In this paper we describe how timescale separation in micro/nano flows can be exploited for computational acceleration. A modified version of the seamless heterogenous multiscale method (SHMM) is proposed: a multi-step SHMM. This maintains the main advantages of SHMM (e.g., re-initialisation of micro data is not required; temporal gearing (computational speed-up) is easily controlled; and it is applicable to full and intermediate degrees of timescale separation) while improving on accuracy and greatly reducing the number of macroscopic computations and micro/macro coupling instances required. The improved accuracy of the multi-step SHMM is demonstrated for two canonical one-dimensional transient flows (oscillatory Poiseuille and oscillatory...
We present a hybrid molecular-continuum method for the simulation of general nanofluidic networks of...
This paper presents an overview of past and current research in computational modelling of micro- an...
textEfficient and robust numerical simulation of multiscale problems encountered in science and engi...
In this paper we describe how timescale separation in micro/nano flows can be exploited for computat...
A new method is presented for the exploitation of time-scale separation in hybrid continuum-molecula...
We develop a new multiscale scheme for simulating micro/nano flows of high aspect ratio in the flow ...
In this paper we describe a numerical method for the efficient time-accurate coupling of hybrid cont...
We present an internal-flow multiscale method (‘unsteady-IMM’) for compressible, time-varying/unstea...
This paper was presented at the 3rd Micro and Nano Flows Conference (MNF2011), which was held at the...
We present a new coupling approach for the time advancement of multi-physics models of multiscale sy...
AbstractWe present a new coupling approach for the time advancement of multi-physics models of multi...
This paper was presented at the 2nd Micro and Nano Flows Conference (MNF2009), which was held at Bru...
This paper extends the hybrid computational method proposed by Docherty et al. (2014) for simulating...
We present an internal-flow multiscale method ('unsteady-IMM') for compressible, time-varying/unstea...
Advances in micro and nanofluidics have influenced technological developments in several areas, incl...
We present a hybrid molecular-continuum method for the simulation of general nanofluidic networks of...
This paper presents an overview of past and current research in computational modelling of micro- an...
textEfficient and robust numerical simulation of multiscale problems encountered in science and engi...
In this paper we describe how timescale separation in micro/nano flows can be exploited for computat...
A new method is presented for the exploitation of time-scale separation in hybrid continuum-molecula...
We develop a new multiscale scheme for simulating micro/nano flows of high aspect ratio in the flow ...
In this paper we describe a numerical method for the efficient time-accurate coupling of hybrid cont...
We present an internal-flow multiscale method (‘unsteady-IMM’) for compressible, time-varying/unstea...
This paper was presented at the 3rd Micro and Nano Flows Conference (MNF2011), which was held at the...
We present a new coupling approach for the time advancement of multi-physics models of multiscale sy...
AbstractWe present a new coupling approach for the time advancement of multi-physics models of multi...
This paper was presented at the 2nd Micro and Nano Flows Conference (MNF2009), which was held at Bru...
This paper extends the hybrid computational method proposed by Docherty et al. (2014) for simulating...
We present an internal-flow multiscale method ('unsteady-IMM') for compressible, time-varying/unstea...
Advances in micro and nanofluidics have influenced technological developments in several areas, incl...
We present a hybrid molecular-continuum method for the simulation of general nanofluidic networks of...
This paper presents an overview of past and current research in computational modelling of micro- an...
textEfficient and robust numerical simulation of multiscale problems encountered in science and engi...