AbstractWe present a new hybrid method for dilute gas flows that couples a continuum-fluid description to the direct simulation Monte Carlo (DSMC) technique. Instead of using a domain-decomposition framework, we adopt a heterogeneous approach with micro resolution that can capture non-equilibrium or non-continuum fluid behaviour both close to bounding walls and in the bulk. A continuum-fluid model is applied across the entire domain, while DSMC is applied in spatially-distributed micro regions. Using a field-wise coupling approach, each micro element provides a local correction to a continuum sub-region, the dimensions of which are identical to the micro element itself. Interpolating this local correction between the micro elements then pro...
There is a tendency to cool mechanical and electrical components by microchannels. When the channel ...
We present a new hybrid method for simulating dense fluid systems that exhibit multiscale behaviour,...
The dynamics of a complex fluid or fluid close to interfaces is affected by its microscopic structur...
We present a new hybrid method for dilute gas flows that couples a continuum-fluid description to th...
AbstractWe present a new hybrid method for dilute gas flows that couples a continuum-fluid descripti...
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...
International audienceThe present paper extends the hybrid atomistic-continuum multiscale method dev...
We develop and apply an efficient multiscale method for simulating a large class of low-speed intern...
There is a tendency to cool mechanical and electrical components by microchannels. When the channel ...
There is a tendency to cool mechanical and electrical components by microchannels. When the channel ...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/77289/1/AIAA-2008-1184-250.pd
AbstractWe develop and apply an efficient multiscale method for simulating a large class of low-spee...
International audienceA hybrid atomistic-continuum method devoted to the study of multi-scale proble...
There is a tendency to cool mechanical and electrical components by microchannels. When the channel ...
We present a new hybrid method for simulating dense fluid systems that exhibit multiscale behaviour,...
The dynamics of a complex fluid or fluid close to interfaces is affected by its microscopic structur...
We present a new hybrid method for dilute gas flows that couples a continuum-fluid description to th...
AbstractWe present a new hybrid method for dilute gas flows that couples a continuum-fluid descripti...
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...
International audienceThe present paper extends the hybrid atomistic-continuum multiscale method dev...
We develop and apply an efficient multiscale method for simulating a large class of low-speed intern...
There is a tendency to cool mechanical and electrical components by microchannels. When the channel ...
There is a tendency to cool mechanical and electrical components by microchannels. When the channel ...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/77289/1/AIAA-2008-1184-250.pd
AbstractWe develop and apply an efficient multiscale method for simulating a large class of low-spee...
International audienceA hybrid atomistic-continuum method devoted to the study of multi-scale proble...
There is a tendency to cool mechanical and electrical components by microchannels. When the channel ...
We present a new hybrid method for simulating dense fluid systems that exhibit multiscale behaviour,...
The dynamics of a complex fluid or fluid close to interfaces is affected by its microscopic structur...