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首页> 外文期刊>Arabian Journal for Science and Engineering. Section A, Sciences >Ohmic Heating and Non‑uniform Heat Source/Sink Roles on 3D Darcy–Forchheimer Flow of CNTs Nanofluids Over a Stretching Surface
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Ohmic Heating and Non‑uniform Heat Source/Sink Roles on 3D Darcy–Forchheimer Flow of CNTs Nanofluids Over a Stretching Surface

机译:欧姆加热和非均匀热源/水槽角色在拉伸表面上的CNTS纳米流体的3D达西 - 前米流动

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摘要

The major focus of the current study was the modeling of 3D Darcy–Forchheimer flow of water–CNTs nanofluid. Impacts of non-uniform heat source/sink and Ohmic heating on 3D magneto hydrodynamic flow of water–CNTs (SWCNT and MWCNT) nanofluid were assessed. The numerical analysis method ‘Runge–Kutta–Fehlberg’ was applied for existing PDEs. It was noted that the thermal boundary layer was extended for increasing Eckert numbers along x and y direction, when the fluid showed movement away from the surface. Moreover, the gap in thermal boundary layer for H_2O- SWCNT was more in comparison with H_2O– MWCNT nanofluid. The numerical data of this study were validated with earlier reported outcomes and were observed to have good concord.
机译:目前研究的主要焦点是3D达西 - 学生的水CNT纳米流体的造型。评估非均匀热源/下沉和欧姆加热对3D磁力流体动力学流动的影响的水CNTs(SWCNT和MWCNT)纳米流体的影响。数值分析方法'Runge-Kutta-Fehlberg'用于现有PDE。注意,当流体显示远离表面的运动时,将热边界层延伸以增加沿x和y方向的啮合数字。此外,与H_2O-MWCNT纳米流体更像H_2O-SWCNT的热边界层的间隙。本研究的数值数据与早期报告的结果验证,并观察到具有良好的康复。

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