Journal ArticleDOI
Influence of chemical reaction and thermal radiation on the heat and mass transfer in MHD micropolar flow over a vertical moving porous plate in a porous medium with heat generation
R.A. Mohamed,S.M. Abo-Dahab +1 more
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TLDR
In this article, the effects of chemical reaction and thermal radiation on hydromagnetic free convection heat and mass transfer for a micropolar fluid via a porous medium bounded by a semi-infinite vertical porous plate in the presence of heat generation are analyzed.About:
This article is published in International Journal of Thermal Sciences.The article was published on 2009-09-01. It has received 103 citations till now. The article focuses on the topics: Heat generation & Natural convection.read more
Citations
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Note on the effect of thermal radiation in the linearized Rosseland approximation on the heat transfer characteristics of various boundary layer flows
TL;DR: In this article, the effect of thermal radiation in the linearized Rosseland approximation is shown to be quite trivial, both physically and computationally, and it always reduces to a simple rescaling of the Prandtl number by a factor involving the radiation parameter.
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Micropolar fluid flow and heat transfer in a permeable channel using analytical method
TL;DR: In this article, the effects of significant parameters such as Reynolds number, micro rotation/angular velocity and Peclet number on the flow, heat transfer and concentration characteristics are discussed.
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Effects of Soret Dufour, chemical reaction and thermal radiation on MHD non-Darcy unsteady mixed convective heat and mass transfer over a stretching sheet
Dulal Pal,Hiranmoy Mondal +1 more
TL;DR: In this article, the combined effects of Soret (thermal-diffusion) and Dufour (diffusion-thermo) on unsteady MHD non-Darcy mixed convection over a stretching sheet embedded in a saturated porous medium in the presence of thermal radiation, viscous dissipation and first-order chemical reaction are analyzed.
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Analytical study of micropolar fluid flow and heat transfer in a channel with permeable walls
TL;DR: In this paper, the least square method (LSM) was used to solve the problem of micropolar fluid flow in a channel subject to a chemical reaction and the results reveal that the LSM can achieve suitable results in predicting the solution of these problems.
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Combined effect of heat generation or absorption and first-order chemical reaction on micropolar fluid flows over a uniformly stretched permeable surface
TL;DR: In this article, the authors focused on the study of combined heat and mass transfer by natural convection of a micropolar, viscous and heat generating or absorbing fluid flow near a continuously moving vertical permeable infinitely long surface in the presence of a first-order chemical reaction.
References
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Theory of Micropolar Fluids
TL;DR: In this paper, the authors derived equations of motion, constitutive equations and boundary conditions for a class of fluids named micropolar fluids, which respond to micro-rotational motions and spin inertia and therefore can support couple stress and distributed body couples.
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Theory of thermomicrofluids
TL;DR: In this paper, the simple microfluid theory of Eringen is extended to include the heat conduction and heat dissipation effects, and the exact nonlinear theory is presented and restricted by the axioms of constitution and the second law of thermodynamics.
Book
Micropolar fluids : theory and applications
TL;DR: In this article, the model of Ordinary and Polar Fluids is described, and a description of the model is given, together with a discussion of its application in various applications.
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Effects of mass transfer on flow past an impulsively started infinite vertical plate with constant heat flux and chemical reaction
TL;DR: An exact solution to the flow due to impulsive motion of an infinite vertical plate in its own plane in the presence of i) species concentration ii) constant heat flux at the plate iii) chemical reaction of first order, has been derived by the Laplace transform technique as discussed by the authors.