Program - ICOM 2008
Program - ICOM 2008
Program - ICOM 2008
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Wednesday, July 16 – Morning Sessions<br />
8:00AM Plenary II (Hawai’i Ballroom):<br />
Professor Young Moo Lee (Hanyang University, Seoul, Korea)<br />
Thermally Rearranged Polymer Membranes with Cavities Tuned for Fast Transport of Small Molecules<br />
9:00AM Coffee Break (Ballroom Foyer)<br />
Gas Separation III<br />
(Kaua’i)<br />
Chair: Keith Murphy, Air Products<br />
and Chemicals, USA<br />
Co-Chair: Ed Sanders, Air Liquide,<br />
USA<br />
9:30AM Membrane Engineering Progresses<br />
and Potentialities in Gas Separations<br />
Drioli, Research Institute on Membrane<br />
Technology, ITM-CNR, Italy<br />
10:15AM Evolution of Natural Gas Treatment<br />
with Membrane Systems<br />
White, Wildemuth, W.R. Grace & Co.,<br />
Littleton, Colorado, USA<br />
10:45AM CO 2 Permeation With Pebax-Based<br />
Membranes for Global Warming<br />
Reduction<br />
Nguyen, Sublet, Rouen University,<br />
France<br />
Langevin, Chappey, Valleton, CNRS,<br />
France<br />
Schaetzel, CAEN University, France<br />
11:15AM A Membrane Process to Capture CO 2<br />
from Power Plant Flue Gas<br />
Merkel, Lin, Thompson, Daniels,<br />
Serbanescu, Baker, Membrane<br />
Technology and Research, Menlo Park,<br />
California, USA<br />
11:45AM<br />
Membranes and Post Combustion<br />
Carbon Dioxide Capture: Challenges<br />
& Prospects<br />
Favre, LSGC CNRS, Nancy, France<br />
12:15PM The Effect of Sweep Uniformity on<br />
Gas Dehydration Modules<br />
Hao, Lipscomb, The University of<br />
Toledo, Toledo, Ohio, USA<br />
Drinking and<br />
Wastewater<br />
Applications III<br />
(Maui)<br />
Chair: Maria Norberta de Pinho,<br />
Instituto Superior Tecnico, Portugal<br />
Co-Chair: Daniel Yeh, University of<br />
South Florida, USA<br />
Membranes and Water: the Role of<br />
Hybrid Processes<br />
Fane, Director, Singapore Membrane<br />
Technology Centre, Singapore<br />
Coagulation-Ceramic Microfiltration<br />
Hybrid System Effectively Removes<br />
Virus that is Difficult to Remove in<br />
Conventional Coagulation-<br />
Sedimentation-Sand Filtration<br />
Process<br />
Matsushita, Shirasaki, Matsui, Kobuke,<br />
Urasaki, Ohno, Hokkaido University,<br />
Sapporo, Japan<br />
Membrane Enhanced Ultraviolet<br />
Oxidation of Polyethylene Glycol<br />
Wastewaters<br />
Patterson, Vranjes, University of<br />
Auckland, Auckland, New Zealand<br />
Improvement of Swimming Pool<br />
Water Quality by Ultrafiltration -<br />
Adsorption Hybrid Process<br />
Barbot, Moulin, Aix-Marseille University,<br />
France<br />
Processing of Low- and<br />
Intermediate- Level Radioactive<br />
Wastes from Medical and Industrial<br />
Applications by Membrane Methods<br />
Zakrzewska-Trznadel, Institute of<br />
Nuclear Chemistry and Technology,<br />
Warszawa, Poland<br />
Removal of Natural Organic Matter in<br />
Coagulation-Microfiltration-GAC<br />
Adsorption Systems for Drinking<br />
Water Production<br />
Ahn, KAIST, Daejeon, Korea<br />
Lee, University of Suwon, Gyeonggi-do,<br />
Korea<br />
Bae, Daejeon University, Daeion, Korea<br />
Min, Samsung Construction, Kyunggi-<br />
Do, Korea<br />
Shin, KAIST, Daejeon, Korea<br />
Polymeric Membranes<br />
