The main objective of this thesis is to model the multi-scale heat and fluid flows in micro-/nano channels. This method must be able of capturing at the same time the fluid/solid interaction at the small scale but also the flows induced by the inlet/outlet boundary conditions at the large scale. To this aim, we have adopted an approach coupling the continuum model in the bulks of the channel and the discrete model at the vicinity of the wall, based on an atomistic representation of the fluid and the solid.The Navier-Stokes and energy equations, coupled with an equation of state, are approximated by a finite volume method and the molecular dynamics simulations are used to finely represent the interaction between the fluid and the solid. Thi...
We present a hybrid molecular-continuum simulation method for modelling nano- and micro-flows in net...
We combine molecular dynamics (MD) and Monte Carlo (MC) simulations to study the properties of gas m...
A multiscale framework for simulation of fluid flow is developed by using a hybrid atomistic-continu...
L'objectif de cette thèse est de mettre en œuvre une description multi-échelle adaptée aux écoulemen...
International audienceA hybrid atomistic-continuum method devoted to the study of multi-scale proble...
International audienceThe present paper extends the hybrid atomistic-continuum multiscale method dev...
The work presented in this dissertation focuses on low rarefied gas flows in pipes whose lengths are...
International audienceA hybrid atomistic-continuum method devoted to the study of multi-scale proble...
A hybrid multiscale method is developed for simulating micro- and nano-scale fluid flows. The contin...
We present a hybrid simulation method combining Molecular Dynamics (MO) and Monte Carlo (Mc) simulat...
For many practical cases, such as gas-wall interactions, molecular dynamics simulations are aperfect...
National audienceDans cet article, l'écoulement établi dans des micros/nano-conduites est étudié par...
We present a hybrid molecular-continuum method for the simulation of general nano-fluidic networks, ...
We present a hybrid molecular-continuum method for the simulation of general nanofluidic networks of...
One of the most important developments in the last centuries is the process of miniaturisation and u...
We present a hybrid molecular-continuum simulation method for modelling nano- and micro-flows in net...
We combine molecular dynamics (MD) and Monte Carlo (MC) simulations to study the properties of gas m...
A multiscale framework for simulation of fluid flow is developed by using a hybrid atomistic-continu...
L'objectif de cette thèse est de mettre en œuvre une description multi-échelle adaptée aux écoulemen...
International audienceA hybrid atomistic-continuum method devoted to the study of multi-scale proble...
International audienceThe present paper extends the hybrid atomistic-continuum multiscale method dev...
The work presented in this dissertation focuses on low rarefied gas flows in pipes whose lengths are...
International audienceA hybrid atomistic-continuum method devoted to the study of multi-scale proble...
A hybrid multiscale method is developed for simulating micro- and nano-scale fluid flows. The contin...
We present a hybrid simulation method combining Molecular Dynamics (MO) and Monte Carlo (Mc) simulat...
For many practical cases, such as gas-wall interactions, molecular dynamics simulations are aperfect...
National audienceDans cet article, l'écoulement établi dans des micros/nano-conduites est étudié par...
We present a hybrid molecular-continuum method for the simulation of general nano-fluidic networks, ...
We present a hybrid molecular-continuum method for the simulation of general nanofluidic networks of...
One of the most important developments in the last centuries is the process of miniaturisation and u...
We present a hybrid molecular-continuum simulation method for modelling nano- and micro-flows in net...
We combine molecular dynamics (MD) and Monte Carlo (MC) simulations to study the properties of gas m...
A multiscale framework for simulation of fluid flow is developed by using a hybrid atomistic-continu...