Research Article

Numerical Study of Liquid Metal MHD Duct Flow under Hydrodynamic ìSlipî Condition

by  Dipjyoti Sarma, P. N. Deka
journal cover
International Journal of Computer Applications
Foundation of Computer Science (FCS), NY, USA
Volume 81 - Issue 16
Published: November 2013
Authors: Dipjyoti Sarma, P. N. Deka
10.5120/14205-2381
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Dipjyoti Sarma, P. N. Deka . Numerical Study of Liquid Metal MHD Duct Flow under Hydrodynamic ìSlipî Condition. International Journal of Computer Applications. 81, 16 (November 2013), 7-10. DOI=10.5120/14205-2381

                        @article{ 10.5120/14205-2381,
                        author  = { Dipjyoti Sarma,P. N. Deka },
                        title   = { Numerical Study of Liquid Metal MHD Duct Flow under Hydrodynamic ìSlipî Condition },
                        journal = { International Journal of Computer Applications },
                        year    = { 2013 },
                        volume  = { 81 },
                        number  = { 16 },
                        pages   = { 7-10 },
                        doi     = { 10.5120/14205-2381 },
                        publisher = { Foundation of Computer Science (FCS), NY, USA }
                        }
                        %0 Journal Article
                        %D 2013
                        %A Dipjyoti Sarma
                        %A P. N. Deka
                        %T Numerical Study of Liquid Metal MHD Duct Flow under Hydrodynamic ìSlipî Condition%T 
                        %J International Journal of Computer Applications
                        %V 81
                        %N 16
                        %P 7-10
                        %R 10.5120/14205-2381
                        %I Foundation of Computer Science (FCS), NY, USA
Abstract

A numerical study for steady MHD flow of liquid metal through a square duct with slip walls has been carried out. An intense external magnetic field is acting normal to two walls of the square duct which are considered as slip walls. The numerical solutions for velocity and induced magnetic field have been obtained by using a 5 point stencil central difference scheme. Solutions for velocity and induced field for different values of Hartmann number and with consideration of a fixed value of slip length parameter are presented graphically.

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Index Terms
Computer Science
Information Sciences
No index terms available.
Keywords

Liquid metal Hartmann layer Square duct Slip length parameter

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