2025, Vol. 10, Issue 9, Part A
Effect of asymmetric slip and Newtonian cooling on MHD, radiation, convective and heat and mass transfer flow of ethylene glycol based copper (CU) nanofluid in vertical channel with variable properties
Author(s): Raja Sekhara Reddy K and Hanumantha Reddy DT
Abstract: In this examination, the study of thermal radiation, dissipation, non-uniform heat sources on hydro magnetic rotating, convective heat and mass transfer flow of Eg based Cu nanofluid limited in a vertical channel with asymmetric slips and convective boundary conditions in the course of a porous medium. After evaluating the governing equations numerically, we find that increase in asymmetric slips (ao, a1) outcome in an augmentation in
u (velocity), q(temperature) and C (nano concentration) at h=0. An upsurge in Biot numbers (Bio, Bi1) augments u, q and C at η=±1. Stress, Nusselt (Nu) and Sherwood (Sh) numbers enhance with increase in Bio and depreciate with higher values of Bi1.
DOI: 10.22271/maths.2025.v10.i9a.2156Pages: 01-13 | Views: 44 | Downloads: 3Download Full Article: Click Here
How to cite this article:
Raja Sekhara Reddy K, Hanumantha Reddy DT.
Effect of asymmetric slip and Newtonian cooling on MHD, radiation, convective and heat and mass transfer flow of ethylene glycol based copper (CU) nanofluid in vertical channel with variable properties. Int J Stat Appl Math 2025;10(9):01-13. DOI:
10.22271/maths.2025.v10.i9a.2156
