Publication Type : Journal Article
Publisher : IOP Publishing
Source : Communications in Theoretical Physics Volume 73 Issue 9 Pages 095005, 2021
Url : https://iopscience.iop.org/article/10.1088/1572-9494/ac0a65/meta
Campus : Bengaluru
School : School of Engineering
Department : Mathematics
Year : 2021
Abstract : The current mathematical model explains the influence of non-linear thermal radiation on the Casson liquid flow over a moving thin needle by considering Buongiorno's nanofluid model. The influences of Stefan blowing, Dufour and Soret effects are also considered in the model. The equations which represent the described flow pattern are reduced to ordinary differential equations (ODEs) by using apt similarity transformations and then they are numerically solved with Runge–Kutta-Fehlberg's fourth fifth-order method (RKF-45) with shooting process. The impacts of pertinent parameters on thermal, mass and velocity curves are deliberated graphically. Skin friction, rate of heat and mass transfer are also discussed graphically. Results reveal that, the increase in values of Brownian motion, thermophoresis, Dufour number, heating and radiative parameters improves the heat transfer. The increasing values of the Schmidt number deteriorates the mass transfer but a converse trend is seen for increasing values of the Soret number. Finally, the escalating values of the radiative parameter decays the rate of heat transfer.
Cite this Research Publication : AM Jyothi, R Naveen Kumar, RJ Punith Gowda, BC Prasannakumara, "Significance of Stefan blowing effect on flow and heat transfer of Casson nanofluid over a moving thin needle", Communications in Theoretical Physics Volume 73 Issue 9 Pages 095005, 2021