A new method is presented for the exploitation of time-scale separation in hybrid continuum-molecular models of multiscale flows. Our method is a generalisation of existing approaches, and is evaluated in terms of computational efficiency and physical/numerical error. Comparison with existing schemes demonstrates comparable, or much improved, physical accuracy, at comparable, or far greater, efficiency (in terms of the number of time-step operations required to cover the same physical time). A leapfrog coupling is proposed between the ‘macro’ and ‘micro’ components of the hybrid model and demonstrates potential for improved numerical accuracy over a standard simultaneous approach. A general algorithm for a coupled time step is presented. Th...
Molecular-continuum methods, as considered in this work, decompose the computational domain into con...
In direct numerical simulations of reactive flow and other multi scale physical problems, a broad ti...
In soft matter physics there is a variety of systems where phenomena occur on different time- and le...
A new method is presented for the exploitation of time-scale separation in hybrid continuum-molecula...
In this paper we describe a numerical method for the efficient time-accurate coupling of hybrid cont...
We present a new coupling approach for the time advancement of multi-physics models of multiscale sy...
We discuss hybrid atomistic-continuum methods for multiscale hydrodynamic applications. Both dense-f...
This paper describes a continuum/kinetic hybrid approach for simulating the continuum to free molecu...
AbstractWe present a new coupling approach for the time advancement of multi-physics models of multi...
In this paper we describe how timescale separation in micro/nano flows can be exploited for computat...
A hybrid multiscale method is developed for simulating micro- and nano-scale fluid flows. The contin...
We present an internal-flow multiscale method ('unsteady-IMM') for compressible, time-varying/unstea...
We present a new hybrid method for simulating dense fluid systems that exhibit multiscale behaviour,...
We present a hybrid molecular-continuum simulation method for modelling nano- and micro-flows in net...
In direct numerical simulations of reactive flow and other multi scale physical problems, a broad ti...
Molecular-continuum methods, as considered in this work, decompose the computational domain into con...
In direct numerical simulations of reactive flow and other multi scale physical problems, a broad ti...
In soft matter physics there is a variety of systems where phenomena occur on different time- and le...
A new method is presented for the exploitation of time-scale separation in hybrid continuum-molecula...
In this paper we describe a numerical method for the efficient time-accurate coupling of hybrid cont...
We present a new coupling approach for the time advancement of multi-physics models of multiscale sy...
We discuss hybrid atomistic-continuum methods for multiscale hydrodynamic applications. Both dense-f...
This paper describes a continuum/kinetic hybrid approach for simulating the continuum to free molecu...
AbstractWe present a new coupling approach for the time advancement of multi-physics models of multi...
In this paper we describe how timescale separation in micro/nano flows can be exploited for computat...
A hybrid multiscale method is developed for simulating micro- and nano-scale fluid flows. The contin...
We present an internal-flow multiscale method ('unsteady-IMM') for compressible, time-varying/unstea...
We present a new hybrid method for simulating dense fluid systems that exhibit multiscale behaviour,...
We present a hybrid molecular-continuum simulation method for modelling nano- and micro-flows in net...
In direct numerical simulations of reactive flow and other multi scale physical problems, a broad ti...
Molecular-continuum methods, as considered in this work, decompose the computational domain into con...
In direct numerical simulations of reactive flow and other multi scale physical problems, a broad ti...
In soft matter physics there is a variety of systems where phenomena occur on different time- and le...