Effect of pore constriction on adsorption behaviour in nanoporous carbon slit pore: a computer simulation


Autoria(s): Wongkoblap, A.; Do, D. D.
Contribuinte(s)

Nick Quirke (Editor-in-Chief)

Data(s)

01/01/2006

Resumo

A Grand Canonical Monte Carlo simulation (GCMC) method is used to study the effects of pore constriction on the adsorption of argon at 87.3 K in carbon slit pores of infinite and finite lengths. It is shown that the pore constriction affects the pattern of adsorption isotherm. First, the isotherm of the composite pore is greater than that of the uniform pore having the same width as the larger cavity of the composite pore. Secondly, the hysteresis loop of the composite pore is smaller than and falls between those of uniform pores. Two types of hysteresis loops have been observed, irrespective of the absence or presence of constriction and their presence depend on pore width. One hysteresis loop is associated with the compression of adsorbed particles and this phenomenon occurs after pore has been filled with particles. The second hysteresis loop is the classical condensation-evaporation loop. The hysteresis loop of a composite pore depends on the sizes of the larger cavity and the constriction. Generally, it is found that the pore blocking effect is not manifested in composite slit pores, and this result does not support the traditional irkbottle pore hypothesis.

Identificador

http://espace.library.uq.edu.au/view/UQ:78903

Idioma(s)

eng

Publicador

Taylor & Francis Ltd.

Palavras-Chave #Chemistry, Physical #Physics, Atomic, Molecular & Chemical #Adsorption #Carbon Slit Pore #Finite-length Pore #GCMC #Hysteresis #Pore Constriction #Monte-carlo-simulation #Capillary Condensation #Molecular Simulation #Activated Carbon #Porous Carbons #Morphology #Fluids #Argon #Water #C1 #290699 Chemical Engineering not elsewhere classified #670601 Chemical fertilisers
Tipo

Journal Article