Nonlinear Thermal Radiation Effect on 3D Nanofluid Flow with Convective and Slip Condition via Stretching/Shrinking Surface-Reference-Cited by-同舟云学术

Nonlinear Thermal Radiation Effect on 3D Nanofluid Flow with Convective and Slip Condition via Stretching/Shrinking Surface

Published:2022-09-22 Issue: Volume: Page:
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Author:

Jagadeesh Shiva¹,Reddy M. Chenna krishna¹,Tarakaramu Nainaru²,Sivakumar Narsu³,Sivajothi Ramalingam⁴

Affiliation:

1. Osmania University

2. Annamacharya Institute of Technology & Sciences

3. SRM Institute of Science and Technology

4. Lakshmipathy College of Science)

Abstract

Abstract A numerical technique for the nonlinear thermal radiation effect on 3D (“Three Dimensional”) nanofluid (NFs) motion through shrinking or stretching surface with convective boundary condition is examined. In this investigation we use the convective and velocity slip conditions. The governing equations were converted into a set of couple non-linear ODE’s by suitable similarity transformations. The converted nonlinear equations are obtained by applying R-K-F (“Range-Kutta-Fehlberg”) procedure along with shooting technique. The physical parameters are explained graphically on velocity, temperature and concentration. Moreover, we found the coefficient of skin friction, rate of heat transfer with various nanofluid parameters. It is very good agreement when compared with previous study.

Publisher

Research Square Platform LLC

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