Macro-to nanoscale heat and mass transfer: the lagging behavior
The classical model of the Fourier's law is known as the most common constitutive relation
for thermal transport in various engineering materials. Although the Fourier's law has been …
for thermal transport in various engineering materials. Although the Fourier's law has been …
Electrohydrodynamics of a droplet in a highly confined domain: A numerical study
In this paper, electrohydrodynamics (EHD) deformation of a droplet in a highly confined
domain is studied by using the incompressible smoothed particle hydrodynamics method …
domain is studied by using the incompressible smoothed particle hydrodynamics method …
Implementation of Smoothed-Particle Hydrodynamics for non-linear Pennes' bioheat transfer equation
Non-linear Pennes' bioheat equation including the thermal wave model of bioheat transfer
as well as the dual-phase-lag model has been discretized using a mesh-free Smoothed …
as well as the dual-phase-lag model has been discretized using a mesh-free Smoothed …
Numerical schemes for solving the time-fractional dual-phase-lagging heat conduction model in a double-layered nanoscale thin film
This article proposes a time fractional dual-phase-lagging (DPL) heat conduction model in a
double-layered nanoscale thin film with the temperature-jump boundary condition and a …
double-layered nanoscale thin film with the temperature-jump boundary condition and a …
[PDF][PDF] Numerical algorithm with fourth-order spatial accuracy for solving the time-fractional dual-phase-lagging nanoscale heat conduction equation
Nanoscale heat transfer cannot be described by the classical Fourier law due to the very
small dimension, and therefore, analyzing heat transfer in nanoscale is of crucial importance …
small dimension, and therefore, analyzing heat transfer in nanoscale is of crucial importance …
Numerical simulation of dual-phase-lag bioheat transfer model during thermal therapy
This paper theoretically investigates the thermal behavior in a living biological tissue under
various coordinate systems and different non-Fourier boundary conditions with the dual …
various coordinate systems and different non-Fourier boundary conditions with the dual …
Improved Moving Particle Semi-implicit method for multiphase flow with discontinuity
J Wang, X Zhang - Computer Methods in Applied Mechanics and …, 2019 - Elsevier
The variation of physical properties across the interface and the inaccuracy of spatial
derivative on discontinuity contribute to the numerical instability in multiphase flow with large …
derivative on discontinuity contribute to the numerical instability in multiphase flow with large …
Dynamics of double emulsion interfaces under the combined effects of electric field and shear flow
In this paper, the dynamics of a 2D double emulsion under the combined effects of the
electric field and shear flow are studied by using an incompressible smoothed particle …
electric field and shear flow are studied by using an incompressible smoothed particle …
Numerical method for solving the time-fractional dual-phase-lagging heat conduction equation with the temperature-jump boundary condition
This article proposes a new nanoscale heat transfer model based on the Caputo type
fractional dual-phase-lagging (DPL) heat conduction equation with the temperature-jump …
fractional dual-phase-lagging (DPL) heat conduction equation with the temperature-jump …
Blood flow effects in thermal treatment of three-dimensional non-Fourier multilayered skin structure
M Jamshidi, J Ghazanfarian - Heat Transfer Engineering, 2021 - Taylor & Francis
The non-Fourier dual-phase-lag heat model has been solved as a well-known accurate
bioheat model to compute the temperature distribution in a three-dimensional multilayered …
bioheat model to compute the temperature distribution in a three-dimensional multilayered …