Abstract
This research paper deals with the effect of chemical reactions and magnetic fields on the hydrodynamics fluid flow of Casson fluid. The novelty of this work is the inclusion of time-dependent flow across a vertical plate with a stepped concentration at the surface in a porous media. The stated phenomenon is modeled in the PDE system and is adapted in the ODE system through similarity transformation. The LT (Laplace Transform) and ILT (Inverse LT) are used to obtain the analytical results for regulating dimension-free movement, thermals, and concentration expression. The exact expression of shear rate, heat exchange rate, and mass exchange rate are obtained. The consequences of different tangible parameters in proposed problems were presented by diagrams. From the result, it is concluded that velocity profiles are delayed with rising the number of magnetic fields. It can be analyzed that temperature is enhanced with thermal radiation, whereas concentration profiles are delayed with chemical reaction parameters.
Recommended Citation
Mittal, Akhil; Patel, Harshad; Patoliya, Ramesh; and Gohil, Vimalkumar
(2024).
Effects of Magnetic Field and Chemical Reaction on a Time Dependent Casson Fluid Flow,
Applications and Applied Mathematics: An International Journal (AAM), Vol. 19,
Iss.
3, Article 8.
Available at:
https://digitalcommons.pvamu.edu/aam/vol19/iss3/8