Adsorption of binary CO2/CH4 mixtures using carbon nanotubes: Effects of confinement and surface functionalization

Shanshan Wang; Linghong Lu; Xiaohua Lu; Wei Cao; Yudan Zhu

doi:10.1080/01496395.2016.1150296

Adsorption of binary CO₂/CH₄ mixtures using carbon nanotubes: Effects of confinement and surface functionalization

Shanshan Wang, Linghong Lu^*, Xiaohua Lu, Wei Cao, Yudan Zhu

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

Abstract

ABSTRACT: Effect of confinement and surface functionalization in carbon nanotubes (CNTs) on the competitive adsorption of a binary CO₂/CH₄ mixture has been investigated by grand canonical Monte Carlo simulations. Adsorption using CNTs with different functionalization arrangements, different diameters, different functionalization degrees, and different functional groups, such as –COOH, –CO, –OH, –CH₃, is investigated. Effects of (a) the pore textural properties, such as pore size and accessible surface area, and (b) the gas–adsorbent interaction, especially the electrostatic interaction, are discussed. From these results, we discuss the impact that variables such as confinement and surface functionalization have on the performance for CO₂ separation.

Original language	English
Pages (from-to)	1079-1092
Number of pages	14
Journal	Separation Science and Technology
Volume	51
Issue number	7
DOIs	https://doi.org/10.1080/01496395.2016.1150296
State	Published - 2 May 2016
Externally published	Yes

Keywords

Adsorption
CO/CH
confinement
functionalization
simulation

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10.1080/01496395.2016.1150296

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abstract = "ABSTRACT: Effect of confinement and surface functionalization in carbon nanotubes (CNTs) on the competitive adsorption of a binary CO2/CH4 mixture has been investigated by grand canonical Monte Carlo simulations. Adsorption using CNTs with different functionalization arrangements, different diameters, different functionalization degrees, and different functional groups, such as –COOH, –CO, –OH, –CH3, is investigated. Effects of (a) the pore textural properties, such as pore size and accessible surface area, and (b) the gas–adsorbent interaction, especially the electrostatic interaction, are discussed. From these results, we discuss the impact that variables such as confinement and surface functionalization have on the performance for CO2 separation.",

keywords = "Adsorption, CO/CH, confinement, functionalization, simulation",

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AU - Wang, Shanshan

AU - Lu, Linghong

AU - Lu, Xiaohua

AU - Cao, Wei

AU - Zhu, Yudan

PY - 2016/5/2

Y1 - 2016/5/2

N2 - ABSTRACT: Effect of confinement and surface functionalization in carbon nanotubes (CNTs) on the competitive adsorption of a binary CO2/CH4 mixture has been investigated by grand canonical Monte Carlo simulations. Adsorption using CNTs with different functionalization arrangements, different diameters, different functionalization degrees, and different functional groups, such as –COOH, –CO, –OH, –CH3, is investigated. Effects of (a) the pore textural properties, such as pore size and accessible surface area, and (b) the gas–adsorbent interaction, especially the electrostatic interaction, are discussed. From these results, we discuss the impact that variables such as confinement and surface functionalization have on the performance for CO2 separation.

AB - ABSTRACT: Effect of confinement and surface functionalization in carbon nanotubes (CNTs) on the competitive adsorption of a binary CO2/CH4 mixture has been investigated by grand canonical Monte Carlo simulations. Adsorption using CNTs with different functionalization arrangements, different diameters, different functionalization degrees, and different functional groups, such as –COOH, –CO, –OH, –CH3, is investigated. Effects of (a) the pore textural properties, such as pore size and accessible surface area, and (b) the gas–adsorbent interaction, especially the electrostatic interaction, are discussed. From these results, we discuss the impact that variables such as confinement and surface functionalization have on the performance for CO2 separation.

KW - Adsorption

KW - CO/CH

KW - confinement

KW - functionalization

KW - simulation

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Adsorption of binary CO₂/CH₄ mixtures using carbon nanotubes: Effects of confinement and surface functionalization

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