Open AccessMHD Flow of Nano-Fluid with Non-Uniform Heat Source or Sink in the Presence of Chemical Reaction and Activation Energy
Author(s) -
Akintayo Oladimeji Akindele,
Ogunsola Amos Wale,
Adebowale Martins Obalalu,
A. Davies Peter,
Ajala Olusegun Adebayo,
S. Alao
Publication year - 2021
Publication title -
journal of advance research in applied science
Language(s) - English
Resource type - Journals
ISSN - 2208-2352
DOI - 10.53555/nnas.v7i5.995
Subject(s) - heat sink , magnetohydrodynamics , mechanics , ordinary differential equation , partial differential equation , flow (mathematics) , boundary value problem , eckert number , fluid dynamics , materials science , maple , thermodynamics , differential equation , physics , magnetic field , mathematics , mathematical analysis , quantum mechanics , botany , reynolds number , biology , turbulence , nusselt number
The study of squeezing flow cannot be over emphasized due to its numerous applications in manufacturing industries, food processing, lubricating system, power transmission and medical equipment are few of such processes. This calls for more studies in the area of squeezing flow. MHD flow of nano-fluid with non-uniform heat source or sink in the presence of chemical reaction and activation energy were considered. The governing partial differential equations were transformed to ordinary differential equations in terms of suitable similarity variables together with the initial and boundary conditions. The resulting equations were then solved using Newton’s finite difference technique with the aid of MAPLE 18.0 software. The effect of radiation, magnetic parameter, temperature dependent heat source parameter, surface dependent heat source parameter and other associated physical parameters on the flow system were reported.