CFD Simulation of Water-Based Hybrid Nanofluid Inside a Porous Enclosure Employing Lorentz Forces

被引：31

作者：

Shah, Zahir ^{[1
]}

Sheikholeslami, Mohsen ^{[2
,3
]}

Kumam, Poom ^{[4
,5
,6
]}

Shutaywi, Meshal ^{[7
]}

Thounthong, Phatiphat ^{[8
]}

机构：

[1] KMUTT, Ctr Excellence Theoret & Computat Sci TaCS CoE, SCL 802 Fixed Point Lab, Sci Lab Bldg, Bangkok 10140, Thailand

[2] Babol Noshirvani Univ Technol, Dept Mech Engn, Babol Sar 4714871167, Iran

[3] Babol Noshirvani Univ Technol, Renewable Energy Syst & Nanofluid Applicat Heat T, Babol Sar 4714871167, Iran

[4] King Mongkuts Univ Technol Thonburi, Fac Sci, Dept Math, KMUTT Fixed Point Res Lab,Fixed Point Lab, Room SCL 802,Sci Lab Bldg, Bangkok 10140, Thailand

[5] King Mongkuts Univ Technol Thonburi, Theoret & Computat Sci Ctr, KMUTT Fixed Point Theory & Applicat Res Grp, Fac Sci, Sci Lab Bldg, Bangkok 10140, Thailand

[6] China Med Univ, China Med Univ Hosp, Dept Med Res, Taichung 40402, Taiwan

[7] King Abdulaziz Univ, Coll Sci & Arts, Dept Math, Rabigh 21911, Saudi Arabia

[8] King Mongkuts Univ Technol North Bangkok, Fac Tech Educ, Dept Teacher Training Elect Engn, Renewable Energy Res Ctr, Bangkok 10800, Thailand

来源：

IEEE ACCESS | 2019年 / 7卷

关键词：

Radiation; Lorentz forces; permeability; free convection; hybrid nanofluid; CVFEM; CONVECTIVE HEAT-TRANSFER; NON-NEWTONIAN NANOFLUID; ENTROPY GENERATION; THERMAL-INSTABILITY; NATURAL-CONVECTION; FLOW; IMPACT; MHD; VISCOSITY; LAYER;

D O I：

10.1109/ACCESS.2019.2955775

中图分类号：

TP [自动化技术、计算机技术];

学科分类号：

0812 ;

摘要：

This research paper deals with the study of hybrid nanofluid flow with free convection in a permeable media using CVFEM. Hybrid nanoparticle (Fe3O4 + MWCNT) with base fluid H2O has been assumed. The magnetic effect is applied on hybrid nanofluid. In addition, the Non-Darcy model is used and the source term of radiation influence has designated for innumerable forms of nanofluids. Flow design was described for wide range of examined parameters. It proved that augmenting the porousness factor can increase the Nusselt number, but converse performance is conveyed for Lorentz forces. The convective nanomaterials flow intensity enhances with increase of penetrability and stronger thermal effect. Augmented magnetic field produces feebler convective flow and inferior temperature gradient. As temperature of heat source reduces with rise of Hartmann number, Nu(ave) decreases and greater exergy loss occurs.

引用

页码：177177 / 177186

页数：10

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