Journal ArticleDOI
A note on heat transfer to MHD oscillatory flow in an asymmetric wavy channel
R. Muthuraj,Suripeddi Srinivas +1 more
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TLDR
In this article, the MHD oscillatory flow of an optically thin fluid in an asymmetric wavy channel filled with porous medium was investigated and analytical solutions for fluid velocity, temperature distribution, Nusselt number and skin friction were constructed.About:
This article is published in International Communications in Heat and Mass Transfer.The article was published on 2010-11-01. It has received 38 citations till now. The article focuses on the topics: Nusselt number & Hartmann number.read more
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Chemical reaction and heat source effects on MHD oscillatory flow in an irregular channel
TL;DR: In this article, the effect of heat and mass transfer on MHD oscillatory flow in an asymmetric wavy channel with chemical reaction and heat source was investigated and the analytical results are evaluated numerically and then are presented graphically to discuss the effects of different parameters entering into the problem.
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Chemical reaction effects on unsteady MHD free convective flow in a rotating porous medium with mass transfer
TL;DR: In this paper, an investigation of unsteady MHD free convective flow and mass transfer during the motion of a viscous incompressible fluid through a porous medium, bounded by an infinite vertical porous surface, in a rotating system is presented.
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Variable properties of MHD third order fluid with peristalsis
TL;DR: In this paper, the impact of temperature dependent variable properties on peristaltic flow of third order fluid in a symmetric channel is addressed, where the MHD fluid and viscous dissipation effects are taken into account.
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MHD oscillatory flow of a Jeffrey fluid in a vertical porous channel with viscous dissipation
R.K. Selvi,R. Muthuraj +1 more
TL;DR: In this article, the authors investigated unsteady MHD convective flow in a vertical porous channel with viscous dissipation, and the governing coupled partial differential equations of the problem was reduced to ordinary differential equations and then solved by homotopy analysis method.
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Analysis of heat and chemical reaction on an asymmetric laminar flow between slowly expanding or contracting walls
TL;DR: In this article, the effects of heat and mass transfer on asymmetric laminar flow in a porous channel with expanding or contracting walls in the presence of a chemical reaction were investigated.
References
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Journal ArticleDOI
Peristaltic transport of a Newtonian fluid in an asymmetric channel
TL;DR: In this paper, the peristaltic transport of an incompressible viscous fluid in an asymmetric channel is studied under long-wavelength and low-Reynolds number assumptions.
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Mixed convection heat and mass transfer along a vertical wavy surface
Jer-Huan Jang,Wei-Mon Yan +1 more
TL;DR: In this paper, a numerical study of mixed convection heat and mass transfer along a vertical wavy surface has been carried out numerically, including the developments of skin-friction coefficient, velocity, temperature, concentration, Nusselt number as well as Sherwood number.
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Free convective heat transfer in a viscous incompressible fluid confined between a long vertical wavy wall and a parallel flat wall
TL;DR: In this paper, the effect of the waviness of one of the walls on the flow and heat transfer characteristics of an incompressible viscous fluid confined between two long vertical walls and set in motion by a difference in the wall temperatures is investigated.
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Natural convection heat and mass transfer near a vertical wavy surface with constant wall temperature and concentration in a porous medium
TL;DR: In this article, a simple coordinate transformation is employed to transform the complex wavy surface to a flat plate, and the obtained boundary layer equations is then solved by the local nonsimilarity method and the cubic spline collocation method.
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Simulation of heat transfer on an oscillatory blood flow in an indented porous artery
A. Ogulu,T.M. Abbey +1 more
TL;DR: In this paper, the effect of heat transfer on the motion of blood in a diseased artery has been modeled under the optically thin fluid assumption, and closed-form analytical solutions are obtained for the volume flow rate, rate of heat transferred and shear stress at the vessel wall.