EXHIBITOR COMPANY PROFILES · of L'Aquila, Italy induced hydrolyzation method for preparation of...

Conference Program

Saturday, July 29th 2017

07:00-08:00 Workshop Registration Yosemite

Rooms Franciscan A Franciscan B Franciscan C

08:00-17:00 Membranes for Water Treatment and Reuse Workshop Lecturers: Dibakar Bhattacharyya, University of

Kentucky, USA Isabel C. Escobar, University of Kentucky, USA Ben Weaver, Nanostone Water Inc., USA

Measurement Methods for Membranes Workshop Lecturers: Uwe Beuscher, W.L. Gore & Associates, Inc.,

USA MaryLaura Lind, Arizona State University, USA Ryan Lively, Georgia Tech, USA

John Pellegrino, University of Colorado at Boulder, USA

Membranes for Gas Separations Workshop Lecturers: Benny Freeman, University of Texas at Austin,

USA Glenn Lipscomb, The University of Toledo, USA Tim Merkel, MTR Inc., USA

Sunday, July 30th 2017

07:00-08:00 Workshop Registration Yosemite

Rooms Franciscan A Franciscan B Franciscan C Imperial A

08:00-17:00 Emerging Membrane Materials and Manufacturing Methods Workshop Lecturers: Bruce Hinds, University of

Washington, USA Suzana Nunes, KAUST, Saudi

Arabia Klaus-Viktor Peinemann, KAUST, Saudi Arabia

Polymeric and Inorganic Membrane Materials and Membrane Formation Workshop Lecturers: Maria R. Coleman, The

University of Toledo, USA Henk Verweij, Ohio State University, USA

Membranes for Osmotic Processes Workshop Lecturers: Tzahi Cath, Colorado School of

Mines, USA Erik Desormeaux, Porifera, USA

Carl Lundin, CDM Smith, USA

Young Membranologist Workshop

17:00-19:30 Registration Yosemite

18:00-19:30 Welcome Reception | Grand Ballroom B

Monday, July 31st 2017

07:00-08:00 Registration Yosemite

08:00-08:45 Opening Ceremony | Grand Ballroom B

08:45-09:00 Break

Rooms Continental 1-3 Imperial A Grand Ballroom B Franciscan A&B Continental 7-9 Franciscan C&D Imperial B Grand Ballroom A

09:00-10:40 Alan S. Michaels Award Session

Desalination and Drinking Water 1

Gas Separation 1 Hybrid and Integrated Processes

Inorganic Membranes 1

Membrane Contactors

Responsive Membranes 1

Ultrathin Membranes 1

09:00-09:25 [O1.01] Membranes and

[O2.01] Impacts of

[O3.01] Processing natural

[O4.01] New hybrid process

[O5.01] Influence of water

[O6.01] Novel in-situ vapor

[O7.01] Stimuli-responsive

[O8.01] Synthesis of

desalination: The quest for lower energy A. Fane*1 ,2, R. Wang1, T. Chong1, G. Leslie2, 1Nanyang Technological University, Singapore,

2University of New South Wales, Australia

membrane material property improvements on the cost of full scale desalination plants K. Guerra*, C. Waechter, Bureau of Reclamation, USA

gas with membranes R.W. Baker, Membrane Technology and Research, Inc., USA

for membrane based gas separation F. Doghieri*1, F. Miccio2, M. Minelli1, G.C. Sarti1, E. Landi2, V. Medri2, 1University of Bologna, Italy,

2National Research Council, Italy

quality on virus removal by a novel N-doped TiO2-coated Al2O3 ceramic membrane I. Horovitz1, T. Luxbacher*2, D. Avisar1, E. Luster1, L. Lozzi3, H. Mamane1, 1Tel Aviv University, Israel,

2Anton Paar GmbH, Austria, 3University of L'Aquila, Italy

induced hydrolyzation method for preparation of fluorinated TiO2/PVDF thin-film composite hollow fiber membrane with enhanced flux and chemical resistance for CO2 absorption via gas-liquid membrane contactor Y. Lin*, Y. Xu, C.H. Loh, R. Wang, Nanyang Technological University, Singapore

polymer-based ultrafiltration membranes M. Ulbricht*, M. Gajda, X. Lin, Universität Duisburg-Essen, Germany

graphene oxide membranes and their behavior in water and isopropanol A. Aher*1, Y. Cai1, M. Majumder2, D. Bhattacharyya1, 1University of Kentucky, USA, 2Monash University, Austria

09:25-09:50 [O1.02] Water recovery from exhausted gas via membrane condenser E. Drioli*1 ,2, F. Macedonio1, 1ITM-CNR, Italy,

2University of Calabria, Italy,

3Hanyang University, Republic of Korea,

4King Abdulaziz University, Saudi Arabia

[O2.02] Controllable synthesis and characterization of ultrathin polyamide membrane on 10 nm scale X.X. Song*1, C.Y. Tang2, C.J. Gao1, 1Zhejiang University of Technology, China,

2The University of Hong Kong, Hong Kong

[O3.02] Customized hollow fiber membranes for efficient gas separation K.P. Lee*1, G. Baumgarten2, J. Balster1, M. Priske1, C. Maurer1, P. Wiesauer1, 1Evonik Fibres GmbH, Austria, 2Evonik Resource Efficiency GmbH, Germany

[O4.02] Hybrid membrane-adsorption plant for helium recovery from low concentration sources P. Schiffmann*, M. Bauer, C. Voss, T. Keller, Linde AG, Germany

[O5.02] Theoretical and experimental investigations on flux and retention of surface-modified ceramic membranes in organic solvent nanofiltration K. Lechner*, J-U. Repke, TU Berlin, Germany

[O6.02] Fluorine-contained thermally rearranged (TR) nanofibrous membrane for membrane distillation S.H. Park*1, J.H. Kim1, S.J. Moon1, E. Drioli1, Y.M. Lee1, 1Hanyang University, Republic of Korea, 2ITM-CNR, Italy

[O7.02] Smart membranes by interfacial polymerization of cyclodextrin-based supramolecular complexes T. Huang*, L.F. Villalobos, K-V. Peinemann, King Abdullah University of Science and Technology, Saudi Arabia

[O8.02] Carbon Nanotube Hollow Fiber Membranes R. McGinnis*1, K. Reimund2, B. Freeman2, L. Xia3, J. McCutcheon3, 1Angstrom Byakuren, USA, 2University of Texas, USA,

3University of Connecticut, USA

09:50-10:15 [O1.03] Nanostructured membranes with multifunctional properties D. Bhattacharyya*, S. Hernandez, S. Islam, R. Sarma, C.

