Adsorption of hard sphere fluid in porous material: A Monte Carlo simulation approach for pressure calculation

Adsorption of hard sphere fluid in porous material: A Monte Carlo simulation approach for pressure calculation

We have performed Monte Carlo simulations in the canonical ensemble of a hard-sphere fluid adsorbed in microporous media. The pressure of the adsorbed fluid is calculated by using an original procedure that includes the calculations of the pressure tensor components during the simulation. In ord...

Ausführliche Beschreibung

Gespeichert in:

Bibliographische Detailangaben
Veröffentlicht in:	Condensed Matter Physics
Datum:	2003
Hauptverfasser:	Orea, P., Duda, Yu.
Format:	Artikel
Sprache:	English
Veröffentlicht:	Інститут фізики конденсованих систем НАН України 2003
Online Zugang:	https://nasplib.isofts.kiev.ua/handle/123456789/120762
Tags:	Tag hinzufügen Keine Tags, Fügen Sie den ersten Tag hinzu!
Назва журналу:	Digital Library of Periodicals of National Academy of Sciences of Ukraine
Zitieren:	Adsorption of hard sphere fluid in porous material: A Monte Carlo simulation approach for pressure calculation / P. Orea , Yu. Duda // Condensed Matter Physics. — 2003. — Т. 6, № 4(36). — С. 573-582. — Бібліогр.: 29 назв. — англ.

Institution

Digital Library of Periodicals of National Academy of Sciences of Ukraine

Ähnliche Einträge

Dielectric constant of the polarizable dipolar hard sphere fluid studied by Monte Carlo simulation and theories
von: Valisko, M., et al.
Veröffentlicht: (2005)

Large scale Monte Carlo simulations of fluids under gravity
von: A. Brandt, et al.
Veröffentlicht: (2015)

Large scale Monte Carlo simulations of fluids under gravity
von: A. Brandt, et al.
Veröffentlicht: (2015)

Monte Carlo simulation of phase equilibria in Ising fluids and their mixtures
von: Fenz, W., et al.
Veröffentlicht: (2003)

Monte Carlo simulations of krypton adsorption in nanopores: Influence of pore wall heterogeneity on the adsorption mechanism
von: Kuchta, Bogdan, et al.
Veröffentlicht: (2003)

Density anomaly of charged hard spheres of different diameters in a mixture with core-softened model solvent. Monte Carlo simulation results Author(s):
von: Hribar-Lee, B., et al.
Veröffentlicht: (2013)

On the improvement of SPT2 approach in the theory of a hard sphere fluid in disordered porous media
von: Holovko, M., et al.
Veröffentlicht: (2017)

Monte Carlo simulation of nitrogen crystalline atomic phase
von: Yakub, L.N.
Veröffentlicht: (1996)

Using the Monte Carlo method for calculating the error of the measurement system
von: Ye. I. Baida, et al.
Veröffentlicht: (2024)

Monte-Carlo simulation of random hyperbranched polymers with flexible branches
von: Ratner, M.
Veröffentlicht: (2009)

Monte Carlo simulations of the critical properties of the restricted primitive model
von: Caillol, J.-M.
Veröffentlicht: (2004)

Analytical theory of one- and two-dimensional hard sphere fluids in random porous media
von: Holovko, M.F., et al.
Veröffentlicht: (2010)

Monte Carlo simulation of migration of fusion plasma neutrons - optimization and traps
von: Robouch, B.V., et al.
Veröffentlicht: (2002)

Monte-Carlo simulation of response of semiconductor detectors for radionuclide identification devices
von: Skrypnyk, A.I., et al.
Veröffentlicht: (2015)

Solution of the First-Passage Problem by Advanced Monte Carlo Simulation Technique
von: Labou, M.
Veröffentlicht: (2003)

Monte Carlo code Serpent calculation of the parameters of the stationary nuclear fission wave
von: V. M. Khotiaintsev, et al.
Veröffentlicht: (2017)

