Selective adsorption from dilute solutions: Gibbs ensemble Monte Carlo simulations

Peng Bai; J. Ilja Siepmann

doi:10.1016/j.fluid.2012.08.014

Selective adsorption from dilute solutions: Gibbs ensemble Monte Carlo simulations

Peng Bai, J. Ilja Siepmann

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Abstract

Configurational-bias Monte Carlo simulations in the Gibbs ensemble (CBMC-GE) are used to investigate the adsorption of both linear and branched alkanes (ethane, propane, n-butane, and 2-methylpropane) from dilute solutions in liquid methane onto a carbon slit pore at T=160K and at either the saturation pressure or p_ext=100atm. Thermodynamic properties (adsorption isotherms, selectivities, and Henry's law constants) and structural properties (density and orientational distributions) are presented. Both the Henry's law constants and the separation factors depend exponentially on the number of carbon atoms for the linear alkanes, whereas chain branching and higher pressure lead to a reduction of these properties. The solute density profiles show oscillatory behavior along the surface normal, and peaks in the number density are correlated with a preference for parallel orientations. The CBMC-GE approach allows for the efficient calculation of these selective adsorption phenomena, and data for multiple solutes (in the dilute regime) can be extracted from a single simulation.

Original language	English (US)
Pages (from-to)	1-6
Number of pages	6
Journal	Fluid Phase Equilibria
Volume	351
DOIs	https://doi.org/10.1016/j.fluid.2012.08.014
State	Published - Aug 5 2013

Bibliographical note

Funding Information:
We thank Jiri Kolafa for helpful discussion regarding simulation details used in Ref. [23] . Financial support from the National Science Foundation ( CBET-0756641 and CBET-1159837 ) and a Graduate School Fellowship (P.B.) is gratefully acknowledged. Part of the computer resources were provided by the Minnesota Supercomputing Institute.

Keywords

Carbon slit pore
Gibbs ensemble
Monte Carlo simulation
Selective adsorption

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title = "Selective adsorption from dilute solutions: Gibbs ensemble Monte Carlo simulations",

abstract = "Configurational-bias Monte Carlo simulations in the Gibbs ensemble (CBMC-GE) are used to investigate the adsorption of both linear and branched alkanes (ethane, propane, n-butane, and 2-methylpropane) from dilute solutions in liquid methane onto a carbon slit pore at T=160K and at either the saturation pressure or pext=100atm. Thermodynamic properties (adsorption isotherms, selectivities, and Henry's law constants) and structural properties (density and orientational distributions) are presented. Both the Henry's law constants and the separation factors depend exponentially on the number of carbon atoms for the linear alkanes, whereas chain branching and higher pressure lead to a reduction of these properties. The solute density profiles show oscillatory behavior along the surface normal, and peaks in the number density are correlated with a preference for parallel orientations. The CBMC-GE approach allows for the efficient calculation of these selective adsorption phenomena, and data for multiple solutes (in the dilute regime) can be extracted from a single simulation.",

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author = "Peng Bai and Siepmann, {J. Ilja}",

note = "Funding Information: We thank Jiri Kolafa for helpful discussion regarding simulation details used in Ref. [23] . Financial support from the National Science Foundation ( CBET-0756641 and CBET-1159837 ) and a Graduate School Fellowship (P.B.) is gratefully acknowledged. Part of the computer resources were provided by the Minnesota Supercomputing Institute. ",

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N2 - Configurational-bias Monte Carlo simulations in the Gibbs ensemble (CBMC-GE) are used to investigate the adsorption of both linear and branched alkanes (ethane, propane, n-butane, and 2-methylpropane) from dilute solutions in liquid methane onto a carbon slit pore at T=160K and at either the saturation pressure or pext=100atm. Thermodynamic properties (adsorption isotherms, selectivities, and Henry's law constants) and structural properties (density and orientational distributions) are presented. Both the Henry's law constants and the separation factors depend exponentially on the number of carbon atoms for the linear alkanes, whereas chain branching and higher pressure lead to a reduction of these properties. The solute density profiles show oscillatory behavior along the surface normal, and peaks in the number density are correlated with a preference for parallel orientations. The CBMC-GE approach allows for the efficient calculation of these selective adsorption phenomena, and data for multiple solutes (in the dilute regime) can be extracted from a single simulation.

AB - Configurational-bias Monte Carlo simulations in the Gibbs ensemble (CBMC-GE) are used to investigate the adsorption of both linear and branched alkanes (ethane, propane, n-butane, and 2-methylpropane) from dilute solutions in liquid methane onto a carbon slit pore at T=160K and at either the saturation pressure or pext=100atm. Thermodynamic properties (adsorption isotherms, selectivities, and Henry's law constants) and structural properties (density and orientational distributions) are presented. Both the Henry's law constants and the separation factors depend exponentially on the number of carbon atoms for the linear alkanes, whereas chain branching and higher pressure lead to a reduction of these properties. The solute density profiles show oscillatory behavior along the surface normal, and peaks in the number density are correlated with a preference for parallel orientations. The CBMC-GE approach allows for the efficient calculation of these selective adsorption phenomena, and data for multiple solutes (in the dilute regime) can be extracted from a single simulation.

KW - Carbon slit pore

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KW - Monte Carlo simulation

KW - Selective adsorption

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Selective adsorption from dilute solutions: Gibbs ensemble Monte Carlo simulations

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Keywords

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