[O2.03] Thin-film nanocomposite (TFN) membranes incorporated with super-hydrophilic metal-organic framework (MOF)

[O3.03] Gas transport in novel perfluoropolymer membranes K. Amo1, Z. He1, T. Merkel*1, D. Nguyen1, H. Zhang1,

[O4.03] Graphene oxide-PEEK hybrid membrane process for CO2 capture S. Li*1, N.B. Klinghoffer1, T.J. Pyrzynski1, H.S.

[O5.03] Metal hollow-fiber membrane electrodes for the removal of organic pollutants in wastewater F.M. Allioux*1, O.

[O6.03] Membrane contacting with siloxane fluids for building HVAC applications D. Ahn*, A.J. Greiner, J.F.

[O7.03] Graft polyrotaxanes based ion shuttling membranes X.L. Ge, Y.B. He, L. Wu*, T.W. Xu, University of Science and

[O8.03] Understanding the interlayer spacing and water properties in graphene oxide membranes S. Zheng*1, J.

Porter, D. Wan, University of Kentucky, USA

UiO-66: Towards enhancement of water flux and salt rejection D. Ma*, S.B. Peh, G. Han, S.B. Chen, National University of Singapore, Singapore

M. Fang2, Y. Okamoto2, 1MTR, USA, 2NYU, USA

Meyer1, Y. Ding2, H.N. Tien3, J. Chen3, F. Zhou3, M. Yu3, 1Gas Technology Institute, USA, 2Air Liquide Advanced Separations, USA,

3University of South Carolina, USA

David2, M. Etxeberria Benavides2, D. Alfredo Pacheco Tanaka2, C.J. Garvey3, P.D. Hodgson1, L. Kong1, L.F. Dumée1, 1Deakin University, Australia,

2Tecnalia Research and Innovation, Spain, 3Australian Nuclear Science and Technology Organisation, Australia

Thompson, A.N. Lichtor, J.S. Hrabal, The Dow Chemical Company, USA

Technology of China, China

Urban2, Q. Tu1, S. Li1, B. Mi1, 1University of California, USA,

2Lawrence Berkeley Laboratory, USA

10:15-10:40 [O1.04] Mass transfer in hollow fiber membrane modules G.G. Lipscomb, University of Toledo, USA

[O2.04] Polyamide nanofiltration membrane containing aminated TiO2

nanoparticles for separation of salts Y.B. Chen*1, S.Y. Wei1, X.Y. Hu2, X.J. Huang1, Y.F. Zhang1, 1Tianjin Polytechnic University, China,

2Tianjin Motimo Membrane Technology Co. Ltd., China

[O3.04] Separation of olefin-paraffin mixtures with customized amorphous fluoropolymer membranes S. Majumdar*, K. Loprete, K. Pennisi, D. Campos, S. Nemser, A. Feiring, N. Shangguan, Compact Membrane Systems, USA

[O4.04] An integrated membrane pilot system for direct potable reuse P. Ahmadiannamini*1, N.M. Furtaw1, J. Murphy2, C. Morrow3, A. Achilli2, E.A. Marchand3, A.E. Childress1, S.R. Hiibel1, 1University of Nevada, USA,

2Humboldt State University, USA,

3University of Southern California, USA

[O5.04] Water purification membranes with built-in defouling capability I.A. Mergos, Z. Yang, M.G. Chan, L.K. Weavers, H. Verweij*, The Ohio State University, USA

[O6.04] Ion-exchange membranes for the derivatization of protein crystals M. Polino*, L. Juknaité, A.L. Carvalho, C.A.M. Portugal, I.M. Coelhoso, M.J. Romão, J.G. Crespo, Universidade Nova de Lisboa, Portugal

[O7.04] Tuning permeability and selectivity of a heatable hollow fiber membrane with a thermo-responsive microgel coating T. Lohaus*1, P. de Wit2, M. Kather3, A. Pich3, N.E. Benes2, M. Wessling1

,3, 1RWTH Aachen University, Germany,

2University of Twente, The Netherlands, 3DWI – Leibniz Institute for interactive Materials, Germany

[O8.04] Positive/negative charge gated ion transport through amine functionalized graphene (AG) nanochannels X.X. Song*1, C.Y. Tang2, C.J. Gao1, 1Zhejiang University of Technology, China,

2The University of Hongkong, Hong Kong

10:40-11:10 Coffee Break Yosemite

Rooms Continental 1-3 Imperial A Grand Ballroom B Franciscan A&B Continental 7-9 Franciscan C&D Imperial B Grand Ballroom A

11:10-12:50 Alan S. Michaels Award Session

Desalination and Drinking Water 1

Gas Separation 1 Hybrid and Integrated Processes

Inorganic Membranes 1

Membrane Contactors



11:10-11:35 [O1.05] Optimizing the architecture of responsive ligands for protein binding and recovery S.R. Wickramasinghe*, X. Qian, University of Arkansas, USA

[O2.05] Development and characterization of novel CNC-based TFN membranes F. Asempour1, T. Matsuura1, D. Emadzadeh2, B. Kruczek*1, 1University of Ottawa, Canada, 2Islamic Azad University, Canada

[O3.05] Multicomponent permeation evaluation of reverse selective polymers for membrane based NGL recovery: A comparison between glassy and rubbery polymers J.T. Vaughn*, D.J. Harrigan, B.J. Sundell, J.A. Lawrence III, J. Yang, Aramco Services Company, USA

[O4.05] Evaluation of nanofiltration membranes for sustainable desalination of O&G produced water S. Riley*, D. Ahoor, T.Y. Cath, Colorado School of Mines, USA

[O5.05] Design and operation of a proof-of-concept module with 25 tubular oxygen transport membranes R. Kiebach*1, K. Agersted1, P.V. Hendriksen1, M. Søgaard1, R. Kriegel2, L. Kiesel2, U. Pippardt2, 1Technical University of Denmark, Denmark,

2Fraunhofer Institute for Ceramic Technologies and Systems IKTS, Germany

[O6.05] Carbon dioxide capture in anaesthetic circuits using membrane contactors and biocompatible ionic liquids C.F. Martins*1, L.A. Neves1, C.A.M. Afonso2, I.M. Coelhoso1, J.G. Crespo1, 1LAQV, Portugal,

2iMed.ULisboa, Portugal

[O7.05] Highly selective artificial K+ channels within bilayer membranes Y-M. Legrand*, A. Gilles, Z. Sun, I. Kocsis, M. Barboiu, Institut Europeen des Membranes CNRS/UM/ENSCM Montpellier, France

