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11 research outputs found

Modified Higuchi Model Applied to Permeation Prediction of Nanocomposite Membranes

Author: Abdulhalim Maulud
Ahn
Alamin Idris
Bakhtiari
Bet-moushoul
Bouma
Chung
Cong
Felske
Gomes
Gonzo
Higuchi
Hosseini
Iqbal Ahmed
Kiadehi
Maxwell
Momeni
Moore
Morteza
Morteza
Pal
Sadeghi
Scholz
Shimekit
Vinh-Thang
Xomeritakis
Zakaria B. Man
Publication venue: 'Elsevier BV'
Publication date: 01/01/2016
Field of study

Crossref

Porous Aromatic Frameworks Impregnated with Lithiated Fullerenes for Natural Gas Purification

Crossref

Modeling of spiral wound membranes for gas separations. Part I: An iterative 2D permeation model

Author: Agency
Ahsan
Al-Obaidi
Al-Obaidi
Amooghin
Ana Carolina S. Dias
Anp
Anp
Cao
Confidencial
Diego Q. Menezes
Dortmundt
Fábio C. Diehl
Gakhov
Geraldes
Han
Henis
Jain
José Carlos Pinto
Kovvali
Marriott
Marília Caroline C. De Sá
More
Nelder
Pedro H. Thompson
Qi
Rackley
Saeid Mokhatab
Salim
Secchi
Shi
Shimekit
Shindo
Singh
Soares
Speight
Tahyná B. Fontoura
Thiago K. Anzai
Wijmans
Publication venue: 'Elsevier BV'
Publication date
Field of study

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Shale Gas Processing Integrated with Ethylene Production: Novel Process Designs, Exergy Analysis, and Techno-Economic Analysis

Author: Bahadori A.
Bahadori A.
Baker R. W.
Berman A.
Bullin K.
Chang He
D’Alessandro D. M.
Ehlinger V. M.
Fengqi You
George D. L.
Getu M.
Hill R. J.
Hugman R. H.
IEA
Kerr R. A.
Kurimura H.
Lee S.
Martín M.
Mokhatab S.
Mokhatab S.
Mokhatab S.
Netusil M.
Parks L. E.
Peters M.
Rufford T. E.
Rufford T. E.
Shimekit B.
Siirola J. J.
Speight J. G.
Sundaram K. M.
Wang B.
Wang M.
Wang Q.
Woken C. A.
Publication venue: 'American Chemical Society (ACS)'
Publication date
Field of study

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Feasibility of mixed matrix membrane gas separations employing porous organic cages

Author: Aaron W. Thornton
Akten E. D.
Avellaneda A.
Baker R. W.
Banhegyi G.
Boda D.
Budd P. M.
Bushell A. F.
Cai Q.
Chen B.
Christian J. Doonan
Christopher J. Sumby
Darkrim F.
David M. Huang
Freeman B.
Haldoupis E.
Harris J. G.
Hasell T.
Hasell T.
Haszeldine R. S.
Ho M. T.
Holden D.
Jack D. Evans
Jacobson M. Z.
Jiang S.
Jiang S.
Jones J. T. A.
Keskin S.
Keskin S.
Kim J.
Krishna R.
Krishna R.
Krishna R.
Ku A. Y.
Li J. R.
Li W.
Li Y.
Mahajan R.
Martin R. L.
Matthew R. Hill
Merkel T. C.
Mitra T.
Nosé S.
Ordoñez M. J. C.
Park H. B.
Perez E. V.
Rappé A. K.
Robeson L. M.
Robeson L. M.
Schneider M. W.
Scholes C. A.
Shimekit B.
Süer M. G.
Thornton A. W.
Tozawa T.
Vu D. Q.
Willems T. F.
Publication venue: 'American Chemical Society (ACS)'
Publication date: 01/01/2014
Field of study

Porous additives offer an attractive pathway to enhance the performance of polymeric gas separation membranes. Previously reported porous additives, such as zeolites and metal-organic frameworks, suffer from poor interfacial binding with the polymer matrix, which leads to nonselective gas transport pathways. Porous organic cages (POCs) are an exciting new family of soluble additives that could ameliorate these transport issues by integrating intimately with the polymer matrix. By using Voronoi network analysis, grand canonical Monte Carlo simulations, and molecular dynamics, we provide a theoretical assessment of the benefit of using POCs as additives for mixed matrix membranes (MMMs). We reveal that some MMMs containing POCs exhibit enhanced selectivity and permeability compared to the neat polymer matrix, particularly for H2/CO 2 separations. © 2013 American Chemical Society

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