The aim of the present work is to make use of the constitutive scaling method to produce a computational tool suitable for analysing microscale flows. Both incompressible and compressible numerical solvers featuring constitutive scaling models and a range of appropriate boundary conditions have been developed to this end. A detailed assessment of the implications of extending the constitutive scaling method to fully compressible flows has also been carried out
This paper describes the development and application of an efficient hybrid continuum-molecular appr...
There are a number of applications where heat and fluid flow at the micro-scale level play an import...
These phenomena are rarely taken into account all at once, at least one of them is neglected and oft...
The aim of the present work is to make use of the constitutive scaling method to produce a computati...
We demonstrate here, for the first time, the constitutive scaling approach applied to simulate a ful...
In this paper we discuss the physics of rarefied gas flows at the micro-scale, including discontinui...
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...
Engineering systems are increasingly being developed with dimensions within the micro to nano scale....
Due to the increasing development of MEMS (Micro Electro Mechanical Systems), the study of liquid or...
Advances in micro and nanofluidics have influenced technological developments in several areas, incl...
We test an extended continuum-based approach for analyzing micro-scale gas flows over a wide range o...
This paper presents an overview of past and current research in computational modelling of micro- an...
AbstractThis paper describes the development and application of an efficient hybrid continuum-molecu...
The dynamics of a complex fluid or fluid close to interfaces is affected by its microscopic structur...
This paper describes the development and application of an efficient hybrid continuum-molecular appr...
There are a number of applications where heat and fluid flow at the micro-scale level play an import...
These phenomena are rarely taken into account all at once, at least one of them is neglected and oft...
The aim of the present work is to make use of the constitutive scaling method to produce a computati...
We demonstrate here, for the first time, the constitutive scaling approach applied to simulate a ful...
In this paper we discuss the physics of rarefied gas flows at the micro-scale, including discontinui...
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...
Engineering systems are increasingly being developed with dimensions within the micro to nano scale....
Due to the increasing development of MEMS (Micro Electro Mechanical Systems), the study of liquid or...
Advances in micro and nanofluidics have influenced technological developments in several areas, incl...
We test an extended continuum-based approach for analyzing micro-scale gas flows over a wide range o...
This paper presents an overview of past and current research in computational modelling of micro- an...
AbstractThis paper describes the development and application of an efficient hybrid continuum-molecu...
The dynamics of a complex fluid or fluid close to interfaces is affected by its microscopic structur...
This paper describes the development and application of an efficient hybrid continuum-molecular appr...
There are a number of applications where heat and fluid flow at the micro-scale level play an import...
These phenomena are rarely taken into account all at once, at least one of them is neglected and oft...