[O8.05] Functionalization of graphene oxide with designed polyelectrolyte multilayers architecture Y. Zhao*1, K.N. Tang1, J.F. Pan1, B.V. Bruggen2, C.J. Gao1, J.N. Shen1, 1Zhejiang University of Technology, China,

2KU Leuven, Belgium

11:35-12:00 [O1.06] Functionalization of silver nanoparticles on membranes and their influence on biofouling C. Sprick1, S. Chede1, V. Craver2, T. Harris3, M. Abu-Dalo4, H. Abu Qdai4, I.C. Escobar*1, 1University of Kentucky, USA,

2University of Rhode Island, USA, 3Georgia Institute of Technology, USA,

4Jordan University of Science and Technology, Jordan

[O2.06] Desalination of brackish groundwater using high flux layer by layer assembly membranes: Process performance and membrane fouling mechanisms M.M. Motsa*1, B.B. Mamba1, A.R.D. Verliefde2, 1University of South Africa, South Africa, 2Ghent University, Belgium

[O3.06] Defect-free PIM-1 hollow fiber membranes M.L. Jue*, V. Breedveld, R.P. Lively, Georgia Institute of Technology, USA

[O4.06] Integration of high-temperature nanofiltration and membrane distillation for augmenting water resources at geothermal power plants J. Vanneste*1, J.A. Bush1, E. Gustafson1, A. Sertaç2, C. Turchi2, T.Y. Cath1, 1Colorado School of Mines, USA, 2National Renewable Energy Lab, USA

[O5.06] One-step thermal processing of perovskite hollow fibers with precisely controlled cation stoichiometry J.W. Zhu, G.R. Zhang*, Z.K. Liu, W.Q. Jin, Nanjing Tech University, China

[O6.06] In-situ product recovery using membrane-assisted reactive extraction for bio-based 3-hydroxypropionic acid production F. Chemarin*1 ,2, M. Moussa2, F. Allais1 ,2, C. Trelea2, V. Athes-Dutour2, 1AgroParisTech, France, 2GMPA AgroParisTech-INRA, France

[O7.06] Controllable multicompartmental capsules with distinct cores and membranes for synergistic release F. He*, W. Wang, M. Li, R. Xie, X.J. Ju, Z. Liu, L.Y. Chu, Sichuan University, China

[O8.06] Month-long desalination of cooling tower water with graphene oxide/polymer membranes L. Biedermann*, M. Hibbs, M. Hightower, C. Mowry, V. Pinon, C. Stewart, M.L. Gucik, K. Zavadil, Sandia National Laboratories, USA

12:00-12:25 [O1.07] Novel membranes,

[O2.07] Novel charge

[O3.07] Enabling

[O4.07] Continuous

[O5.07] First fluoride-free

[O6.07] Polysulfone porous

[O7.07] Localized heat

[O8.07] 2D boron nitride

membrane processes and membrane devices K.K. Sirkar, New Jersey Institute of Technology, USA

mosaic membranes and operational modes G. Vaseghi*, G. Lipscomb, University of Toledo, USA

purification of highly-aggressive natural gas by carbon molecular sieve hollow fiber membranes C. Zhang*, W. Koros, Georgia Institute of Technology, USA

production of bioethanol from sugarcane bagasse and downstream purification using membrane integrated bioreactor K. Saha1, J. Sikder1, S. Chakraborty*2, S. Curcio2, E. Drioli3, 1National Institute of Technology Durgapur, India,

2University of Calabria, Italy,

3Hanyang University, Republic of Korea

synthesis of CHA-type aluminophosphate crystals and membranes M. Seshimo*, H. Fukuda, M. Matsukata, Waseda University, Japan

hollow fiber membranes for ethylene-ethane separation in gas-liquid membrane contactor A. Ovcharova1, V. Vasilevsky1, I. Borisov1, S. Bazhenov1, A. Volkov1, A. Bildyukevich2, V. Volkov*1, 1A.V.Topchiev Institute of Petrochemical Synthesis, Russia,

2Institute of Physical Organic Chemistry, Belarus

generation from magnetically responsive membranes A. Vu*, Q. Yang, S.R. Wickramasinghe, X. Qian, University of Arkansas, USA

membranes for water separations Y.T. Chua, J. Ji, D. Mattia*, University of Bath, UK

12:25-12:50 [O2.08] Pervaporation desalination performance of composite PVA/PVDF membrane with nanoscale fillers incorporated in the PVA matrix for brine treatment: Long-term stability, productivity, and fouling performance L. Li*1, J. Hou1, Y. Ye1, J. Mansouri1 ,2, W. Liang3, D. D’Alessandroa3, V. Chen1, 1University of New South Wales, Australia,

2Cooperative Research Centre for

[O3.08] Preparation of PEBA2533/NaY hybrid membranes for separation of ethylene/propylene mixture X.D. Wang*, X. Zhang, M.Q. Liu, X.S. Feng, W. Huang, Taiyuan University of Technology, China

[O4.08] Recycling of biological secondary effluent in the petro-chemical industry using hybrid of submerged microfiltration and reverse osmosis C.H. Ni1, Y.C. Lin2, C.T. Lin*3, 1Eco-digital Technology Inc., Taiwan,

2EigenGreen International Inc., Taiwan, 3Feng Chia University, Taiwan

[O5.08] Catalytic coatings for stable group V metallic hydrogen permeable membranes at high temperatuers T.F. Fuerst*, S.T.B. Lundin, J.D. Way, C.A. Wolden, Colorado School of Mines, USA

[O6.08] Preparation of drug-loaded PLGA-PEG nanoparticles by membrane-assisted nanoprecipitation A. Albisa*1 ,2, E. Piacentini3, V. Sebastian1 ,4, M. Arruebo1 ,4, J. Santamaria1 ,4, L. Giorno3, 1University of Zaragoza, Spain,

2University of Calabria (DIATIC-UNICAL), Italy,

3Institute on Membrane Technology, National Research Council, Italy,

4Nanoscience Institute of Aragon (INA), Spain

[O7.08] Smart gating membranes with in situ assembled responsive nanogels as functional gates L.Y. Chu*, F. Luo, R. Xie, Z. Liu, X.J. Ju, W. Wang, Sichuan University, China

[O8.08] Highly stable MoS2 lamellar membrane for selective molecular transport and HER M.M. Deng*, H.G. Park, ETH Zurich, Switzerland

Polymers, Australia,

3The University of Sydney, Australia

12:50-14:00 Lunch

Rooms Continental 1-3 Imperial A Grand Ballroom B Continental 7-9 Franciscan A&B Franciscan C&D Imperial B Grand Ballroom A

