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Porous carbons for gas storage and separation: characterisation and performance


Reference:

McEnaney, B., Alain, E., Yin, Y. F. and Mays, T. J., 2001. Porous carbons for gas storage and separation: characterisation and performance. In: Rand, B., Appleyard, S. P. and Yardim, M. F., eds. Design and Control of Structure of Advanced Carbon Materials for Enhanced Performance. Vol. 374. Springer, pp. 295-318. (NATO Science Series E: Applied Sciences)

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Abstract

In a review it was shown that modern absorbent carbons could be designed for specific applications in the fields of gas storage and gas sepn. Chem. vapor infiltration is described as a method to control the pore size of mol. sieve carbon, and by use of such material membranes could be designed for the sepn. of gas mixts. Absorbent carbons could be candidates for the storage of vehicle fuel gases, such as natural gas or H2.

Details

Item Type Book Sections
CreatorsMcEnaney, B., Alain, E., Yin, Y. F. and Mays, T. J.
EditorsRand, B., Appleyard, S. P. and Yardim, M. F.
Uncontrolled Keywordsreview mol sieve carbon porous gas storage sepn, separation, pore size, porous materials, natural gas role, proc (process), molecular sieves, uses (uses) (porous carbons for gas storage and sepn.), absorbents, tem (technical or engineered material use), pyp (physical process), pep (physical, fuel gases, storage (porous carbons for gas storage and sepn.), engineering or chemical process)
DepartmentsFaculty of Engineering & Design > Chemical Engineering
StatusPublished
ID Code1036
Additional InformationProceedings of the NATO Advanced Study Institute, held in Antalya, Turkey, May 10-21, 1998

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