TY - JOUR
TI - Heat and mass transport of hydromagnetic Williamson nanofluid passing through a permeable media across an extended sheet of varying thickness
AU - Jangid Sanju
AU - Mehta Ruchika
AU - Singh Jagdev
AU - Baleanu Dumitru
AU - Alshomrani Ali Saleh
JN - Thermal Science
PY - 2023
VL - 27
IS - 101
SP - 129
EP - 140
PT - Article
AB - The primary goal of this work is to determine heat and mass transfer through  fluid-flows sheets dealing mathematical modelling for stagnant and varying  thick­ness, considering magnetic fields, permeability, heat source/sink,  radiation, Joule heating, chemical reactions, and buoyancy force. The  Runge-Kutta fourth order Method (RK-4th order) is used to transform PDE into  ODE utilizing similarity con­versions. To tabularize mathematical remarks of  the local parameters, RK-4th has been developed in MATLAB. For diverse  parameters under diverse constant and changing thickness circumstances of  fluid characteristics, Nusselt and Sherwood parameters are examined and  quantified. Temperature, velocity, and volume frac­tion graphical  representations are used to describe the effects of various factors. When it  comes to irregular fluid properties, the coefficient of skin friction has a  bigger impact than when it comes to continuous fluid characteristics.  However, in the situation of inconstant fluid properties, the local Nusselt  number is smaller than in the case of constant fluid characteristics. The RK  4th technique produced high precision computational results, according to  the findings.