Add to ORKGAccurate prediction of thermal evaporation and condensation coefficients (tECCs) has long been debated using molecular dynamics simulation techniques based on the non-reactive force fields in which chemical bonds were modelled as rigid or harmonic. Here, molecular dynamics simulation with reactive force field ReaxFF is presented in parallel with the quantum chemical calculations to determine bond energies and Gibbs free energy of internal molecular dynamics of n-dodecane conformers and analysis of the collisions of individual molecules with the nanodroplet in order to show the reliability of ReaxFF for this study. The effects of temperature jump at liquid-vapour interface on the tECCs have been studied by performing transient non-equilibriu...
Molecular dynamics simulations are applied to model fuel droplet surrounded by air in a spatially an...
When a gas or vapour is flowing through a microchannel, the system can become too small for the Navi...
The structure and thermodynamic properties of the liquid–vapor interface are of fundamental interest...
The effects of conformerisation and internal molecular dynamics (IMD) of n-dodecane conformers on en...
The effects of temperature and conformerisation on the evaporation/condensation coefficient (beta) a...
The evaporation/condensation coefficient (β) and the evaporation rate (γ) for n-dodecane vs. tempera...
Some recent results of molecular dynamics simulations of the condensation/evaporation and velocity d...
This work is concerned with the development of a new quantitative kinetic model for the analysis of ...
The evaporation/condensation coefficient (β) and the evaporation rate (γ) for n-dodecane vs. tempera...
The evaporation rate (γ) of n-alkane molecules in the C8-C27 range from molecular clusters and nanod...
Some recently developed approaches to the hydrodynamic, kinetic and molecular dynamic modelling of m...
International audienceEvaporation rate (γ) of molecules from Diesel fuel molecular clusters and nano...
Understanding the behavior of liquid hydrocarbon propellants under high pressure and temperature con...
Recently developed approaches to the hydrodynamic, kinetic, and molecular dynamic modeling of fuel d...
Using molecular dynamics simulations, the present study investigates the precise characteristics of ...
Molecular dynamics simulations are applied to model fuel droplet surrounded by air in a spatially an...
When a gas or vapour is flowing through a microchannel, the system can become too small for the Navi...
The structure and thermodynamic properties of the liquid–vapor interface are of fundamental interest...
The effects of conformerisation and internal molecular dynamics (IMD) of n-dodecane conformers on en...
The effects of temperature and conformerisation on the evaporation/condensation coefficient (beta) a...
The evaporation/condensation coefficient (β) and the evaporation rate (γ) for n-dodecane vs. tempera...
Some recent results of molecular dynamics simulations of the condensation/evaporation and velocity d...
This work is concerned with the development of a new quantitative kinetic model for the analysis of ...
The evaporation/condensation coefficient (β) and the evaporation rate (γ) for n-dodecane vs. tempera...
The evaporation rate (γ) of n-alkane molecules in the C8-C27 range from molecular clusters and nanod...
Some recently developed approaches to the hydrodynamic, kinetic and molecular dynamic modelling of m...
International audienceEvaporation rate (γ) of molecules from Diesel fuel molecular clusters and nano...
Understanding the behavior of liquid hydrocarbon propellants under high pressure and temperature con...
Recently developed approaches to the hydrodynamic, kinetic, and molecular dynamic modeling of fuel d...
Using molecular dynamics simulations, the present study investigates the precise characteristics of ...
Molecular dynamics simulations are applied to model fuel droplet surrounded by air in a spatially an...
When a gas or vapour is flowing through a microchannel, the system can become too small for the Navi...
The structure and thermodynamic properties of the liquid–vapor interface are of fundamental interest...