MHD nanofluid flow through Darcy medium with thermal radiation and heat source
- Title
- MHD nanofluid flow through Darcy medium with thermal radiation and heat source
- Creator
- Anwar M.S.; Muhammad T.; Khan M.; Puneeth V.
- Description
- In this analysis, we have considered heat transmission in two-dimensional steady laminar nanouid ow past a wedge. Magnetohydrodynamic (MHD), Brownian motion, viscous dissipation and thermophoresis eects are considered over the porous surface. Similarity transformations have been used to change the governing partial dierential equations (PDEs) into nonlinear higher-order ordinary dierential equations (ODEs). Governing ODEs with boundary conditions are then converted to the system of first-order initial value problem. After that the modeled system is solved numerically by RK4 technique. Impact of the magnetic number, Eckert number, Prandtl number, Lewis number, Brownian motion, thermophoresis and permeability parameters on the ow domain is analyzed graphically as well as in tabular form. It is noted that magnitude of Nusselt number for the ow regime increases with the increase of nondimensional parameter Pr; Nb; Nt while opposite behavior is observed in case of R. World Scientific Publishing Company.
- Source
- International Journal of Modern Physics B
- Date
- 2023-01-01
- Publisher
- World Scientific
- Subject
- heat transfer; Nanouid; porous medium; viscous dissipation; wedge
- Coverage
- Anwar M.S., Department of Mathematics, University of Jhang, Jhang, 35200, Pakistan; Muhammad T., Department of Mathematics, College of Science, King Khalid University, Abha, 61413, Saudi Arabia; Khan M., Faculty of Science, Jiangsu University, Jiangsu, Zhenjiang, 212013, China; Puneeth V., Department of Computational Sciences, Christ University, Delhi NCR, Ghaziabad, 201003, India
- Rights
- Restricted Access
- Relation
- ISSN: 2179792; CODEN: IJPBE
- Format
- Online
- Language
- English
- Type
- Article
Collection
Citation
Anwar M.S.; Muhammad T.; Khan M.; Puneeth V., “MHD nanofluid flow through Darcy medium with thermal radiation and heat source,” CHRIST (Deemed To Be University) Institutional Repository, accessed February 24, 2025, https://archives.christuniversity.in/items/show/14486.