14:00-15:40 Bio-Refineries Desalination and Drinking Water 2

Gas Separation 2 Inorganic Membranes 2

Micro/ultrafiltration NAMS Awards Session



14:00-14:25 [O1.08] Changing an industry with membrane technology – Converting pulp mills to biorefineries F. Lipnizki*, A-S. Jönsson, Lund University, Sweden

[O2.09] Silica fouling on dense membranes S.R. Gray*1, M. Xie1, P. Sanciolo1, N. Milne2, E. Ostarcevic3, 1Victoria University, Australia, 2Deakin University, Australia,

3Integrated Elements, Australia

[O3.09] Towards molecular sieves composed of Polymers of Intrinsic Microporosity (PIMs) N.B. McKeown*, C.G. Bezzu, M. Carta, B. Comesaña-Gándara, R. Kirk, I. Rose, R. Williams, R. Malpass-Evans, University of Edinburgh, UK

[O4.09] Hollow fiber supported zeolite membranes: From laboratory to industrial application X-H. Gu, Nanjing Tech University, China

[O5.09] Advances in Membrane Filtration: Ceramic Membranes, Polymeric Membranes and Intelligent Controls E.M.V. Hoek, Water Planet, Inc., USA

[O6.09] Osmotic ballasts enhance efficiency in closed-loop membrane systems for energy conversion and storage R.S. Kingsbury*, O. Coronell, University of North Carolina at Chapel Hill, USA

[O7.09] Magneto-responsive membranes from self-assembly of block copolymers and iron oxide nanoparticles D. Quemener1, L. Upadhyaya1, M. Semsarilar1, A. Deratani1, R. Fernandez-Pacheco2, G. Martinez2 ,3, R. Mallada3, I. Coelhoso4, C. Portugal4, J. Crespo*4, 1Universite de Montpellier, France, 2Networking Research Centre on Bioengineering, Biomaterials and Nanomedicine, Spain, 3Aragon Nanoscience Institute, Spain,

4Universidade Nova de Lisboa, Portugal

[O8.09] Nanoporous graphene membranes for organic solvent nanofiltration S. Zhang*1 ,2, P. Kidambi1, L. Wang1, D. Jang1, R. Karnik1, 1Massachusetts Institute of Technology, USA,

2National University of Singapore, Singapore

14:25-14:50 [O1.09] Ultrafiltration and nanofiltration of E-stage bleaching plant effluents of a

[O2.10] Development and application of a new method for assessing bacterial

[O3.10] Aligned channels in mixed matrix membranes for CO2-selective

[O4.10] Inorganic membrane research and development at ExxonMobil - the

[O5.10] Tight ultrafiltration membranes of mesoporous phenolic resin filled

[O6.10] In-situ regeneration of graphene oxide layers for ultimate membrane fouling

[O7.10] Optimising the in-filtration tunability of electrically responsive

[O8.10] The benefits of being thin: Ultrathin silicon membranes 10 years later

sulphite pulp mill T. São Pedro1 ,2, F. Lipnizki1, M.N. de Pinho*2, A-S. Jönsson1, 1Lund University, Sweden,

2University of Lisbon, Portugal

growth in seawater reverse osmosis A. Abushaban1, S.G. Salinas-Rodriguez*1, S. Mondal2, S. Goueli2, J.C. Schippers1, M.D. Kennedy1

,3, 1UNESCO-IHE Institute for Water Education, The Netherlands,

2Promega Corporation, USA,

3Delft University of Technology, The Netherlands

transport M.D. Guiver*, Z. Qiao, S. Zhao, Z. Wang, Tianjin University, China

last 25 years to today B.A. McCool*, H.W. Deckman, E.W. Corcoran, R.D. Partridge, ExxonMobil Research and Engineering, USA

in macroporous substrates Q.Q. Lan*, N.N. Yan, Y. Wang, Nanjing Tech University, China

control in reverse osmosis C. Finnerty*, B. Mi, University of California - Berkeley, USA

polyaniline membranes: Effect of dopant molecular weight and doping temperature S. Shahid, A.K. Holda, D.A. Patterson, I. Amura*, University of Bath, UK

J.L. McGrath*1, J.A. Roussie2, T.R. Gaborski3, 1University of Rochester, USA,

2SiMPore Inc, USA,

3Rochester Institute of Technology, USA

14:50-15:15 [O1.10] Membrane bioreactor for the recovery of glucose syrup in situ from agro-industrial waste K. Alejandra Bueno Zabala, S. Chakraborty, C. Giovanna Lopresto, V. Calabro, S. Curcio*, University of Calabria, Italy

[O2.11] High recovery RO treatment of brackish groundwater for nitrate removal and salinity reduction J.Y. Choi*1, T. Lee1, A. Rahardianto1, M. Glickfeld2, Y. Cohen1, 1Water Technology Research Center, University of California, USA,

2University of California, USA

[O3.11] Thermal stability of bis(triethoxysilyl)ethane-derived membranes and their gas permeation properties Y. Xin*, H. Nagasawa, M. Kanezashi, T. Tsuru, Hiroshima University, Japan

[O4.11] Oriented and high-flux AlPO-18 membrane for CO2 separation B. Wang*, R. Zhou, Nanjing Tech. University, China

[O5.11] Feasibility of ultrafiltration for continuous L/L catalysis in w/o Pickering emulsions T. Skale1, S. Stephan1, D. Stehl2, L. Hohl2, M. Kraume2, R. von Klitzing2, A. Drews*1, 1University of Applied Sciences Berlin, Germany,

2Technische Universität Berlin, Germany

[O6.11] Patterning various commercial nanofiltration and reverse osmosis membranes S.T. Weinman*, E. Fierce, S.M. Husson, Clemson University, USA

[O7.11] Development of a new pH and temperature responsive poly(N,N-(diethylamino)ethyl methacrylate) and pluronic F127 based thin film composite nanofiltration membrane C. Bar*1, M. Uz2, N. Caglar1, S.K. Mallapragada2, S.A. Altinkaya1, 1Izmir Institute of Technology, Turkey,

2Iowa State University, USA

[O8.11] Growth of ultrathin and continuous metal-organic framework membranes for hydrogen separation S.X. Zhang*1 ,2, F. Zhang1, J. Jin1, 1Chinese Academy of Sciences, China,

2University of Science and Technology of China, China

15:15-15:40 [O1.11] High performance membrane reactor for the production of sugars and fuels from lignocellulosic

[O2.12] Micropollutant removal mechanisms in a composite membrane:

[O3.12] ZIF-8 SURMOF membranes for application in alkane/alkene gas separation

[O4.12] Carbon integrated zeolite membranes - A defect closing approach with carbon

