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References (110)
-
L. Zeman, A. Zydney (1996)
Microfiltration and Ultrafiltration: Principles and Applications -
S. Khan, Rashmi, M. Hussain, S. Prasad, U. Banerjee (2009)
Prospects of biodiesel production from microalgae in IndiaRenewable & Sustainable Energy Reviews, 13
-
N. Kocherginsky, Qian Yang, Lalitha Seelam (2007)
Recent advances in supported liquid membrane technologySeparation and Purification Technology, 53
-
R. Schlesinger, G. Götzinger, H. Sixta, A. Friedl, M. Harasek (2006)
Evaluation of alkali resistant nanofiltration membranes for the separation of hemicellulose from concentrated alkaline process liquorsDesalination, 192
-
Kaseno, I. Miyazawa, T. Kokugan (1998)
Effect of Product Removal by a Pervaporation on Ethanol FermentationJournal of Fermentation and Bioengineering, 86
-
Christopher Orme, M. Harrup, T. Luther, R. Lash, K. Houston, D. Weinkauf, F. Stewart (2001)
Characterization of gas transport in selected rubbery amorphous polyphosphazene membranesJournal of Membrane Science, 186
-
N. Qureshi, M. Meagher, Jicai Huang, R. Hutkins (2001)
Acetone butanol ethanol (ABE) recovery by pervaporation using silicalite–silicone composite membrane from fed-batch reactor of Clostridium acetobutylicumJournal of Membrane Science, 187
-
A. Jonquieres, R. Clément, P. Lochon, J. Neel, M. Dresch, Bruno Chrétien (2002)
Industrial state-of-the-art of pervaporation and vapour permeation in the western countriesJournal of Membrane Science, 206
-
L. Jiang, Hongmin Chen, Y. Jean, T. Chung (2009)
Ultrathin polymeric interpenetration network with separation performance approaching ceramic membranes for biofuelAiche Journal, 55
-
C. Almandoz, C. Pagliero, A. Ochoa, J. Marchese (2010)
Corn syrup clarification by microfiltration with ceramic membranesJournal of Membrane Science, 363
-
Xiangyi Qiao, T. Chung (2005)
Fundamental Characteristics of Sorption, Swelling, and Permeation of P84 Co-polyimide Membranes for Pervaporation Dehydration of AlcoholsIndustrial & Engineering Chemistry Research, 44
-
B. Kamm, M. Kamm (2004)
Principles of biorefineriesApplied Microbiology and Biotechnology, 64
-
N. Patel, A. Miller, R. Spontak (2003)
Highly CO2‐Permeable and Selective Polymer Nanocomposite MembranesAdvanced Materials, 15
-
B. Rohland, V. Plzak (1999)
The PEMFC-integrated CO oxidation — a novel method of simplifying the fuel cell plantJournal of Power Sources, 84
-
T. Peters, J. Fontalvo, Mag Vorstman, N. Benes, van Dam, Z. Vroon, van Soest-Vercammen, Jtf Keurentjes (2005)
Hollow fibre microporous silica membranes for gas separation and pervaporation: synthesis, performance and stabilityJournal of Membrane Science, 248
-
B. Smitha, D. Suhanya, Sekaran Sridhar, M. Ramakrishna (2004)
Separation of organic–organic mixtures by pervaporation—a reviewJournal of Membrane Science, 241
-
S. Uemiya (1999)
State-of-the-Art of Supported Metal Membranes for Gas SeparationSeparation and Purification Methods, 28
-
N. Qureshi, T. Ezeji (2008)
Butanol, ‘a superior biofuel’ production from agricultural residues (renewable biomass): recent progress in technologyBiofuels, 2
-
(2012)
Biorefinery of sweet sorghum -
Yan Wang, S. Goh, T. Chung, Peng Na (2009)
Polyamide-imide/polyetherimide dual-layer hollow fiber membranes for pervaporation dehydration of C1–C4 alcoholsJournal of Membrane Science, 326
-
Haiqing Lin, Elizabeth Wagner, B. Freeman, L. Toy, Raghubir Gupta (2006)
Plasticization-Enhanced Hydrogen Purification Using Polymeric MembranesScience, 311
-
L. Shao, Bee Low, T. Chung, A. Greenberg (2009)
Polymeric membranes for the hydrogen economy: Contemporary approaches and prospects for the futureJournal of Membrane Science, 327
-
(2005)
Block polyurethane-ether and polyureaester gas separation membranes -
(1996)
Basic Principle of Membrane Technology. Dordrecht, The Netherlands: Kluwer Academic Publisher -