Simulation of industrial 60So gamma-ray source by Monte-Carlo method
von: V. I. Hulik
Veröffentlicht: (2018)

Monte Carlo simulation of the electrical properties of electrolytes adsorbed in charged slit-systems
von: Kovács, R., et al.
Veröffentlicht: (2012)

Monte Carlo simulation of anisotropic Shastry–Sutherland lattice in the framework of classical Heisenberg model
von: Slavin, V.V., et al.
Veröffentlicht: (2011)

Monte Carlo simulation of anisotropic Shastry–Sutherland lattice in the framework of classical Heisenberg model
von: V. V. Slavin, et al.
Veröffentlicht: (2011)

Clustering Monte Carlo simulations of the hierarchical protein folding on a simple lattice model
von: Yesylevskyy, S.O., et al.
Veröffentlicht: (2004)

First-order phase transitions in lattice bilayers of Janus-like particles: Monte Carlo simulations
von: Borówko, M., et al.
Veröffentlicht: (2016)

Monte Carlo Simulation of hot electron effects in compensated GaN semiconductor at moderate electricfields
von: Syngaivska, G.I., et al.
Veröffentlicht: (2007)

Evaluation of failure probabilities of mechanical systems under seismic action by the monte-carlo simulation method
von: Labou, M.
Veröffentlicht: (2008)

Hierarchy of evolution equations for correlations of hard-sphere fluids
von: I. V. Hapiak, et al.
Veröffentlicht: (2022)

The Boltzmann kinetic equation with correlations for hard sphere fluids
von: V. I. Herasymenko, et al.
Veröffentlicht: (2015)

Calculation of Neutron Fluence and Energy Release in WWER¬1000 Structural Components Using Monte Carlo Method
von: A. M. Abdullaev, et al.
Veröffentlicht: (2018)

Monte Carlo calculation of the coercive force and phase transitions in the ensemble of Stoner–Wohlfarth particles with exchange interaction
von: V. M. Kalita, et al.
Veröffentlicht: (2017)

Using of the Serpent code based on the Monte-Carlo method for calculation of the VVER-1000 fuel assembly characteristics
von: V. V. Halchenko, et al.
Veröffentlicht: (2016)

Calculation of radiation fields in the VVER 1000 concrete biological shield using Monte Carlo code Serpent
von: O. M. Khotiaintseva, et al.
Veröffentlicht: (2023)

Incubation time at decomposition of solid solution – stochastic kinetic mean-field versus Monte Carlo simulation
von: V. M. Pasichna, et al.
Veröffentlicht: (2020)

Incubation time at decomposition of solid solution – stochastic kinetic mean-field versus Monte Carlo simulation
von: V. M. Pasichna, et al.
Veröffentlicht: (2020)

First-passage probabilities for randomly excited mechanical systems by a selective Monte-Carlo simulation method
von: Labou, M.
Veröffentlicht: (2004)

Inhomogeneous Monte Carlo simulation of the vapor-liquid equilibrium of benzene between 300 K and 530 K
von: Janeček, J., et al.
Veröffentlicht: (2007)

High-performance methods for analyzing the statistical strength of welded pipelines and pressure vessels using the Monte–Carlo method
von: E. A. Velikoivanenko, et al.
Veröffentlicht: (2020)

Martin’s Kinetic Mean-Field Model Revisited—Frequency Noise Approach versus Monte Carlo
von: Gusak, A., et al.
Veröffentlicht: (2018)

Monte Carlo method study of instability of nanowires on contacts of joints
von: N. A. Pasichnyj, et al.
Veröffentlicht: (2014)

Monte Carlo and molecular dynamics studies for the colour rewritable films
von: Okajima, H., et al.
Veröffentlicht: (2001)

Monte-carlo modeling for unstable particle ensembles with thermal fluctuations
von: Kharchenko, D.O.
Veröffentlicht: (2009)

Combined calculation of radiation from large-sized ground RW storage facilities on the basis of Monte Carlo method
von: Rudychev, V.G., et al.
Veröffentlicht: (2019)