[O5.12] Preparation of PES/SPSf blend ultrafiltration membranes with high preformance

[O6.12] A comprehensive approach for modeling mixture permeation in zeolite membranes

[O7.12] Frequency dependent electrochemical stability of self heating carbon

[O8.12] Polymer nanofilms with engineered microporosity by interfacial polymerisation for

biomass B. Qi*1 ,2, A. Vu1, S.R. Wickramasinghe1, X. Qian1, 1University of Arkansas, USA,

2Institute of Process Engineering, China

Permeate side polymer based activated carbon adsorption A.I. Schaefer*, F. Engel, M. Tagliavini, T. Scherer, P. Weidler, Karlsruhe Institute of Technology (KIT), Germany

E.P. Valadez Sánchez*, H. Gliemann, K. Haas-Santo, E. Hansjosten, J. Wohlgemuth, C. Wöll, R. Dittmeyer, Karlsruher Institut für Technologie, Germany

D. Lüdke*1, H. Richter2, W. Schwieger1, 1Friedrich-Alexander-University Erlangen-Nürnberg, Germany,

2Fraunhofer Institute for Ceramic Technologies and Systems IKTS, Germany

via H2O induced gelation phase separation J.X. LI*, L. Zhang, Z.Y. Cui, M.Y. Hu, Tianjin Polytechnic University, China

applied to bioethanol enrichment N. Mittal*, P. Bai, J.I. Siepmann, P. Daoutidis, M. Tsapatsis, University of Minnesota, USA

nanotube membranes: Implications for membrane distillation D. Jassby*1, A. Dudchenko2, 1UC Riverside, USA,

2Carnegie Mellon University, USA

molecular separations in organic solvent T.Y. Liu*, Q.L. Song, M.F. Jimenez-Solomon, M. Munoz-Ibanez, K.E. Jelfs, A.G. Livingston, Imperial College London, UK


Rooms Continental 1-3 Imperial A Grand Ballroom B Continental 7-9 Franciscan A&B Franciscan C&D Imperial B Grand Ballroom A

16:10-17:50 Bio-Refineries Desalination and Drinking Water 2

Gas Separation 2 Inorganic Membranes 2

Micro/ultrafiltration NAMS Awards Session



16:10-16:35

[O1.12] Harvesting of Dunaliella salina by membrane filtration monitored by 2D Fluorescence J. Monte1 ,2, M. Sá1, C.F. Galinha1, P. Nascimento3, J. Galante3, F. Semião3, L. Costa3, H. Hoekstra4, C. Brazinha*1, J.G. Crespo1, 1Universidade Nova de Lisboa, Portugal, 2Instituto de Biologia Experimental e Tecnológica, Portugal, 3Algae for future, Portugal,

4Evodos, The Netherlands

[O2.13] Surface-modified omniphobic membranes for treatment of challenging waters by membrane distillation L.D. Tijing1, Y.C. Woo1, M. Yao1, J.S. Choi1 ,2, H.K. Shon*1, 1University of Technology Sydney, Australia,

2Korea Institute of Civil Engineering and Building Technology, Republic of Korea

[O3.13] Unprecedented gas transport properties of carboxyl and dihydroxyl-functionalized PIM-polyimide blends N. Alaslai*, X. Ma, Y. Wang, I. Pinnau, King Abdullah University of Science and Technology (KAUST), Saudi Arabia

[O4.13] Effect of substrate curvature on gas permeability of alumina hollow fiber supported MFI zeolite membranes C.H. Chen1 ,2, K.L. Tung2, J.Y.S. Lin*1, 1Arizona State University, USA, 2National Taiwan University, Taiwan

[O5.13] A high-flux defect-free PVDF ultrafiltration membrane for efficient water production B. Liu, Sichuan University, China

[O6.13] Transport and mechanical properties of mixed-matrix membranes containing M2(dobdc) nanoparticles Z.P. Smith*1 ,2, J.E. Bachman2, T. Li3, B. Gludovatz4, V.A. Kusuma5, T. Xu2, D.P. Hopkinson5, R.O. Ritchie2 ,4, J.R. Long2

,4, 1Massachusetts Institute of Technology, USA,

2University of California, USA,

3ShanghaiTech University, China,

4Lawrence Berkeley National Laboratory, USA, 5National Energy Technology Laboratory, USA

[O7.13] Synthesis scale up of high performance RO and uf membranes with responsive hydrophilic brush layers S. Kim, J. Zhang*, A. Rahardianto, Y. Cohen, University of California, USA

[O8.13] Preparation and nanofiltration performance of niobate nanosheet membranes K. Nakagawa*, H. Yamashita, D. Saeki, T. Yoshioka, T. Shintani, E. Kamio, H. Matsuyama, Kobe University, Japan

16:35-17:00 [O1.13] Air-gap membrane distillation for the separation of bioethanol and glycerol from fermentation broths P. Loulergue*1, B. Balannec2, L. Fouchard-Le Graêt1, W. Sayed2 ,4, H. Djelal1, A. Amrane1, A. Szymczyk1, 1Université de Rennes 1, France, 2Université de Rennes 1, Université Bretagne-Loire, France, 3Ecole des Métiers de l’Environnement, France, 4Université Libanaise, Lebanon

[O2.14] Rubidium extraction from seawater brine by an integrated membrane distillation-selective sorption system G. Naidu*1, S. Jeong1, M.A.H. Johir1, A.G. Fane2, S. Vigneswaran1, 1University of Technology Sydney, Australia,

2Nanyang Technological University, Singapore

[O3.14] Extremely high adsorption controlled CO2 separation efficiency of metal-organic framework membranes Z. Rui1 ,2, J. James*1, J.Y.S. Lin1, 1Arizona State University, USA, 2Sun Yat-Sen University, China

[O4.14] Reverse selective microporous Metal Organic Framework (MOFs) membranes for CO2/H2 separation V. Chernikova*, O. Shekhah, Y. Belmabkhout, M. Mohideen, M. Eddaoudi, King Abdullah University of Science and Technology (KAUST), Saudi Arabia

[O5.14] Development of functional membranes for use in nuclear forensics applications S.M. Husson*, C.E. Duval, C. Ruff, A. Darge, J.C. Foster, T.A. DeVol, Clemson University, USA

[O6.14] Limitations of the structural parameter for understanding forward osmosis M.R. Esfahani, E.M. Languri, L.H. Arias Chavez*, Tennessee Technological University, USA

[O7.14] Smart nanogel-containing membranes in microchip for temperature- and ethanol-responsive permeability regulation W. Wang*, X.Y. Zou, Y.M. Sun, R. Xie, X.J. Ju, Z. Liu, L.Y. Chu, Sichuan University, China

