[BOOK][B] Macro-to microscale heat transfer: the lagging behavior
DY Tzou - 2014 - books.google.com
Physical processes taking place in micro/nanoscale strongly depend on the material types
and can be very complicated. Known approaches include kinetic theory and quantum …
and can be very complicated. Known approaches include kinetic theory and quantum …
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 …
Investigation of dual-phase-lag heat conduction model in a nanoscale metal-oxide-semiconductor field-effect transistor
This paper investigates the numerical simulation of non-Fourier transient heat transfer in a
two-dimensional sub-100nm metal-oxide-semiconductor field-effect transistor (MOSFET) …
two-dimensional sub-100nm metal-oxide-semiconductor field-effect transistor (MOSFET) …
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 …
Mesoscale investigation of specularity parameter impact on heat transport in graphene nanoribbon
Thermal transport in the Metal Oxide Semiconductor Field Effect Transistor (MOSFET) has
received increased attention across a number of disciplines in recent years. One of the most …
received increased attention across a number of disciplines in recent years. One of the most …
[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 …
[HTML][HTML] A novel SPH method for the solution of dual-phase-lag model with temperature-jump boundary condition in nanoscale
This paper proposes a newly developed smoothed-particle hydrodynamics (SPH) method
for the solution of one-dimensional heat conduction problem within a nanoscale thin slab for …
for the solution of one-dimensional heat conduction problem within a nanoscale thin slab for …
Study of robin condition influence on phonon nano-heat conduction using meso-scale method in MOSFET and SOI-MOSFET devices
Metal oxide semiconductor field effect transistor (MOSFET) is a major element of electronic
device circuits due to its ability to control the electrical signal. On the other hand, the size of …
device circuits due to its ability to control the electrical signal. On the other hand, the size of …
3D thermal conduction in a nanoscale Tri-Gate MOSFET based on single-phase-lag model
With the introduction of the new silicon on insulator (SOI)-Tri-Gate MOSFET technologies, it
is very necessary to simulate the thermal performance in these nano devices. We have to …
is very necessary to simulate the thermal performance in these nano devices. We have to …
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 …