EFFECT OF THE SURFACE TENSION OF LIQUID-SOLID INTERFACE ON LIQUID FLOW IN PARALLEL-PLATE SUB-MICRON CHANNELS USING MULTI-BODY DISSIPATIVE PARTICLE DYNAMICS

机译：使用多体耗散粒子动力学的液固界面表面张力对平行板亚微米通道液体流动的影响

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The liquid flow in sub-micron channels is simulated using multi-body dissipative particle dynamics (MDPD) to study the effect of the surface tension between liquid and wall surface on the flow in sub-micon scale. The solution domain is considered to be two-dimensional, where DPD particles are randomly distributed. Periodic boundary condition is employed in the flow direction and the solid walls are created by distributing DPD particles in the additional layers on the top and bottom of the domain. The different surface tensions between liquid and wall surface are obtained by changing the interaction parameters between the liquid and wall DPD particles. The ratio of Capillary number (Ca) to Reynolds number (Re) is used to relate the DPD units to the physical units. The results are shown in the form of slip length and the effect of the surface tension on the liquid flow in sub-micron channels is discussed.

机译：使用多体耗散粒子动力学（MDPD）模拟亚微米通道中的液体流动，以研究液体和壁面之间的表面张力对亚微米级流动的影响。溶液域被认为是二维的，其中DPD颗粒被随机分布。通过在流动方向上采用周期性边界条件，通过在畴的顶部和底部的附加层中分配DPD颗粒来产生固体壁。通过改变液体和壁DPD颗粒之间的相互作用参数来获得液体和壁表面之间的不同表面张力。毛细数（CA）与雷诺数（RE）的比率用于将DPD单元与物理单元相关联。结果以滑动长度的形式示出，讨论了表面张力对亚微米通道中液体流动的影响。

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《ASME international conference on nanochannels, microchannels and minicannels》|2013年||共7页
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Toru Yamada; Mohammad Faghri; Yutaka Asako; Bengt Sunden;
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1. Dissipative particle dynamics simulations of water droplet flows in a submicron parallel-plate channel for different temperature and surface-wetting conditions [J] . Yamada Toru, Johansson Erik O., Sunden Bengt, Numerical Heat Transfer, Part A. Application: An International Journal of Computation and Methodology . 2016,第1a6期

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4. EFFECT OF THE SURFACE TENSION OF LIQUID-SOLID INTERFACE ON LIQUID FLOW IN PARALLEL-PLATE SUB-MICRON CHANNELS USING MULTI-BODY DISSIPATIVE PARTICLE DYNAMICS [C] . Toru Yamada, Mohammad Faghri, Yutaka Asako, ASME international conference on nanochannels, microchannels and minicannels . 2013

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EFFECT OF THE SURFACE TENSION OF LIQUID-SOLID INTERFACE ON LIQUID FLOW IN PARALLEL-PLATE SUB-MICRON CHANNELS USING MULTI-BODY DISSIPATIVE PARTICLE DYNAMICS

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