MHD Arterial Blood Flow and Mass Transfer under the Presence of Stenosis, Body Acceleration and Chemical Reaction: A Case of Magnetic Therapy
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Date
2020-02-17Author
Mwapinga, Annord
Mureithi, Eunice
Makungu, James
Masanja, Verdiana Grace
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Show full item recordAbstract
A mathematical model has been developed and used to study pulsatile blood
flow and mass transfer through a stenosed artery in the presence of body acceleration and
magnetic fields. An explicit Finite Difference Method (FDM) has been used to discretize
the formulated mathematical model. The discretized model equations were solved in
MATLAB software to produce simulations. The effect of Hartman number, Reynolds
number, Schmidt number, stenotic height, body acceleration and chemical reactions have
been investigated. It has been observed that, the velocity, concentration and skin friction,
decrease with increasing stenotic height. Velocity on the other hand increases, as body
acceleration increases. It has further been observed that as the Hartman number increases,
both the radial and axial velocities diminish. Increase of the Reynolds number results in
the increase of the velocity profiles. The higher the chemical reaction parameter is, the
lower are the concentration profiles.