A review of cooling in microchannels
Advancements in electronic performance result in a decrease in device size and increase in
power density. Because of these advancements, current cooling mechanisms for electronic …
power density. Because of these advancements, current cooling mechanisms for electronic …
A comprehensive review on gas flow in microchannels
A Agrawal - International Journal of Micro-Nano Scale Transport, 2011 - repository.ias.ac.in
A review of gas flow in microchannels of different cross-sections is presented in this article.
The phenomenon of slip, slip models and measurement of slip coefficient are first discussed …
The phenomenon of slip, slip models and measurement of slip coefficient are first discussed …
A review of the methods of modeling multi-phase flows within different microchannels shapes and their applications
In industrial processes, the microtechnology concept refers to the operation of small devices
that integrate the elements of operational and reaction units to save energy and space. The …
that integrate the elements of operational and reaction units to save energy and space. The …
[HTML][HTML] Statistical assessment of tangential momentum accommodation coefficient using internal flow rate model based on rarefied gas conditions
J Lee, JH Kim - Results in Physics, 2022 - Elsevier
In this paper, we refer previously reported numerical data to design a new analytic equation
for Poiseuille flow in a circular channel. Superposition of the continuum, slip, and free …
for Poiseuille flow in a circular channel. Superposition of the continuum, slip, and free …
Improve the performance of lattice Boltzmann method for a porous nanoscale transient flow by provide a new modified relaxation time equation
Abstract Lattice Boltzmann Method (LBM) is a statistical approach for simulating fluid flow in
porous media. LBM is a method based on the kinetic theory of gases and thus is a very …
porous media. LBM is a method based on the kinetic theory of gases and thus is a very …
Magnetohydrodynamic (MHD) convective nanofluid flow, heat transfer and irreversibility analysis in a horizontal micro tall cavity with heat sources in the slip regime
The contemporary study aims to numerically analyze the MHD convective heat transfer and
entropy generation analysis for the case of a micro open tall cavity filled with Al2O3/water …
entropy generation analysis for the case of a micro open tall cavity filled with Al2O3/water …
Heat transfer characteristics of sublimation from frozen thin films
Thin-film freeze-drying (TFFD) is an alternative to conventional freeze-drying (CFD) where
frozen films are lyophilized as a bed of particles. In this study, we investigated the heat …
frozen films are lyophilized as a bed of particles. In this study, we investigated the heat …
Heat Transfer Performance of Novel SiO2 Nanoaerosol: The Numerical Investigation
Presently nanoaerosol technology has widened its application in the heat transfer area and
found to be exhibiting remarkable heat transfer characteristics. This paper focuses on a …
found to be exhibiting remarkable heat transfer characteristics. This paper focuses on a …
Finite element modeling of atmospheric water extraction by way of highly porous adsorbents: a roadmap for solver construction with model factor sensitivity screening
A finite element model (FEM) is developed for use in determining adsorption system
performance. The model is intended to guide novel adsorbent structure fabrication and …
performance. The model is intended to guide novel adsorbent structure fabrication and …
Application and comparison of different lattice Boltzmann methods on non-uniform meshes for simulation of micro cavity and micro channel flow
In this study, for the first time, a comparison of single-relaxation-time, multi-relaxation-time
and entropic lattice Boltzmann methods on non-uniform meshes is performed and …
and entropic lattice Boltzmann methods on non-uniform meshes is performed and …