Investigation of Coulomb force effects on ethylene glycol based nanofluid laminar flow in a porous enclosure

Investigation of Coulomb force effects on ethylene glycol based nanofluid laminar flow in a porous enclosure

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摘要 Forced convection heat transfer of ethylene glycol based nanofluid with FeOinside a porous medium is studied using the electric field. The control volume based finite element method(CVFEM) is selected for numerical simulation. The impact of the radiation parameter(R), the supplied voltage(?φ), the volume fraction of nanofluid(?), the Darcy number(Da), and the Reynolds number(Re) on nanofluid treatment is demonstrated. Results prove that thermal radiation increases the temperature gradient near the positive electrode. Distortion of isotherms increases with the enhance of the Darcy number and the Coulomb force. Forced convection heat transfer of ethylene glycol based nanofluid with Fe_3O_4 inside a porous medium is studied using the electric field. The control volume based finite element method(CVFEM) is selected for numerical simulation. The impact of the radiation parameter(R_d), the supplied voltage(?φ), the volume fraction of nanofluid(?), the Darcy number(Da), and the Reynolds number(Re) on nanofluid treatment is demonstrated. Results prove that thermal radiation increases the temperature gradient near the positive electrode. Distortion of isotherms increases with the enhance of the Darcy number and the Coulomb force.

作者 M.SHEIKHOLESLAMI

机构地区 Department of Mechanical Engineering

出处《Applied Mathematics and Mechanics(English Edition)》 SCIE EI CSCD 2018年第9期1341-1352,共12页 应用数学和力学（英文版）

关键词 control volume based finite element method(CVFEM) porous medium Coulomb force NANOFLUID thermal radiation electric field control volume based finite element method(CVFEM) porous medium Coulomb force nanofluid thermal radiation electric field

分类号 O361 [理学—流体力学]

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Investigation of Coulomb force effects on ethylene glycol based nanofluid laminar flow in a porous enclosure

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