TY - JOUR
TI - Unsteady flow of Casson nanofluid through generalized Fourier's and Fick's law for heat and mass transfer
AU - Wang Ye-Qi
AU - Shafique Ahmad
AU - Nisa Zaib Un
AU - Asjad Muhammad Imran
AU - Nazar Mudassar
AU - Inc Mustafa
AU - Yao Shao-Wen
JN - Thermal Science
PY - 2022
VL - 26
IS - 101
SP - 29
EP - 38
PT - Article
AB - The purpose of this paper to explain the role and importance of fractional  derivatives for mass and heat transfer in Casson nanofluids including clay  nanoparticles. These particles can be found in water, kerosene, and engine  oil. The physical flow phenomena are illustrated using PDE and  thermophysical nanoparticle properties, and this paper addresses the Casson  fractional fluid along with chemical reaction and heat generation. The heat  and mass fluxes are generalized using the constant proportional Caputo  fractional derivative. The present flow model are solved semi-analytically  using the Laplace transform. We generated several graphs to understand how  various flow factors affect velocity. The acquired results reveal that  fractional parameters have dual behavior in velocity profiles. Velocity and  temperature are also compared to previous studies. Compared to the other  fractional derivatives results, field variables and proposed hybrid  fractional derivatives showed a more decaying trend. Furthermore,  significant results of clay nanoparticles with various base fluids have  been obtained.