Abstract
A Mathematical model for MHD flow of blood between a parallel plate channel with the effect of heat transfer and mass transfer has been investigated. An inclined magnetic field has been applied to the parallel plates filed with porous substance. The partial differential equations which are governing the flow field have been resolved numerically by applying non-dimensional parameters. The effect of inclination of magnetic field on the parallel plate channel has been analyzed, furthermore the effect of Prandtl number, thermal radiation, heat source parameter, chemical reaction parameter on the flow of blood has been studied in detail. The numerical results are analyzed and are represented graphically in the form of velocity profile, temperature profile and concentration profile. Moreover, the velocity of blood, temperature profile and concentration profile is adapting a wavy pattern as the various parameters vary.
 HIGHLIGHTS
 
 Heat and Mass transfer in hydro dynamical and biological systems is relevant in lots ofdiagnostic and coronary heart related issues that contains the changes in temperature hence this study can be of greater importance
 This study analyses the effect of Inclination of magetic field and heat source parameter on the flow of blood through parallel plate channel which can be utilised in the field of medical science
 Maximum emphasis is given on the blood flow with the impact of different parameters and how it behaves under the influence of these forces hence providing a pathway to deal with many deadly heart related diseases
 
 GRAPHICAL ABSTRACT
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