II<br />
(Moloka’i)<br />
Chair: Mary Rezac, Kansas State<br />
University, USA<br />
Co-Chair: Xiao-Lin Wang, Tsinghua<br />
University, China<br />
Optical Resolution with Chiral<br />
Polymaide Membranes<br />
Yoshikawa, Ikeuchi, Nakagawa, Kyoto<br />
Institute of Technology, Kyoto, Japan<br />
Dehydration of Alcohols By<br />
Pervaporation Through Polyimide<br />
Matrimid® Asymmetric Hollow<br />
Fibers with Various Modifications<br />
Jiang, Chung, Rajagopalan, National<br />
University of Singapore, Singapore<br />
New Cross-Linked Membranes For<br />
Solvent Resistant Nanofiltration<br />
Vanherck, Aldea, Vandezande,<br />
Vankelecom, Centre for Surface<br />
Chemistry and Catalysis, Katholieke<br />
Universiteit Leuven, Heverlee, Belgium<br />
Properties and Potential of<br />
Polymeric Nanofiber Membranes for<br />
Liquid Filtration Applications<br />
Singh, Kaur, Ramakrishna, National<br />
University of Singapore, Singapore<br />
Wun Jern, Nanyang Technological<br />
University, Singapore<br />
Matsuura, University of Ottawa, Ottawa,<br />
Canada<br />
Perfluoropolymer Membranes for<br />
Gasoline Vapor Emissions<br />
Reductions<br />
Bowser, Majumdar, Compact<br />
Membrane System, Inc., Wilmington,<br />
Delaware, USA<br />
Universal Membranes for Solvent<br />
Resistant Nanofiltration (SRNF) and<br />
Pervaporation (PV) Based on<br />
Segmented Polymer Network (SPN)<br />
Li, Basko, Vankelecom, Centre for<br />
Surface Chemistry and Catalysis,<br />
Belgium<br />
Du Prez, Ghent University, Belgium<br />
Biomedical and<br />
Biotechnology II<br />
(Honolulu/Kahuku)<br />
Chair: Akon Higuchi, National<br />
Central University, Taiwan<br />
Co-Chair: Ranil Wickramasinghe,<br />
Colorado State University, USA<br />
Macroporous Membrane Adsorbers:<br />
Correlations Between Materials<br />
Structure, Separation Conditions<br />
and Performance in Bioseparations<br />
Ulbricht, Wang, Universität Duisburg-<br />
Essen, Germany<br />
Dismer, von Lieres, Hubbuch, Institut<br />
für Biotechnologie, Forschungszentrum,<br />
Jülich, Germany<br />
Integrated Membrane-Based Sample<br />
Prep Approach for Viral and Microbe<br />
Capture, Lysis, and Nucleic Acid<br />
Purification From Complex Samples<br />
Baggio, Souza, Murrell, Mullin, Avsola,<br />
Lindsay, Gagne, Martin, Millipore<br />
Corporation, Bedford, Massachusetts,<br />
USA<br />
Morphological and Funcational<br />
Features of Neurons Isolated from<br />
Hippocampus on Different<br />
Membrane Surfaces<br />
De Bartolo, Rende, Morelli, Salerno,<br />
Piscioneri, Gordano, Drioli, Institute on<br />
Membrane Technology National<br />
Research Council of Italy, ITM-C,<br />
Rende, Italy<br />
Giusi, Canonaco, Comparative<br />
Neuroanatomy Lab, Italy<br />
Membrane Emulsification<br />
Technology to Enhance Phase<br />
Transfer Biocatalyst Properties and<br />
Multiphase Membrane Reactor<br />
Performance<br />
Giorno, Mazzei, Bazzarelli, Drioli,<br />
Institute on Membrane Technology,<br />
ITM-CNR, Rende, Italy<br />
Piacentini, University of Calabria,<br />
Rende, Italy<br />
Anti-Biofouling Membrane Surface<br />
with Grafted Zwitterionic<br />
Polysulfobetaine for Improved Blood<br />
Compatibility<br />
Chang, R&D Center for Membrane<br />
Technology, Taiwan<br />