[O8.14] Highly permeable ultrathin Teflon AF 2400 membranes for dissolved gas analysis S. Liu*1, C. Chen1 ,2, C. Chen3, J. Lin1, 1Arizona State University, USA,

2National Taiwan University, Taiwan,

3Global Energy Interconnection Research Institute, China

17:00-17:25 [O1.14] Purification of succinic acid from fermentation broth using nanofiltration P. Kunnonkwao2, K. Jantama2, S. Kanchanatawee2, S. Galier1, H. Roux-de Balmann*1, 1University of Toulouse, France, 2Suranaree University of Technology, Thailand

[O2.15] Selective removal of multivalent cations in the desalination of polymer-flooding produced water via electrodialysis P.A. Sosa Fernandez*1 ,2, J. Post1, H. Bruning2, F. Leermakers2, H. Rijnaarts2, 1Wetsus, The Netherlands,

2Wageningen University, The Netherlands

[O3.15] Formation of ultrathin, continuous ZIF-8 membranes on PDA modified polymeric supports J. Hou*1, P. Sutrisna1, H. Yang1 ,2, V. Chen1, 1University of New South Wales, Australia, 2Zhejiang University, China

[O4.15] Scalable metal-organic framework hollow fiber membranes via direct synthesis from inorganic hollow fiber precursors D.Y.K. Koh*, M.L.J. Jue, R.P.L. Lively, Georgia Institute of Technology, USA

[O5.15] Towards a holistic understanding of particle retention mechanisms in size exclusion membrane filtration processes: Influence of membrane-particle interactions, filtration process parameters, particle size distribution and particle stiffness A. Helling*1 ,2, V. Thom1, D. Melzner1, M. Polakovic2, 1Sartorius Stedim Biotech

[O6.15] A novel osmotic-resistance filtration model for understanding of mass transport, fouling mechanisms and membrane design in osmosis-related membrane processes Q. She*1 ,2, R. Wang1, A.G. Fane1, C.Y. Tang3, 1Nanyang Technological University, Singapore, 2The University of Sydney, Australia, 3The

[O7.15] Investigation of the liquid film stability in slippery liquid infused membranes (SLIM) H. Bazyar*1 ,2, S. Porada1 ,2, R.G.H. Lammertink1, 1University of Twente, The Netherlands,

2Wetsus, The Netherlands

[O8.15] Quantitative enhancement of the properties of TR polymers A. Tena1, D. Meis1, M. de la Viuda1, S. Rangou1, S. Shishatskiy1, V. Filiz1, V. Abetz*1

,2, 1Helmholtz-Zentrum Geesthacht, Germany,

2University of Hamburg, Germany

GmbH, Germany,

2Slovak University of Technology, Slovakia

University of Hong Kong, Hong Kong

17:25-17:50 [O1.15] Can membranes be a purification tool for the valorisation of syngas produced by biomass gasification? E. Berger*, G. Mauviel, E. Favre, CNRS Université de Lorraine, France

[O2.16] Electrochemical removal of hexavalent chromium using electrically conducting carbon nanotube/polymer composite ultrafiltration membranes D. Jassby*, W. Duan, UC Riverside, USA

[O3.16] CO2-philic polymer/graphene oxide composite membranes with high gas separation performance J.E. Shin*, S.K. Lee, H.B. Park, Hanyang University, Republic of Korea

[O4.16] Ceramic NF-membrane technology for the cleaning of water from oil sand extraction I. Voigt*1, P. Puhlfürß1, H. Richter1, M. Weyd1, A. Junghans2, C. Günther3, V. Prehn3, 1Fraunhofer-Institute for Ceramic Technologies and Systems IKTS, Germany, 2Andreas Junghans-Anlagenbau und Edelstahlbearbeitung GmbH & Co. KG, Germany, 3Inopor GmbH, Germany

[O5.16] Structure, rheological behavior and in-situlocal flow field of cellulose nanocrystals dispersions concentrated nearmembrane surface during cross-flow ultrafiltration, probed by saxs andfluorescent piv C. Rey*1 ,2, N. Hengl1, S. Baup1, F. Pignon1, A. Dufresne2, H. Djeridi3, 1Laboratoire Rhéologie et Procédés, France,

2Laboratoire Génie des Procédés Papetiers, France,

3Laboratoire des Ecoulements Géophysiques et Industriels, France

[O6.16] Electro-hydrodynamic spray: An additive approach for making tunable polyamide films with controllable thickness and roughness for TFC membranes for desalination M. Chowdhury*, J. McCutcheon, University of Connecticut, USA

[O7.16] Protein adsorption and desorption behavior of pH-responsive membrane based on ethylene vinyl alcohol copolymer H. Ye1 ,2, Y. Zhang*1

,2, L. Huang1, Z. Xu1, L. Zhao1 ,2, Q. Xin2 ,1, H. Li1, 1Tianjin Polytechnic University, China,

2State Key Lab of Separation Membrane & Membrane Process, China

[O8.16] Fabrication of multifunctional ultra-thin hydrogel membrane selective layer I. Sadeghi*, H. Yi, A. Asatekin, Tufts University, USA

17:50-19:00 Break

19:00-21:00 Poster Session 1 Continental 4-6

Tuesday, August 1st 2017

Rooms Grand Ballroom A Franciscan A&B Continental 7-9 Continental 1-3 Grand Ballroom B Imperial A Imperial B

08:30-10:10 Electro-chemical Membrane Processes 1

Emerging Membrane Science and Technology

Fouling 1 Membrane Characterization 1

Mixed Matrix Membranes 1

Nanofiltration 1 Surface Modification and Patterning 1

08:30-08:55 [O1.16] [O2.17] [O3.17] [O4.17] [O5.17] [O6.17] [O7.17]

The rational design for a proton conducting membrane with low dependency on humidity T. Ogawa*1, G.M. Anilkumar2, T. Tamaki1, H. Ohashi1

,3, T. Yamaguchi1

,3, 1Tokyo Institute of Technology, Japan, 2Research & Development Center, Noritake, Co., Ltd.,, Japan,

3Kanagawa Academy of Science and Technology, Japan

Membranes for separation of complex refinery streams D.A. Bhandari*, R. Garcia, Y. Joshi, K. Lee, B. McCool, ExxonMobil Research and Engineering, USA

The critical zeta potential: How pH value and salt concentration impact membrane fouling D. Breite*, M. Went, A. Prager, A. Schulze, Leibniz Institute of Surface Modification, Germany

