Title : ( Direct Simulation Monte Carlo investigation of fluid characteristics and gas transport in porous microchannels )
Authors: VAHID SHARIATI , Mohammadhassan Ahmadian , Ehsan Roohi ,Abstract
The impetus of the current research is to use the direct simulation Monte Carlo (DSMC) algorithm to investigate fluid behaviour and gas transport in porous microchannels. Here, we demonstrate DSMC’s capability to simulate porous media up to 40% porosity. In this study, the porous geometry is generated by a random distribution of circular obstacles through the microchannel with no interpenetration between the obstacles. The influence of the morphology along with rarefaction and gas type on the apparent permeability is investigated. Moreover, the effects of porosity, solid particle’s diameter and specific surface area are considered. Our results demonstrate that although decreasing porosity intensifies tortuosity in the flow field, the tortuosity reduces at higher Knudsen numbers due to slip flow at solid boundaries. In addition, our study on two different gas species showed that the gas type affects slippage and apparent gas permeability. Finally, comparing different apparent permeability models showed that Beskok and Karniadakis model is valid only up to the early transition regime and at higher Knudsen numbers, the current data matches those models that take Knudsen diffusion into account as well.
Keywords
, DSMC, Rarefied gas, Porous media@article{paperid:1077049,
author = {SHARIATI, VAHID and Ahmadian, Mohammadhassan and Roohi, Ehsan},
title = {Direct Simulation Monte Carlo investigation of fluid characteristics and gas transport in porous microchannels},
journal = {Scientific Reports},
year = {2019},
volume = {9},
number = {1},
month = {November},
issn = {2045-2322},
keywords = {DSMC; Rarefied gas; Porous media},
}
%0 Journal Article
%T Direct Simulation Monte Carlo investigation of fluid characteristics and gas transport in porous microchannels
%A SHARIATI, VAHID
%A Ahmadian, Mohammadhassan
%A Roohi, Ehsan
%J Scientific Reports
%@ 2045-2322
%D 2019