Supported Liquid Membranes with<br />
Strip Dispersion for the Recovery of<br />
Cephalexin<br />
Vilt, Ho, Ohio State University,<br />
Columbus, Ohio, USA<br />
Membrane Modeling III<br />
– Process Simulations<br />
(O’ahu/Waialua)<br />
Chair: Albert Kim, University of<br />
Hawaii at Manoa, USA<br />
Co-Chair: Matthias Wessling,<br />
University of Twente, The<br />
Netherlands<br />
Biopolymer Transport in<br />
Ultrafiltration: Role of Molecular<br />
Flexibility<br />
Zydney, Molek, Latulippe, The<br />
Pennsylvania State University,<br />
University Park, Pennsylvania, USA<br />
Effects of Long-Term Membrane<br />
Fouling on the Dynamic Operability<br />
of an Industrial Whey Ultrafiltration<br />
Process<br />
Yee, Wiley, UNESCO Centre for<br />
Membrane Science and Technology,<br />
Sydney, Australia<br />
Bao, School of Chem. Sciences and<br />
Eng., Sydney, Australia<br />
CFD Modeling for the Concentration<br />
of Soy Protein in an Ultrafiltration<br />
Hollow Fiber Membrane System<br />
Using Resistance-in-Series Model<br />
Rajabzadeh, Moresoli, University of<br />
Waterloo, Waterloo, Canada<br />
Marcos, Universite de Sherbrooke,<br />
Quebec, Canada<br />
Hydrodynamic CFD Simulation of<br />
Mixing in Full-Scale Membrane<br />
Bioreactors with Field Experimental<br />
Validation<br />
Wang, Brannock, Leslie, The University<br />
of New South Wales, Sydney, Australia<br />
Hybrid Modeling: An Alternative Way<br />
to Predict and Control the Behavior<br />
of Cross-Flow Membrane Filtration<br />
Processes<br />
Curcio, Calabro, Iorio, University of<br />
Calabria, Rende, Italy<br />
Artificial Neural Networks Analysis<br />
of RO Process Performance: RO<br />
Plant Performance and Organic<br />
Compound Passage<br />
Giralt, Rallo, Libotean, Giralt,<br />
Universitat Rovira i Virgili, Catalunya,<br />
Spain<br />
Cohen, University of California, Los<br />
Angeles, Los Angeles, California, USA<br />
Ultra- and<br />
Microfiltration I -<br />
Transport<br />
(Wai’anae)<br />
Chair: Tony Fane, University of New<br />
South Wales, Australia<br />
Co-Chair: Willem Kools, Millipore,<br />
Inc., USA<br />
Dynamic Microfiltration:<br />
Investigation of Critical Flux<br />
Measurement Methods and Improved<br />
Macromolecular Transmission<br />
Beier, Jonsson, CAPEC Technical<br />
University, Lyngby, Denmark<br />
An Integral Analysis of Crossflow<br />
Filtration<br />
Field, University of Oxford, Oxford,<br />
United Kingdom<br />
Wu, University of Durham, Durham,<br />
United Kingdom<br />
Flux Recovery During Infrasonic<br />
Frequency Backpulsing of Micro-<br />
and Ultrafiltration Membranes<br />
Fouled with Dextrin and Yeast<br />
McLachlan, Shugman, Sanderson,<br />
UNESCO Assoc Centre for<br />
Macromolecules, Stellenbosch, South<br />
Africa<br />
Electrostatic Contributions in Binary<br />
Protein Ultrafiltration<br />
Wang, Rodgers, University of California<br />
Riverside, Riverside, California<br />
Membrane Separation of High Added<br />
Value Milk Proteins<br />
Mier, Ibanez, Ortiz, University of<br />
Cantabria, Spain<br />
Tuning of the Cut-Off Curves By<br />
Dynamic Ultrafiltration<br />
Jonsson, Technical University of<br />
Denmark, Lyngby, Denmark
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