Partitioning of inorganic solutes in active layers of RO membranes and the effect of feed water pH on solute partition coefficients J. Wang*, R. Kingsbury, L. Perry, O. Coronell, University of North Carolina at Chapel Hill, USA

Mixed matrix membranes based on polymers of intrinsic microporosity (PIMs) P.M. Budd, University of Manchester, UK

Towards a generalized heuristic for membrane selection in organic solvent nanofiltration Y.M. Thiermeyer*1

,2, S. Blumenschein1, 1Merck KGaA, Germany,

2TU Dortmund University, Germany

Modification of polycarbonate membranes with EDC/NHS coupling: Impact on rejection of polystyrene particles A. Delavari1, D. Breite2, R.E. Baltus*1, A. Schulze2, 1Clarkson University, USA,

2Leibniz Institute of Surface Modification, Germany

08:55-09:20 [O1.17] Pore-filling Nafion membranes: Formation and mechanism of enhanced selectivity and conductivity R. Gloukhovski, Y. Tsur, V. Freger*, Technion - Istrael Institute of Technology, Israel

[O2.18] Interfacial polymerisation of container-shaped molecules: Cyclodextrin films with fast solvent transport and selective permeation of molecules L.F. Villalobos*, T. Huang, K-V. Peinemann, KAUST, Saudi Arabia

[O3.18] Kinetics and real time detection of silica scaling on RO membranes Y. Cohen*, J. Thompson, A. Rahardianto, UCLA, USA

[O4.18] Understanding the effect of different co-solvents and low molecular weight additives on performance of electrically tuneable polyaniline membranes S. Shahid, A.K. Holda, J. Shen*, D.A. Patterson, University of Bath, UK

[O5.18] Can graphene-based nanofillers reduce the ageing of high free volume glassy polymers? L. Olivieri1 ,2, S. Meneguzzo1, M.G. De Angelis*1 ,2, S. Ligi3, A. Saccani1, L. Giorgini1, 1University of Bologna, Italy,

2INSTM, Italy,

3GNext SAS, Italy

[O6.18] Modelling and prediction of surfactants removal from organic solvents by organic solvent nanofiltration D. Zedel1 ,2, M. Kraume2, A. Drews*1, 1HTW Berlin, Germany, 2TU Berlin, Germany

[O7.18] Tailor-made star-shaped polymers for surface functionalization of porous membranes toward switchable permeability and specific adsorber properties J. Brückerhoff*, M. Ulbricht, University of Duisburg-Essen, Germany

09:20-09:45 [O1.18] Perfluorinated ionomer nanodispersion for polymer electrolyte reinforced membranes and their applications to

[O2.19] Chemistry in a spinneret - composite hollow fiber membranes in a single step process H. Roth*1 ,2, T. Luelf1

[O3.19] Colloidal silica fouling mechanism in direct contact membrane distillation S. Jeong*1 ,3, Y. Jang2, J.G. Lee1, L.

[O4.19] Evaluation of liquid transport properties of hydrophobic polymers with intrinsic microporosity by electrical resistance

[O5.19] Tailoring compatibility to deplasticize ageless, ultrapermeable blends for molecular sieving C.H. Lau1 ,2, K.

[O6.19] Experimental and simulation study of organic solvent nanofiltration applied to fine chemistry A. Lejeune, G.

[O7.19] Mussel-inspired superoleophobic surface modification for robust membrane distillation performance

generate renewable energies and valued chemicals S.Y. Pyo1, J.P. Hwang1, J. Ahn1, Y.J. Lim1, I.K. Park1, J.J. Park1 ,2, Y.M. Goo2, J.H. Lee3, Y.H. Cho4, C.H. Lee*1, 1Dankook University, Republic of Korea, 2Korea Automotive Technology Institute, Republic of Korea, 3Korean Electric Power Research Institute, Republic of Korea,

4Kangwon National University, Republic of Korea

,2, A. Koppelmann1 ,2, M. Abel1 ,2, M. Wessling1 ,2, 1DWI – Leibniz Institute for Interactive Materials, Germany,

2RWTH Aachen University, Chemical Process Engineering, Germany

Fortunato1, S. Lee2, A. Jang3, T. Leiknes1, N. Ghaffour1, 1King Abdullah University of Science and Technology (KAUST), Saudi Arabia,

2Kookmin University, Republic of Korea,

3Sungkyunkwan University, Republic of Korea

measurements A. Szymczyk*1, A. Yushkin2, V. Vasilevsky2, V. Khotimsky2, A. Volkov2, 1Université de Rennes 1, France,

2A.V.Topchiev Institute of Petrochemical Synthesis, Russia

Konstas1, C.M. Doherty1, M. Carta1, E. Lasseuguette1, M-C. Ferrari*1, N.B. McKeown1, M.R. Hill1, 1CSIRO, Australia, 2University of Edinburgh, UK

Nasser, T. Renouard, M. Rabiller-Baudry*, Université de Rennes 1, France

N.G.P. Chew*1 ,2, S. Zhao2, C. Malde3, R. Wang1 ,2, 1Nanyang Technological University, Singapore,

2Singapore Membrane Technology Centre, Singapore, 3Johnson Matthey Technology Centre, UK

09:45-10:10 [O1.19] Fuel cell performance of membrane electrode assembly based on innovative polymeric ionic liquids M. Díaz, A. Ortiz*, I. Ortiz, University of Cantabria, Spain

[O2.20] Novel hollow fiber air filters for ultrafine particles removal in PM2.5 with outstanding capability for repetitive usage M-Q. Li*, Y-N. Feng, K.Y. Wang, W.F. Yong, E. Yu, T-S. Chung, National University of Singapore, Singapore

[O3.20] Prediction of RO flux decline caused by natural organic matters T. Kawakatsu*, K. Hayakawa, A. Fujii, Kurita Water Industries Ltd., Japan

[O4.20] Creating 3D models of polyamide thin films: New progress in TEM tomography for membrane characterization F. Pacheco*, I. Pinnau, King Abdullah University of Science and Technology, Saudi Arabia

[O5.20] Graphene quantum dot modification of cellulose membrane pores A. Colburn*, N. Wanninayakke, D.Y. Kim, D. Bhattacharyya, University of Kentucky, USA

[O6.20] Layer-by-layer ceramic membranes for organic solvent nanofiltration A. Böcking*1, J. Kamp1, C. Lauscher1, C. van Foeken2, M. Wessling1 ,3, 1RWTH Aachen University, Germany, 2RWB Water Services B.V., The Netherlands,

