We demonstrate that a computational fluid dynamics (CFD) model enhanced with molecular-level information can accurately predict unsteady nano-scale flows in non-trivial geometries, while being efficient enough to be used for design optimisation. We first consider a converging-diverging nano-scale channel driven by a time-varying body force. The time-dependent mass flow rate predicted by our enhanced CFD agrees well with a full molecular dynamics (MD) simulation of the same configuration, and is achieved at a fraction of the computational cost. Conventional CFD predictions of the same case are wholly inadequate. We then demonstrate the application of enhanced CFD as a design optimisation tool on a bifurcating two-dimensional channel, with th...
In this paper we use molecular dynamics (MD) simulations to study nanochannel flows at low Reynolds ...
In molecular dynamics simulations, nanochannel flows are usually driven by a constant force, that ai...
This paper was presented at the 2nd Micro and Nano Flows Conference (MNF2009), which was held at Bru...
We demonstrate that a computational fluid dynamics (CFD) model enhanced with molecular-level informa...
AbstractWe demonstrate that a computational fluid dynamics (CFD) model enhanced with molecular-level...
We present a procedure for using molecular dynamics (MD) simulations to provide essential fluid and ...
A procedure for using Molecular Dynamics (MD) simulations to provide essential fl uid and interface...
We present an internal-flow multiscale method (‘unsteady-IMM’) for compressible, time-varying/unstea...
We develop a new multiscale scheme for simulating micro/nano flows of high aspect ratio in the flow ...
Simulations of nanoscale systems where fluid mechanics plays an important role are required to help ...
We present a hybrid molecular-continuum method for the simulation of general nanofluidic networks of...
Simulations of nanoscale systems where fluid mechanics plays an important role are required to help ...
We present a hybrid molecular-continuum method for the simulation of general nano-fluidic networks, ...
Simulations of nanoscale systems where fluid mechanics plays an important role are required to help ...
Nanoscale fluid flow systems involve both microscopic and macroscopic parameters, which may couple w...
In this paper we use molecular dynamics (MD) simulations to study nanochannel flows at low Reynolds ...
In molecular dynamics simulations, nanochannel flows are usually driven by a constant force, that ai...
This paper was presented at the 2nd Micro and Nano Flows Conference (MNF2009), which was held at Bru...
We demonstrate that a computational fluid dynamics (CFD) model enhanced with molecular-level informa...
AbstractWe demonstrate that a computational fluid dynamics (CFD) model enhanced with molecular-level...
We present a procedure for using molecular dynamics (MD) simulations to provide essential fluid and ...
A procedure for using Molecular Dynamics (MD) simulations to provide essential fl uid and interface...
We present an internal-flow multiscale method (‘unsteady-IMM’) for compressible, time-varying/unstea...
We develop a new multiscale scheme for simulating micro/nano flows of high aspect ratio in the flow ...
Simulations of nanoscale systems where fluid mechanics plays an important role are required to help ...
We present a hybrid molecular-continuum method for the simulation of general nanofluidic networks of...
Simulations of nanoscale systems where fluid mechanics plays an important role are required to help ...
We present a hybrid molecular-continuum method for the simulation of general nano-fluidic networks, ...
Simulations of nanoscale systems where fluid mechanics plays an important role are required to help ...
Nanoscale fluid flow systems involve both microscopic and macroscopic parameters, which may couple w...
In this paper we use molecular dynamics (MD) simulations to study nanochannel flows at low Reynolds ...
In molecular dynamics simulations, nanochannel flows are usually driven by a constant force, that ai...
This paper was presented at the 2nd Micro and Nano Flows Conference (MNF2009), which was held at Bru...