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AuthorMuhammad N.
AuthorNadeem S.
AuthorMustafa M.T.
Available date2020-04-09T12:27:29Z
Publication Date2019
Publication NameCommunications in Theoretical Physics
ResourceScopus
ISSN2536102
URIhttp://dx.doi.org/10.1088/0253-6102/71/4/384
URIhttp://hdl.handle.net/10576/14015
AbstractA hybrid isothermal model for the homogeneous-heterogeneous reactions in ferrohydrodynamic boundary layer flow is established. The characteristics of Newtonian heating and magnetic dipole in a ferrofluid due to a stretchable surface is analyzed for three chemical species. It is presumed that the isothermal cubic autocatalator kinetic gives the homogeneous reaction and the first order kinetics gives the heterogeneous (surface) reaction. The analysis is carried out for equal diffusion coefficients of all autocatalyst and reactions. Heat flux is examined by incorporating Fourier's law of heat conduction. Characteristics of materialized parameters on the magneto-thermomechanical coupling in the flow of a chemically reactive species are investigated. Further, the heat transfer rate and friction drag are depicted for the ferrohydrodynamic chemically reactive species. It is evident that the Schmidt number has increasing behavior on the rate of heat transfer in the boundary layer. Comparison with available results for specific cases is found an excellent agreement.
Languageen
PublisherInstitute of Physics Publishing
SubjectFerromagnetic fluid
Friction drag
Heat transfer
Hybrid chemically reactive species
Newtonian heating
TitleHybrid isothermal model for the ferrohydrodynamic chemically reactive species
TypeArticle
Pagination384-392
Issue Number4
Volume Number71
dc.accessType Abstract Only


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