Jianliang Yu, Tao Zhang, Jing Zhong, Xu Zhang, T. Tan (2012)
Biorefinery of sweet sorghum stem.Biotechnology advances, 30 4
-
P. Nigam, Anoop Singh (2011)
Production of liquid biofuels from renewable resourcesProgress in Energy and Combustion Science, 37
-
Igor Beckman (2005)
POLYMERIC GAS SEPARATION MEMBRANES -
(2009)
Ultra-thin polymeric interpenetration separation performance approaching ceramic membranes for biofuel -
Songlin Liu, Rong Wang, T. Chung, M. Chng, Y. Liu, R. Vora (2002)
Effect of diamine composition on the gas transport properties in 6FDA-durene/3,3′-diaminodiphenyl sulfone copolyimidesJournal of Membrane Science, 202
-
T. Lammens, M. Franssen, E. Scott, J. Sanders (2012)
Availability of protein-derived amino acids as feedstock for the production of bio-based chemicalsBiomass & Bioenergy, 44
-
R. Othman, A. Mohammad, M. Ismail, J. Salimon (2010)
Application of polymeric solvent resistant nanofiltration membranes for biodiesel productionJournal of Membrane Science, 348
-
Jia Xu, Cong-jie Gao, Xian-she Feng (2010)
Thin-film-composite membranes comprising of self-assembled polyelectrolytes for separation of water from ethylene glycol by pervaporationJournal of Membrane Science, 352
-
M. Dubé, A. Tremblay, J. Liu (2007)
Biodiesel production using a membrane reactor.Bioresource technology, 98 3
-
Fangfang Liu, Li Liu, Xian-she Feng (2005)
Separation of acetone–butanol–ethanol (ABE) from dilute aqueous solutions by pervaporationSeparation and Purification Technology, 42
-
Xu Fang, Yu Shen, Jian Zhao, X. Bao, Y. Qu (2010)
Status and prospect of lignocellulosic bioethanol production in China.Bioresource technology, 101 13
-
B. Freeman, I. Pinnau (1997)
Separation of gases using solubility-selective polymersTrends in polymer science, 5
-
M. Izquierdo-Gil, G. Jonsson (2003)
Factors affecting flux and ethanol separation performance in vacuum membrane distillation (VMD)Journal of Membrane Science, 214
-
T. Chung, L. Jiang, Yi Li, S. Kulprathipanja (2007)
MIXED MATRIX MEMBRANES (MMMS) COMPRISING ORGANIC POLYMERS WITH DISPERSED INORGANIC FILLERS FOR GAS SEPARATIONProgress in Polymer Science, 32
-
W. Koros, G. Fleming (1993)
Membrane-based gas separationJournal of Membrane Science, 83
-
Chen Chen, Yang Yang, Sweeney Sweeney, Feng Feng (2010)
Household biogas use in rural C hina: a study of opportunities and constraintsRenew Sustain Energy Rev, 14
-
(2000)
Separation, characterization and hydrogelformation of hemicellulose from aspen wood. Carbohydr Polym -
Pravat Swain, Lalitendu Das, S. Naik (2011)
Biomass to liquid: A prospective challenge to research and development in 21st centuryRenewable & Sustainable Energy Reviews, 15
-
S. N'Diaye, L. Rigal, P. Larocque, P. Vidal (1996)
Extraction of hemicelluloses from poplar, Populus tremuloides, using an extruder-type twin-screw reactor: a feasibility studyBioresource Technology, 57
-
Yan Wang, L. Jiang, T. Matsuura, T. Chung, S. Goh (2008)
Investigation of the fundamental differences between polyamide-imide (PAI) and polyetherimide (PEI) membranes for isopropanol dehydration via pervaporationJournal of Membrane Science, 318
-
Abdullah Alkhudhiri, N. Darwish, N. Hilal (2012)
Membrane distillation: A comprehensive reviewDesalination, 287
-
(2002)
A critical review on diffusivity and characterization of 6FDA-6FpDA polyimide membranes for gas separation -
J. Caro, M. Noack, P. Kölsch, R. Schäfer (2000)
Zeolite membranes – state of their development and perspectiveMicroporous and Mesoporous Materials, 38
-
Kevin Lawson, D. Lloyd (1996)
Membrane distillation. I. Module design and performance evaluation using vacuum membrane distillationJournal of Membrane Science, 120
-
P. Bernardo, C. Algieri, G. Barbieri, E. Drioli (2008)
Hydrogen purification from carbon monoxide by means of selective oxidation using zeolite catalytic membranesSeparation and Purification Technology, 62
-
L. Jiang, T. Chung (2009)
