Abstract
In this current study, we investigated the boundary layer steady nanofluid flow which
is viscous. Utilizing the spectral quasi-linearization method (SQLM), the mathematical model
has been solved. To analyze the convergence of the numerical method, we calculated the
residual errors that are approximately less by [10-8
]. The local Sherwood number, the
coefficient of the rate of heat transfer, and the local drag force coefficient along with various
flow parameters are analyzed numerically and graphically. The influence of thermophoresis
and Brownian motion has also been discussed briefly.
Keywords: Brownian motion, Heat generation, Nanofluids, Thermophoresis.
Related Books
6G Wireless Communications and Mobile Networking
Recent Advances in Renewable Energy
Recent Advances in Renewable Energy
Recent Advances in Renewable Energy
Recent Advances in Renewable Energy
Recent Advances in Renewable Energy
Solar Thermal Systems: Thermal Analysis and its Application
Recent Developments in Artificial Intelligence and Communication Technologies
40 YEARS OF SHS: A LUCKY STAR OF A SCIENTIFIC DISCOVERY A Presentation with Elements of a Scientific Lecture
A Review: Chill-Block Melt Spin Technique, Theories & Applications