The development of industrial software, the decreasing cost of computing time, and the availability of well-tested forcefields make molecular simulation increasingly attractive for chemical engineers. We present here several applications of Monte-Carlo simulation techniques, applied to the adsorption of fluids in microporous solids such as zeolites and model carbons (pores < 2 nm). Adsorption was computed in the Grand Canonical ensemble with the MedeA®-GIBBS software, using energy grids to decrease computing time. MedeA®-GIBBS has been used for simulations in the NVT or NPT ensembles to obtain the density and fugacities of fluid phases. Simulation results are co...
The study of adsorption of n-alkanes in zeolite pores represents both a fundamental problem in molec...
Adsorption processes are turning more and more important for heat transformation applications like t...
Zeolites are microporous materials with pores that have about the same size as small molecules like ...
The development of industrial software, the decreasing cost of computing time, and the ava...
Numerous industrial operations involve zeolite adsorbents: separation of aromatics, separation of hi...
University of Minnesota Ph.D. dissertation.August 2014. Major: Material Science and Engineering. Ad...
The primary goal of this thesis is to apply thermodynamic, statistical mechanical and computer simul...
Factors such as adsorbate size, shape and polarity coupled with adsorbent pore structure, pore size ...
The primary goal of this thesis is to use molecular simulations to identify the structural propertie...
This dissertation consists of two parts. In the first part, a Monte Carlo computer experiment for si...
Configurational-bias Monte Carlo simulations in the grand-canonical ensemble are employed to compute...
Recent developments in Monte Carlo (MC) simulation techniques have enabled the accurate calculation ...
Computational methods to calculate the properties of zeolites in gas adsorption and separation have ...
In this short review, the applications of Monte Carlo simulations to the study of the adsorption and...
This thesis is concerned with the relationship between the structure of amorphous microporous materi...
The study of adsorption of n-alkanes in zeolite pores represents both a fundamental problem in molec...
Adsorption processes are turning more and more important for heat transformation applications like t...
Zeolites are microporous materials with pores that have about the same size as small molecules like ...
The development of industrial software, the decreasing cost of computing time, and the ava...
Numerous industrial operations involve zeolite adsorbents: separation of aromatics, separation of hi...
University of Minnesota Ph.D. dissertation.August 2014. Major: Material Science and Engineering. Ad...
The primary goal of this thesis is to apply thermodynamic, statistical mechanical and computer simul...
Factors such as adsorbate size, shape and polarity coupled with adsorbent pore structure, pore size ...
The primary goal of this thesis is to use molecular simulations to identify the structural propertie...
This dissertation consists of two parts. In the first part, a Monte Carlo computer experiment for si...
Configurational-bias Monte Carlo simulations in the grand-canonical ensemble are employed to compute...
Recent developments in Monte Carlo (MC) simulation techniques have enabled the accurate calculation ...
Computational methods to calculate the properties of zeolites in gas adsorption and separation have ...
In this short review, the applications of Monte Carlo simulations to the study of the adsorption and...
This thesis is concerned with the relationship between the structure of amorphous microporous materi...
The study of adsorption of n-alkanes in zeolite pores represents both a fundamental problem in molec...
Adsorption processes are turning more and more important for heat transformation applications like t...
Zeolites are microporous materials with pores that have about the same size as small molecules like ...