MHD convective stagnation flow of nanofluid over a shrinking surface with thermal radiation, heat generation and chemical reaction

- Wahiduzzaman, Mohammad; Khan, Md. Mostafizur; Karim, Ifsana

Title
MHD convective stagnation flow of nanofluid over a shrinking surface with thermal radiation, heat generation and chemical reaction
Creator
Wahiduzzaman, Mohammad; Khan, Md. Mostafizur; Karim, Ifsana
Relation
6th BSME International Conference on Thermal Engineering (ICTE 2014). 6th BSME International Conference on Thermal Engineering [presented in Procedia Engineering, Vol. 105 No. 2015] (Dhaka, Bangladesh 19-21 December, 2014) p. 398-405
Publisher Link
http://dx.doi.org/10.1016/j.proeng.2015.05.025
Publisher
Elsevier
Resource Type
conference paper
Date
2015
Description
The present study numerically investigates the phenomena of the steady two-dimensional magnetohydrodynamic(MHD) stagnation-point and heat-mass transfer flow of a nanofluid past a shrinking sheet with the influence of thermal radiation, heat generation and chemical reaction. The effect of Brownian motion and thermophoresis are well-thought-out instantaneously. A similarity solution is presented which depends on the magnetic parameter (M), Grash of number (Gr), modified Grash of number (Gm), heat generation parameter (Q), radiation parameter (R), Brownian motion number (Nb), thermophoresis number (Nt), Prandtl number (Pr), Lewis number (Le), Chemical reaction parameter (γ) and the ratio of the rate constants of the shrinking velocity to the free stream velocity (α). A shooting technique is employed to solve this similarity model numerically. The results of the present analysis is going to observe the velocity, temperature, concentration, the wall shear stress, the Nusselt number and the Sherwood number at the different situation and dependency of different parameters. A comparative study is also being shown between the previously published results and the present results for the accuracy and interesting findings of the present research.
Subject
magnetohydrodynamic stagnation-point flow; heat transfer; nanofluid; shrinking sheet
Identifier
http://hdl.handle.net/1959.13/1330477
Identifier
uon:26401
Identifier
ISSN:1877-7058
Rights
© 2015 The Authors. Published by Elsevier Ltd. This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/)
Language
eng
Full Text
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