3DWI – Leibniz-Institute for Interactive Materials, Germany

[O7.20] Surface engineering of polymeric membranes: What is the impact of pre-treatment on sequential vapor phase nanoparticle deposition? A. DeStefano*, J. Yin, T. Kraus, B. Parkinson, D. Li, University of Wyoming, USA


Rooms Grand Ballroom A Franciscan A&B Continental 7-9 Continental 1-3 Grand Ballroom B Imperial A Imperial B

10:40-12:20 Electro-chemical Membrane

Emerging Membrane Science

Fouling 1 Membrane Characterization 1


Nanofiltration 1 Surface Modification and

Processes 1 and Technology Patterning 1

10:40-11:05 [O1.20] Anion exchange membranes for fuel cells: New developments Z.J. Yang, X.L. Ge, Y.B. He, L. Wu, T.W. Xu*, University of Science and Technology of China, China

[O2.21] Multifunctional Nanofiltration membranes through polyelectrolyte multilayer deposition S. Ilyas, J. de Grooth, D. Reurink, W.M. de Vos*, University of Twente, The Netherlands

[O3.21] Influence of patterning and chemistry on membrane fouling by colloidal nanoparticles A. Malakian*, L. Boateng, S. Sarupria, D. Ladner, S. Husson, Clemson University, USA

[O4.21] GISAXS time-resolved investigation of isoporous block copolymer membrane formation V. Musteata*, B. Sutisna, G. Polymeropoulos, K.V. Peinemann, N. Hadjichristidis, S.P. Nunes, King Abdullah University of Science and Technology, Saudi Arabia

[O5.21] Shear-aligned graphene oxide/pebax composite hollow fiber membranes via facile dip-coating J. Hou*1, Y. Zhang1 ,2, P. Sutrisna1, V. Chen1, 1University of New South Wales, Australia,

2Zhengzhou University, China

[O6.21] Directly grafted copolymer on γ-alumina membranes for organic solvent nanofiltration: Effects of copolymer structure M. Amirilargani*, L.C.P.M. de Smet, E.J.R. Sudhölter, Delft University of Technology, The Netherlands

[O7.21] A highly selective and antimicrobial membrane coating for thin-film composite membrane modification: Mechanism and implications Z. Yang*1, Y.C. Wu2, J.Q. wang1, B. Cao2, C.Y. Tang1, 1The University of Hong Kong, Hong Kong,

2Nanyang Technological University, Singapore

11:05-11:30 [O1.21] Progress of PEEK based hydroxide exchange membranes X.M. Yan*, X.M. Wu, G.H. He, Y. Dai, Dalian University of Technology, China

[O2.22] Surface modified polyvinylidene fluoride membranes for potential use in membrane distillation L.N. Nthunya*1, A.R. Verliefde2, B.B. Mamba1, S.D. Mhlanga1, 1University of South Africa, South Africa, 2Ghent University, Belgium

[O3.22] Application of hydraulic impedance spectroscopy to investigate the accumulation of colloids in ultrafiltration membranes M.C. Martí-Calatayud*1, M. Wessling1 ,2, 1RWTH Aachen University, Germany, 2DWI Interactive Materials Research, Germany

[O4.22] Elemental composition and free-volume depth-profiling of PA TFC membranes with PLEPS and ERD R. Verbeke*1, W. Egger2, A. Bergmaier2, I.F.J. Vankelecom1, 1KU Leuven, Belgium,

2Universität der Bundeswehr München, Germany

[O5.22] Enhanced CO2/N2 separation properties of polymer nanocomposite membranes H.H. Lee*, S.C. Park, J.S. Roh, G.H. Moon, J.E. Shin, H.B. Park, Y.S. Kang, Hanyang University, Republic of Korea

[O6.22] Organic solvent nanofiltration with novel perfluoropolymer and other polymeric membranes J. Chau, P. Basak, K.K. Sirkar*, New Jersey Institute of Technology, USA

[O7.22] Thermodynamic understanding of membrane-biofoulant interfacial interactions: Implication of membrane electron-donocity D.W. Jun, B. McVerry, N. He, X. Huang, J. Yang, E. Hoek, R. Kaner, D. Chen*, University of California, USA

11:30-11:55 [O1.22] Highly-branched cross linked poly(ethylene oxide) with

[O2.23] Microfluidic tools to investigate and improve membrane processes

[O3.23] Micro-scale dynamics of oil droplets at a membrane surface:

[O4.23] The morphology of fully-aromatic polyamide separation layer

[O5.23] Surface control of covalent organic frameworks from multilevel: Focusing

[O6.23] Developmentof Polyamide-imide Based Positively Charged

[O7.23] Surface engineering of thin film composite polyamide

enhanced ionic conductivity H. Lin*, N. Paranjape, P. Chandra, G. Wu, University at Buffalo, USA

C.G.P.H. Schroën*, T. van de Laar, J. Sprakel, Wageningen University, The Netherlands

Deformation, reversibility and implications for fouling G. Fux*, G.Z. Ramon, Technion - Israel Institute of Technology, Israel

and its relationship with separation performance of TFC membranes J. Xu, Y. Liu*, SINOPEC Beijing Research Institute of Chemical Industry, China

on effective interfacial compatibility in mixed matrix membranes X.C. Cao*, Z. Wang, Z.H. Qiao, S. Zhao, J.X. Wang, S.C. Wang, Tianjin University, China

Nanofiltration Membranes By a New Approach A. Cihanoglu*, S.A. Altinkaya, Izmir Institute of Technology, Turkey

membranes with nanoparticles-like hyperbranched polyglycerol for improving antifouling properties Z. Liu*1 ,2, B. Mi2, Y. Hu1, X. An1, C. Dong1, 1Chinese Academy of Sciences, China,


11:55-12:20 [O1.23] Inorganic membranes as separator for lithium ion batteries Y.S. Lin*1, N. Kanhere1, P. McAfee1, K. Rafiz1, Y. Jin2, 1Arizona State University, USA, 2State Grid Cooperation of China, China

[O2.24] Copolyazole and polytriazole polymers for different membrane applications S. Chisca*1, P.H. Duong1, L.F. Villalobos1, G. Falca1, K.V. Peinemann1, C. Boi2, S.P. Nunes1, 1King Abdullah University of Science and Technology (KAUST), Saudi Arabia,

2Università di Bologna, Italy

[O3.24] Particle Image velocimetry (PIV): An important tool for understanding the fluid dynamics of magnetically responsive membranes M. Jebur*, A. Sengupta, S.R. Wickramasinghe, University of Arkansas, USA

[O4.24] New semi-aromatic polyamide RO membranes based on a novel dendritic molecule of trymesoylamidoamine L-F. Liu*, H. