Storage of natural gas by adsorption on activated carbon

Kimberly R. Matranga; Alan L. Myers; Eduardo D. Glandt

doi:10.1016/0009-2509(92)85005-V

Storage of natural gas by adsorption on activated carbon

Kimberly R. Matranga
, Alan L. Myers
, Eduardo D. Glandt

School of Biological, Earth and Environmental Sciences

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

Abstract

Natural gas may be stored by liquefaction, compression, or adsorption. For use as a transportation fuel, liquefaction is impractical and compression requires high pressure (20 MPa) and an expensive multi-stage compression facility. At relatively low pressure (3-4 MPa) achievable by single-stage compression, adsorbed natural gas (ANG) has nearly the capacity of compressed natural gas (CNG). Monte Carlo calculations were performed to simulate the adsorption of natural gas on activated carbon. The model is pure methane intercalated between parallel planes of graphite at a slit of width 11.4 Å, optimized for ANG storage. The simulations predict that the maximum delivered energy density of ANG is 0.25 for monolithic carbon and 0.17 for pelletized carbon, compared to 0.29 for CNG and 1.0 for gasoline. © 1992.

Original language	English (Ireland)
Pages (from-to)	1569-1579
Number of pages	11
Journal	Chemical Engineering Science
Volume	47
Issue number	7
DOIs	https://doi.org/10.1016/0009-2509(92)85005-V
Publication status	Published - 1992

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title = "Storage of natural gas by adsorption on activated carbon",

abstract = "Natural gas may be stored by liquefaction, compression, or adsorption. For use as a transportation fuel, liquefaction is impractical and compression requires high pressure (20 MPa) and an expensive multi-stage compression facility. At relatively low pressure (3-4 MPa) achievable by single-stage compression, adsorbed natural gas (ANG) has nearly the capacity of compressed natural gas (CNG). Monte Carlo calculations were performed to simulate the adsorption of natural gas on activated carbon. The model is pure methane intercalated between parallel planes of graphite at a slit of width 11.4 {\AA}, optimized for ANG storage. The simulations predict that the maximum delivered energy density of ANG is 0.25 for monolithic carbon and 0.17 for pelletized carbon, compared to 0.29 for CNG and 1.0 for gasoline. {\textcopyright} 1992.",

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year = "1992",

doi = "10.1016/0009-2509(92)85005-V",

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T1 - Storage of natural gas by adsorption on activated carbon

AU - Matranga, Kimberly R.

AU - Myers, Alan L.

AU - Glandt, Eduardo D.

PY - 1992

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AB - Natural gas may be stored by liquefaction, compression, or adsorption. For use as a transportation fuel, liquefaction is impractical and compression requires high pressure (20 MPa) and an expensive multi-stage compression facility. At relatively low pressure (3-4 MPa) achievable by single-stage compression, adsorbed natural gas (ANG) has nearly the capacity of compressed natural gas (CNG). Monte Carlo calculations were performed to simulate the adsorption of natural gas on activated carbon. The model is pure methane intercalated between parallel planes of graphite at a slit of width 11.4 Å, optimized for ANG storage. The simulations predict that the maximum delivered energy density of ANG is 0.25 for monolithic carbon and 0.17 for pelletized carbon, compared to 0.29 for CNG and 1.0 for gasoline. © 1992.

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JO - Chemical Engineering Science

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Storage of natural gas by adsorption on activated carbon

Abstract

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