Selectivities for binary mixtures of hydrogen/methane and hydrogen/carbon dioxide in silicalite and ETS-10 by Grand Canonical Monte Carlo techniques

被引:37
作者
Gallo, Marco
Nenoff, Tina M.
Mitchell, Martha C.
机构
[1] New Mexico State Univ, Dept Chem Engn, Las Cruces, NM 88003 USA
[2] Sandia Natl Labs, Albuquerque, NM 87185 USA
基金
美国能源部;
关键词
Grand Canonical Monte Carlo; selectivities; adsorption isotherms; ETS-10; silicalite;
D O I
10.1016/j.fluid.2006.06.014
中图分类号
O414.1 [热力学];
学科分类号
摘要
In this study the separation capabilities of silicalite and the titanosilicate molecular sieve ETS-10 for binary mixtures of hydrogen/methane and hydrogen/carbon dioxide were evaluated by equilibrium molecular simulation techniques. This is the first molecular simulation study that presents mixture adsorption isotherms of these components in silicalite and ETS-10, and determines selectivities based on the simulation results. Grand Canonical Monte Carlo (GCMC) simulations were carried out for pure components and binary mixtures for hydrogen/carbon dioxide and hydrogen/methane at 298 K to determine pure and mixture adsorption isotherms. The pure and mixture adsorption isotherms were calculated up to pressures of approximately 2000 bar. The results of this study indicate that the separation of hydrogen from methane or from carbon dioxide in silicalite would be successful, since hydrogen in a 50% bulk mixture does not adsorb unless the pressure is very high, on the order of 500 bar. In contrast, in ETS-10, hydrogen in a 50% bulk mixture adsorbs at a pressure near 10 bar. Simulations of adsorption in ETS-10 show at low, intermediate and high pressures a higher selectivity for the separation of carbon dioxide from hydrogen than the separation of methane from hydrogen. Simulations of adsorption in silicalite show a higher selectivity for the separation of carbon dioxide from hydrogen than the methane/hydrogen separation at high pressures only. Analysis of isosteric heat of adsorption information indicates that silicalite is energetically homogeneous with the adsorbates. In contrast. ETS-10 has energetic heterogeneity, as shown by the decrease of the heat of adsorption with increasing loading. (c) 2006 Elsevier B.V. All rights reserved.
引用
收藏
页码:135 / 142
页数:8
相关论文
共 57 条
  • [1] A grand canonical Monte Carlo study of the adsorption of methane, ethane, and their mixtures in one-dimensional nanoporous materials
    Adhangale, P
    Keffer, D
    [J]. LANGMUIR, 2002, 18 (26) : 10455 - 10461
  • [2] Monte Carlo simulation of single- and binary-component adsorption of CO2, N2, and H2 in zeolite Na-4A
    Akten, ED
    Siriwardane, R
    Sholl, DS
    [J]. ENERGY & FUELS, 2003, 17 (04) : 977 - 983
  • [3] Allen M. P., 2009, Computer Simulation of Liquids
  • [4] MICROPOROUS TITANOSILICATE ETS-10 - A STRUCTURAL SURVEY
    ANDERSON, MW
    TERASAKI, O
    OHSUNA, T
    MALLEY, PJO
    PHILIPPOU, A
    MACKAY, SP
    FERREIRA, A
    ROCHA, J
    LIDIN, S
    [J]. PHILOSOPHICAL MAGAZINE B-PHYSICS OF CONDENSED MATTER STATISTICAL MECHANICS ELECTRONIC OPTICAL AND MAGNETIC PROPERTIES, 1995, 71 (05): : 813 - 841
  • [5] [Anonymous], 1989, US Patent, Patent No. [US4853202 A, 4853202]
  • [6] Bird R. B., 2001, TRANSPORT PHENOMENA
  • [7] Hydrogen adsorption in the NaA zeolite: A comparison between numerical simulations and experiments
    Darkrim, F
    Aoufi, A
    Malbrunot, P
    Levesque, D
    [J]. JOURNAL OF CHEMICAL PHYSICS, 2000, 112 (13) : 5991 - 5999
  • [8] Design of new materials for methane storage
    Düren, T
    Sarkisov, L
    Yaghi, OM
    Snurr, RQ
    [J]. LANGMUIR, 2004, 20 (07) : 2683 - 2689
  • [9] Construction of a potential energy surface for molecular dynamics studies of methane adsorbed in zeolites
    Ermoshin, VA
    Engel, V
    [J]. JOURNAL OF PHYSICAL CHEMISTRY A, 1999, 103 (26) : 5116 - 5122
  • [10] SILICALITE, A NEW HYDROPHOBIC CRYSTALLINE SILICA MOLECULAR-SIEVE
    FLANIGEN, EM
    BENNETT, JM
    GROSE, RW
    COHEN, JP
    PATTON, RL
    KIRCHNER, RM
    SMITH, JV
    [J]. NATURE, 1978, 271 (5645) : 512 - 516