We develop and apply an efficient multiscale method for simulating a large class of low-speed internal rarefied gas flows. The method is an extension of the hybrid atomistic-continuum approach proposed by Borg et al. (2013) [28] for the simulation of micro/nano flows of high-aspect ratio. The major new extensions are: (1) incorporation of fluid compressibility; (2) implementation using the direct simulation Monte Carlo (DSMC) method for dilute rarefied gas flows, and (3) application to a broader range of geometries, including periodic, non-periodic, pressure-driven, gravity-driven and shear-driven internal flows. The multiscale method is applied to micro-scale gas flows through a periodic converging-diverging channel (driven by an external ...
We present a hybrid molecular-continuum method for the simulation of general nano-fluidic networks, ...
We develop a new multiscale scheme for simulating micro/nano flows of high aspect ratio in the flow ...
International audienceThe present paper extends the hybrid atomistic-continuum multiscale method dev...
AbstractWe develop and apply an efficient multiscale method for simulating a large class of low-spee...
We develop and apply an efficient multiscale method for simulating a large class of low-speed intern...
AbstractThis paper describes the development and application of an efficient hybrid continuum-molecu...
This paper describes the development and application of an efficient hybrid continuum-molecular appr...
We develop, validate, and apply an efficient multiscale method for the simulation of a large class o...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/83650/1/AIAA-2010-820-828.pd
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/77289/1/AIAA-2008-1184-250.pd
This paper extends the hybrid computational method proposed by Docherty et al. (2014) for simulating...
AbstractThis paper extends the hybrid computational method proposed by Docherty et al. (2014) for si...
We present an internal-flow multiscale method (‘unsteady-IMM’) for compressible, time-varying/unstea...
AbstractWe present a new hybrid method for dilute gas flows that couples a continuum-fluid descripti...
Over the past half century, a variety of computational fluid dynamics (CFD) methods and the direct s...
We present a hybrid molecular-continuum method for the simulation of general nano-fluidic networks, ...
We develop a new multiscale scheme for simulating micro/nano flows of high aspect ratio in the flow ...
International audienceThe present paper extends the hybrid atomistic-continuum multiscale method dev...
AbstractWe develop and apply an efficient multiscale method for simulating a large class of low-spee...
We develop and apply an efficient multiscale method for simulating a large class of low-speed intern...
AbstractThis paper describes the development and application of an efficient hybrid continuum-molecu...
This paper describes the development and application of an efficient hybrid continuum-molecular appr...
We develop, validate, and apply an efficient multiscale method for the simulation of a large class o...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/83650/1/AIAA-2010-820-828.pd
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/77289/1/AIAA-2008-1184-250.pd
This paper extends the hybrid computational method proposed by Docherty et al. (2014) for simulating...
AbstractThis paper extends the hybrid computational method proposed by Docherty et al. (2014) for si...
We present an internal-flow multiscale method (‘unsteady-IMM’) for compressible, time-varying/unstea...
AbstractWe present a new hybrid method for dilute gas flows that couples a continuum-fluid descripti...
Over the past half century, a variety of computational fluid dynamics (CFD) methods and the direct s...
We present a hybrid molecular-continuum method for the simulation of general nano-fluidic networks, ...
We develop a new multiscale scheme for simulating micro/nano flows of high aspect ratio in the flow ...
International audienceThe present paper extends the hybrid atomistic-continuum multiscale method dev...