A molecular dynamics simulation of vapor phase nucleation has been performed with 40 000 Lennard-Jones particles for the target gas and 0–160 000 particles for the carrier gas. Three carrier gas models are adopted, including a soft-core model, a Lennard-Jones model, and a modified Lennard-Jones model in which the attractive interaction can be adjusted. The effect of the carrier-gas pressure is assessed through computing and comparing the rate of nucleation and cluster size distribution. It is found that the effect of the carrier-gas pressure can be strongly dependent on the carrier-gas model. A positive effect _enhancement of the nucleation rate_ is found with the soft-core potential model, whereas negligible effect is found with the Lennar...
The phase transition via homogeneous nucleation is a fundamental process and plays important roles i...
Nucleation of clusters from the gas phase is a widely encountered phenomenon, yet rather little is u...
Gibbs free energy of ij-cluster formation ΔGij is obtained via the relation nij=Ne-ΔGij /kBT, where ...
Carrier gases are used in most nucleation experiments for releasing the latent heat generated during...
Recent measurements of critical supersaturations for the vapor phase homogeneous nucleation of sever...
The influence of the pressure of a chemically inert carrier gas on the nucleation rate is one of the...
\u3cp\u3eNucleation of highly supersaturated water vapor in helium, methane, and argon carrier gases...
Nucleation of highly supersaturated water vapor in helium, methane, and argon carrier gases at 350 K...
A theoretical approach is presented that accounts for the influence of high pressure background gase...
We present a comparison between Monte Carlo (MC) results for homogeneous vapourliquid nucleation of ...
Tässä työssä tutkittiin Lennard-Jones -fluidin ei-isotermistä, homogeenista nukleaatiota molekyylidy...
The homogeneous nucleation of water vapor in atmospheres of helium, neon, argon, krypton, and xenon ...
We report a computer-simulation study of homogeneous gas–liquid nucleation in a Lennard-Jones system...
We performed molecular dynamics (MD) simulations of nucleation from vapor at temperatures below the ...
Supersonic nozzle experiments were performed with a fixed water or ethanol vapor pressure and varyin...
The phase transition via homogeneous nucleation is a fundamental process and plays important roles i...
Nucleation of clusters from the gas phase is a widely encountered phenomenon, yet rather little is u...
Gibbs free energy of ij-cluster formation ΔGij is obtained via the relation nij=Ne-ΔGij /kBT, where ...
Carrier gases are used in most nucleation experiments for releasing the latent heat generated during...
Recent measurements of critical supersaturations for the vapor phase homogeneous nucleation of sever...
The influence of the pressure of a chemically inert carrier gas on the nucleation rate is one of the...
\u3cp\u3eNucleation of highly supersaturated water vapor in helium, methane, and argon carrier gases...
Nucleation of highly supersaturated water vapor in helium, methane, and argon carrier gases at 350 K...
A theoretical approach is presented that accounts for the influence of high pressure background gase...
We present a comparison between Monte Carlo (MC) results for homogeneous vapourliquid nucleation of ...
Tässä työssä tutkittiin Lennard-Jones -fluidin ei-isotermistä, homogeenista nukleaatiota molekyylidy...
The homogeneous nucleation of water vapor in atmospheres of helium, neon, argon, krypton, and xenon ...
We report a computer-simulation study of homogeneous gas–liquid nucleation in a Lennard-Jones system...
We performed molecular dynamics (MD) simulations of nucleation from vapor at temperatures below the ...
Supersonic nozzle experiments were performed with a fixed water or ethanol vapor pressure and varyin...
The phase transition via homogeneous nucleation is a fundamental process and plays important roles i...
Nucleation of clusters from the gas phase is a widely encountered phenomenon, yet rather little is u...
Gibbs free energy of ij-cluster formation ΔGij is obtained via the relation nij=Ne-ΔGij /kBT, where ...