Effect of thermal radiation and nth order chemical reaction on non-Darcian mixed convective MHD nanofluid flow with non-uniform heat source/sink

被引：3

作者：

Sarkar A. ^{[1
]}

Mondal H. ^{[2
]}

Nandkeolyar R. ^{[1
]}

机构：

[1] Department of Mathematics, National Institute of Technology Jamshedpur, Jamshedpur

[2] Department of Applied Mathematics, Maulana Abul Kalam Azad University of Technology, West Bengal

来源：

International Journal of Ambient Energy | 2023年 / 44卷 / 01期

关键词：

chemical reaction; MHD; Mixed convection; nanofluid; non-uniform heat source/sink; SQLM;

D O I：

10.1080/01430750.2023.2198534

中图分类号：

学科分类号：

摘要：

The present perusal is to scrutinize the consequences of free-forced convective heat-mass transportation and (Formula presented.) order chemical reaction on MHD, non-Darcian, incompressible nanofluid fluid flow through an extended lamina, immersed in a permeable medium along with an external constant magnetic field. The fluid flow governing equations (PDEs) has been transformed into a system of nonlinear ODEs with the help of appropriate similarity transformation, and then solved numerically by using SQLM (Spectral quasilinearization method) method. Solution error for temperature and concentration profile against radiation parameter, Brownian motion parameter, and Hartman number also has been depicted diagrammatically. The graphical representation shows that the Hartman number, Brownian motion parameter, and chemical reaction parameter decline in velocity. While, the thermal boundary layer enhances with an enhancement of the Hartman number, Brownian motion parameter, radiation parameter, and chemical reaction parameter. Generation of entropy increases with the Brinkman number, Reynolds number, and Hartman number in the vicinity of the stretching lamina. Brinkman number and Reynolds number reduce the Bejan number. For the engineering interest Skin-friction, the local Nusselt number, and local Sherwood number also have been calculated. Impacts of pertinent parameters on the skin friction, Nusselt number, and Sherwood number are examined graphically and also numerically. © 2023 Informa UK Limited, trading as Taylor & Francis Group.

引用

页码：1931 / 1947

页数：16

共 54 条

[1]

Abderrahmane A., Younis O., Al-Khaleel M., Laidoudi H., Akkurt N., Guedri K., Marzouki R., 2D MHD Mixed Convection in a Zigzag Trapezoidal Thermal Energy Storage System Using NEPCM, Nanomaterials, 12, 19, (2022)

[2]

Alagumalai A., Qin C., Vimal K.E.K., Solomin E., Yang L., Zhang P., Otanicar T., Et al., Conceptual Analysis Framework Development to Understand Barriers of Nanofluid Commercialization, Nano Energy, 92, (2022)

[3]

Bafakeeh O.T., Raza A., Khan S.U., Khan M.I., Nasr A., Khedher N.B., Tag-Eldin E.S.M., Physical Interpretation of Nanofluid (Copper Oxide and Silver) with Slip and Mixed Convection Effects: Applications of Fractional Derivatives, Applied Sciences, 12, 21, (2022)

[4]

Bejawada S.G., Reddy Y.D., Jamshed W., Nisar K.S., Alharbi A.N., Chouikh R., Radiation Effect on MHD Casson Fluid Flow Over an Inclined Non-Linear Surface with Chemical Reaction in a Forchheimer Porous Medium, Alexandria Engineering Journal, 61, 10, pp. 8207-8220, (2022)

[5]

Bhatti M.M., Anwar Beg O., Ellahi R., Abbas T., Natural Convection Non-Newtonian EMHD Dissipative Flow Through a Microchannel Containing a Non-Darcy Porous Medium: Homotopy Perturbation Method Study, Qualitative Theory of Dynamical Systems, 21, 4, (2022)

[6]

Bhatti M.M., Oztop H.F., Ellahi R., Study of the Magnetized Hybrid Nanofluid Flow Through a Flat Elastic Surface with Applications in Solar Energy, Materials, 15, 21, (2022)

[7]

Bhatti M.M., Shahid A., Sarris I.E., Anwar Beg O., Spectral Relaxation Computation of Maxwell Fluid Flow from a Stretching Surface with Quadratic Convection and Non-Fourier Heat Flux Using Lie Symmetry Transformations, International Journal of Modern Physics B, (2022)

[8]

Can A., Selimefendigil F., Oztop H.F., A Review on Soft Computing and Nanofluid Applications for Battery Thermal Management, Journal of Energy Storage, 53, (2022)

[9]

Chamkha A.J., Khaled A.-R.A., Similarity Solutions for Hydromagnetic Mixed Convection Heat and Mass Transfer for Hiemenz Flow Through Porous Media, International Journal of Numerical Methods for Heat & Fluid Flow, 10, 1, pp. 94-115, (2000)

[10]

Gulle N., Kodi R., Soret Radiation and Chemical Reaction Effect on MHD Jeffrey Fluid Flow Past an Inclined Vertical Plate Embedded in Porous Medium, Materials Today: Proceedings, 50, pp. 2218-2226, (2022)

← 1 2 3 4 5 6 →