Abstract:
The aim of this study is to examine unsteady incompressible Magnetohy-
drodynamic fluid flow together with soret and dufour effects on mass and
heat transfer through a collapsible elastic tube. The governing equations are
continuity equation, momentum equation, energy equation and concentra-
tion equation. The velocity, temperature and concentration profiles togeth-
er with heat and mass transfer rate were determined. The system of nonli-
near partial differential equations governing the flow solved numerically by
applying collocation method and implemented in MATLAB. The numerical
solution of the profiles displayed both by graphically and numerically for
different values of the physical parameters entering into the problem. The
effects of varying various parameters such as Reynolds number, Hartmann
number, Soret number, Dufour number and Prandtl number on velocity,
temperature and concentration profiles also the rate of heat and mass trans-
fer are discussed. The study is significant because heat and mass transfer
mechanisms with the soret and dufour effects considerations play an im-
portant role due to its wide range of application including but not limited to
medical fields, biological sciences and other physical sciences where col-
lapsible tubes are applied.