β-Cyclodextrin containing Matrimid® sub-nanocomposite membranes for pervaporation applicationJournal of Membrane Science, 327
-
K. Srirangan, Lamees Akawi, M. Moo-young, C. Chou (2012)
Towards sustainable production of clean energy carriers from biomass resourcesApplied Energy, 100
-
L. Jiang, Yan Wang, T. Chung, Xiangyi Qiao, J. Lai (2009)
Polyimides membranes for pervaporation and biofuels separationProgress in Polymer Science, 34
-
X. Zeng, Yitai Ma, Lirong Ma (2007)
Utilization of straw in biomass energy in ChinaRenewable & Sustainable Energy Reviews, 11
-
(2006)
Method and system for extraction of zein from corn -
Shijie Liu, Houfang Lu, Ruofei Hu, Alan Shupe, Lu Lin, Bin Liang (2012)
A sustainable woody biomass biorefinery.Biotechnology advances, 30 4
-
L. Vane (2005)
A review of pervaporation for product recovery from biomass fermentation processesJournal of Chemical Technology & Biotechnology, 80
-
(2005)
Hollow fiber microporous silica membranes for gas separation and pervaporation -
Groot Groot, Kraayenbrink Kraayenbrink, Waldram Waldram, van der Lans van der Lans (1992)
Ethanol production in an integrated process of fermentation and ethanol recovery by pervaporationBioprocess Biosyst Eng, 8
-
P. Shao, Robert Huang (2007)
Polymeric membrane pervaporationJournal of Membrane Science, 287
-
Rong Wang, Chun Cao, T. Chung (2002)
A critical review on diffusivity and the characterization of diffusivity of 6FDA–6FpDA polyimide membranes for gas separationJournal of Membrane Science, 198
-
Youchang Xiao, Ying Dai, T. Chung, M. Guiver (2005)
Effects of Brominating Matrimid Polyimide on the Physical and Gas Transport Properties of Derived Carbon MembranesMacromolecules, 38
-
J. Caro (2008)
Catalysis in Micro-structured Membrane Reactors with Nano-designed MembranesChinese Journal of Catalysis, 29
-
Shu-Hsien Huang, Chi-Lan Li, Chien-Chieh Hu, H. Tsai, Kueir-Rarn Lee, J. Lai (2006)
Polyamide thin-film composite membranes prepared by interfacial polymerization for pervaporation separationDesalination, 200
-
M. Vázquez, J. Alonso, H. Domínguez, J. Parajó (2001)
Production of xylose-containing fermentation media by enzymatic post-hydrolysis of oligomers produced by corn cob autohydrolysisWorld Journal of Microbiology and Biotechnology, 17
-
G. Centi, P. Lanzafame, S. Perathoner (2011)
Analysis of the alternative routes in the catalytic transformation of lignocellulosic materialsCatalysis Today, 167
-
Hyeok Choi, Kai Zhang, D. Dionysiou, Daniel Oerther, G. Sorial (2005)
Influence of cross-flow velocity on membrane performance during filtration of biological suspensionJournal of Membrane Science, 248
-
Christopher Orme, J. Klaehn, M. Harrup, T. Luther, E. Peterson, F. Stewart (2006)
Gas permeability in rubbery polyphosphazene membranesJournal of Membrane Science, 280
-
S. Hosseini, M. Teoh, T. Chung (2008)
Hydrogen separation and purification in membranes of miscible polymer blends with interpenetration networksPolymer, 49
-
I. Gabrielii, P. Gatenholm, W. Glasser, R. Jain, L. Kenne (2000)
Separation, characterization and hydrogel-formation of hemicellulose from aspen wood.Carbohydrate Polymers, 43
-
(1996)
Basic Principle of Membrane Technology -
L. Duarte, T. Silva-Fernandes, F. Carvalheiro, F. Girio (2009)
Dilute Acid Hydrolysis of Wheat Straw OligosaccharidesApplied Biochemistry and Biotechnology, 153
-
(2005)
Block polyurethane-ether and polyureaester gas separation membranes. Patent US6 -
M. Gomes, N. Pereira, S. Barros (2010)
Separation of biodiesel and glycerol using ceramic membranesJournal of Membrane Science, 352
-
Christopher Orme, M. Stone, M. Benson, E. Peterson (2003)
Testing Of Polymer Membranes For The Selective Permeability Of HydrogenSeparation Science and Technology, 38
-
M. Ajhar, T. Melin (2006)
Siloxane removal with gas permeation membranesDesalination, 200
-
D. O’Brien, J. Craig (1996)
Ethanol production in a continuous fermentation/membrane pervaporation systemApplied Microbiology and Biotechnology, 44
