanofluids are investigated by nonequilibrium molecular dynamics simulations. Both the effect of chaotic movements of nanoparticle (CMN) on flow properties and its resulting heat transfer enhancement are analyzed. Results show that compared with the base fluid, the effective thermal conductivity of nanofluids is increased, and the increase ratio in the shear flow field is much higher than that in the zero-shear flow field. Based on the models built in this paper, the contributions of increased thermal conductivity and CMN to the heat transfer enhancement of nanofluids are 49.8-68.6% and 31.4-50.2%, respectively.

机译：通过非分子动力学模拟研究了纳米流体的流动和传热特性。分析了纳米粒子（CMN）对流动性能及其所得热传递增强的混沌运动的影响。结果表明，与基础流体相比，纳米流体的有效导热率增加，并且剪切流场中的增加比远高于零剪切流场中的比率。基于本文内置的模型，热导率和CMN增加到纳米流体的热传递增强的贡献分别为49.8-68.6％和31.4-50.2％。

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《Numerical Heat Transfer, Part B. Fundamentals: An International Journal of Computation and Methodology》 |2016年第6期|共12页
作者
Hu Chengzhi; Bai Minli; Lv Jizu; Li Xiaojie;
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Dalian Univ Technol Sch Energy &

Power Engn Room 707 2 Linggong Rd Dalian 116023 Liaoning Peoples R China;

Dalian Univ Technol Sch Energy &

Power Engn Room 707 2 Linggong Rd Dalian 116023 Liaoning Peoples R China;

Dalian Univ Technol Sch Energy &

Power Engn Room 707 2 Linggong Rd Dalian 116023 Liaoning Peoples R China;

Dalian Univ Technol State Key Lab Struct Anal Ind Equipment Dalian Liaoning Peoples R China;

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正文语种 eng
中图分类热力工程、热机;
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1. An investigation on the flow and heat transfer characteristics of nanofluids by nonequilibrium molecular dynamics simulations [J] . Hu Chengzhi, Bai Minli, Lv Jizu, Numerical Heat Transfer, Part B. Fundamentals: An International Journal of Computation and Methodology . 2016,第1a6期

机译：非纤维分子动力学模拟纳米流体流动和传热特性的研究
2. A Computational Fluid Dynamics Investigation on the Effect of the Angular Velocities of Hot and Cold Turbulator Cylinders on the Heat Transfer Characteristics of Nanofluid Flows Within a Porous Cavity [J] . Yan Cao, Yu Bai, Jiang Du, Journal of Energy Resources Technology . 2020,第11期

机译：一种计算流体动力学研究了热和冷湍流缸角速度对多孔腔内纳米流体流动传热特性的影响
3. Investigation of the characteristics of heat current in a nanofluid based on molecular dynamics simulation [J] . Tao Jia, Yuwen Zhang, H.B. Ma, Applied Physics . 2012,第3期

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4. FLOW AND HEAT TRANSFER SIMULATIONS FOR NANOFLUIDS WITH NANOPARTICLES OF VARIOUS DIAMETERS BY MOLECULAR DYNAMICS METHOD [C] . Wenzheng Cui, Jizu Lv, Minli Bai, ASME summer heat transfer conference . 2012

机译：分子动力学方法模拟各种直径纳米颗粒的纳米流体的流动和传热
5. Investigation of the Enhancement of Convective Heat Transfer for Wall-Bounded Flows Utilizing Nanofluids [D] . Etaig, Saleh. 2017

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6. A numerical investigation of the heat transfer characteristics of water-based mango bark nanofluid flowing in a double-pipe heat exchanger [O] . E.J. Onyiriuka, O.O. Ighodaro, A.O. Adelaja, 2019

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7. Experimental Investigation Of Heat Transfer Characteristics Of Nanofluid Using Parallel Flow, Counter Flow And Shell And Tube Heat Exchanger [O] . Dharmalingam R., Sivagnanaprabhu K.K., Yogaraja J., 2015

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An investigation on the flow and heat transfer characteristics of nanofluids by nonequilibrium molecular dynamics simulations

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