Abstract
A detailed study of the erratic circulation around an unbounded inclined plate under fluctuating temperature and isothermal mass dispersion was carried out with a chemical reaction. This work concentrated on the harmonic inclination of the plate in its plane, and the accurate solution of the non-dimensional governing formulations was made possible by the Laplace transform technique. To evaluate their impact on different profiles, the investigation examined a variety of physical factors, including phase inclination, chemical response variable, Schmidt number, thermal Grashof number, mass Grashof number, and duration. Notably, the speed per second increased with decreasing phase angle. Furthermore, a decrease in either the thermal radiation variable or the chemical response variable induced an increase in velocity.
Publisher
University of Zielona Góra, Poland
Reference47 articles.
1. MHD free-convection and mass-transform flow through a porous medium
2. Natural convection from an inclined plate embedded in a variable porosity porous medium due to solar radiation
3. Heat and mass transfer in MHD flow by natural convection from a permeable, inclined surface with variable wall temperature and concentration
4. Alam M.S., Rahman M.M. and Sattar M.A. (2006): MHD free convective heat and mass transfer flow past an inclined surface with heat generation.– Thamasat. Int. J. Sc. Technol., vol.11, No.4, pp.1-8.
5. Bég O.A., Bég T.A., Bakier A.Y. and Prasad V.R. (2009): Chemically-reacting mixed convective heat and mass transfer along inclined and vertical plates with Soret and Dufour effects: numerical solution.– Int. J. of Appl. Math. and Mech., vol.5, No.2, pp.39-57.