Numerical simulation of two-dimensional fins using the meshless local Petrov – Galerkin method

Abstract: Purpose The study aims to highlight the behaviour of one-dimensional and two-dimensional fin models under the natural room conditions, considering the different values of dimensionless Biot number (Bi). The effect of convection and radiation on the heat transfer process has also been demonstrated using the meshless local Petrov–Galerkin (MLPG) approach. Design/methodology/approach It is true that MLPG method is time-consuming and expensive in terms of man-hours, as it is in the developing stage, but with the… Show more

“…Most mathematical models with application in mechanics and mathematical biology have been solved by the finite element methods (Lewis et al, 1996;Lewis et al, 2004;Lewis and Ravindran, 2000;Lewis and Sukirman, 1993). Garg et al (2020) solved the 2D fins using the MLPG method. The system of equations for fractional thermo-viscoelasticity is used in Ezzat and Lewis (2021) to investigate two-dimensional bioheat transfer and heat-induced mechanical response in human skin tissue with rheological properties.…”

Simulation of predator–prey system with two-species, two chemicals and an additional chemotactic influence via direct meshless local Petrov–Galerkin method

“…Most mathematical models with application in mechanics and mathematical biology have been solved by the finite element methods (Lewis et al, 1996;Lewis et al, 2004;Lewis and Ravindran, 2000;Lewis and Sukirman, 1993). Garg et al (2020) solved the 2D fins using the MLPG method. The system of equations for fractional thermo-viscoelasticity is used in Ezzat and Lewis (2021) to investigate two-dimensional bioheat transfer and heat-induced mechanical response in human skin tissue with rheological properties.…”

Simulation of predator–prey system with two-species, two chemicals and an additional chemotactic influence via direct meshless local Petrov–Galerkin method

Investigation of diabatic imparity involving asymmetric convection in two-dimensional longitudinal fins using lattice Boltzmann solver