-
I. Atadashi, M. Aroua, A. Aziz, N. Sulaiman (2011)
Membrane biodiesel production and refining technology: A critical reviewRenewable & Sustainable Energy Reviews, 15
-
Tatiana Gallego-Lizon, E. Edwards, Giuseppe Lobiundo, L. Santos (2002)
Dehydration of water/t-butanol mixtures by pervaporation: comparative study of commercially available polymeric, microporous silica and zeolite membranesJournal of Membrane Science, 197
-
(2002)
Freitas dos Santos L. Dehydration of water/tert-butanol mixtures by pervaporation: comparative study of commercially available polymeric, microporous silica and zeolite membranes -
W. Guo, T. Chung (2005)
Study and characterization of the hysteresis behavior of polyimide membranes in the thermal cycle process of pervaporation separationJournal of Membrane Science, 253
-
(2012)
Research review paper : a sustainable woody biomass biorefin -
Yong Wang, Xingguo Wang, Yuanfa Liu, S. Ou, Ya-Fang Tan, Shu-ze Tang (2009)
Refining of biodiesel by ceramic membrane separationFuel Processing Technology, 90
-
R. Sun, J. Fang, J. Tomkinson, Z. Geng, J. Liu (2001)
Fractional isolation, physico-chemical characterization and homogeneous esterification of hemicelluloses from fast-growing poplar woodCarbohydrate Polymers, 44
-
A. Demirbaş (2009)
Biorefineries: Current activities and future developmentsEnergy Conversion and Management, 50
-
A. Margeot, B. Hahn-Hagerdal, M. Edlund, R. Slade, F. Monot (2009)
New improvements for lignocellulosic ethanol.Current opinion in biotechnology, 20 3
-
W. Chao, Shu-Hsien Huang, Quan‐Fu An, D. Liaw, Ying-Chi Huang, Kueir-Rarn Lee, J. Lai (2011)
Novel interfacially-polymerized polyamide thin-film composite membranes: Studies on characterization, pervaporation, and positron annihilation spectroscopyPolymer, 52
-
Si-Xue Cheng, T. Chung, Rong Wang, R. Vora (2003)
Gas‐sorption properties of 6FDA–durene/1,4‐phenylenediamine (pPDA) and 6FDA–durene/1,3‐phenylenediamine (mPDA) copolyimidesJournal of Applied Polymer Science, 90
-
(2006)
Method and system for extraction of zein from corn. Patent US7,045,607 -
A. Bos, Ineke Punt, H. Strathmann, Matthias Wessling (2001)
Suppression of gas separation membrane plasticization by homogeneous polymer blendingAiche Journal, 47
-
(2006)
Fabrication and characterization of composite membranes for gas separation -
Yu Chen, Gaihe Yang, S. Sweeney, Yongzhong Feng (2018)
Household Biogas Use in Rural China: A Study of Opportunities and ConstraintsRenewable Energy
-
N. Qureshi, H. Blaschek (1999)
Butanol recovery from model solution/fermentation broth by pervaporation: evaluation of membrane performanceBiomass & Bioenergy, 17
-
J. Zhu, X. Zhuang (2012)
Conceptual net energy output for biofuel production from lignocellulosic biomass through biorefiningProgress in Energy and Combustion Science, 38
-
W. Ji, S. Sikdar (1996)
Pervaporation Using Adsorbent-Filled MembranesIndustrial & Engineering Chemistry Research, 35
-
M. Demirbas (2009)
Biorefineries for biofuel upgrading: A critical reviewApplied Energy, 86
-
Yi Li, T. Chung (2008)
Highly selective sulfonated polyethersulfone (SPES)-based membranes with transition metal counterions for hydrogen recovery and natural gas separationJournal of Membrane Science, 308
-
M. Kondo, Mitsuru Komori, H. Kita, K. Okamoto (1997)
Tubular-type pervaporation module with zeolite NaA membrane☆Journal of Membrane Science, 133
-
G. Avgouropoulos, T. Ioannides (2003)
Selective CO oxidation over CuO-CeO2 catalysts prepared via the urea-nitrate combustion methodApplied Catalysis A-general, 244
-
N. Abatzoglou, S. Boivin (2009)
A review of biogas purification processesBiofuels, 3
-
Norhasyimi Rahmat, A. Abdullah, A. Mohamed (2010)
Recent progress on innovative and potential technologies for glycerol transformation into fuel additives: A critical reviewRenewable & Sustainable Energy Reviews, 14
-
Maryam Peer, S. Kamali, M. Mahdeyarfar, T. Mohammadi (2007)
Separation of Hydrogen from Carbon Monoxide Using a Hollow Fiber Polyimide Membrane: Experimental and SimulationChemical Engineering & Technology, 30
-
(2012)
Research review paper: a sustainable woody biomass biorefinery -
Chunhui Zhou, T. Chung, Rong Wang, Yen-Hsin Liu, S. Goh (2003)
The accelerated CO2 plasticization of ultra-thin polyimide films and the effect of surface chemical cross-linking on plasticization and physical agingJournal of Membrane Science, 225
-
P. Tin, Youchang Xiao, T. Chung (2006)
Polyimide‐Carbonized Membranes for Gas Separation: Structural, Composition, and Morphological Control of PrecursorsSeparation & Purification Reviews, 35
-
T. Sainio, M. Kallioinen, Olli Nakari, M. Mänttäri (2013)
Production and recovery of monosaccharides from lignocellulose hot water extracts in a pulp mill biorefinery.Bioresource technology, 135
-
T. Chung, L. Shao, P. Tin (2006)
Surface Modification of Polyimide Membranes by Diamines for H2 and CO2 SeparationMacromolecular Rapid Communications, 27
-
W. Groot, M. Kraayenbrink, R. Waldram, R. Lans, K. Luyben (1992)
Ethanol production in an integrated process of fermentation and ethanol recovery by pervaporationBioprocess Engineering, 8
-
Huajiang Huang, S. Ramaswamy, U. Tschirner, B. Ramarao (2008)
A review of separation technologies in current and future biorefineriesSeparation and Purification Technology, 62
-
V. Abetz, T. Brinkmann, M. Dijkstra, K. Ebert, D. Fritsch, Prof. Abetz, Prof. Ohlrogge, Paul K.-V, Dr. Peinemann, N. PereiraNunesDr., M. Scharnagl, Schossig, Monika Kampff, Horst-Peter Witt (2006)
Developments in Membrane Research: from Material via Process Design to Industrial ApplicationAdvanced Engineering Materials, 8
-
T. Bowen, R. Noble, J. Falconer (2004)
Fundamentals and applications of pervaporation through zeolite membranesJournal of Membrane Science, 245
- Publisher
- Wiley
- Copyright
- Copyright © 2013 John Wiley & Sons, Ltd.
- ISSN
- 2041-8396
- eISSN
- 2041-840X
- DOI
- 10.1002/wene.73
- Publisher site
- See Article on Publisher Site
Abstract
Biorefinery is one of the most important industries in the modern world, as it provides a variety of products, particularly renewable bioenergy, which is highly vital to human existence (?). Among the separation technologies applied in biorefinery, membrane‐based separation has received great attention in past decades as it is in line with the worldwide move toward higher energy efficiency and lower environmental impact. Analysis of the academic and industrial activities being undertaken reveals that porous membranes like nanofiltration, ultrafiltration, and microfiltration are generally associated with pretreatment and hydrolysis procedures where separation is relied on for recovering value‐added materials with wide range of molecular weight and facilitating follow‐up bioconversion. An emerging field that highly appreciates porous membranes is biodiesel purification. Molecular level separations including gas product separation existing in thermal and anaerobic conversions and liquid alcoholic products recovery in microbial/enzymatic process offer more opportunity to membrane‐based gas separation and pervaporation using dense membranes. Membrane distillation and supported liquid membrane, commonly classed as new generation of membrane technology, show the potential in bioethanol recovery and hydrolysis step, respectively. Nonetheless, their competitiveness is to be confirmed. The function of membrane separation is being pushed further. Bearing in mind the importance of membranes with higher quality in terms of separation efficiency and material stability, we must also be prepared for the challenges deriving from some engineering aspects such as membrane fouling, module design, and process optimization.
Journal
Wiley Interdisciplinary Reviews: Energy and Environment – Wiley
Published: Nov 1, 2013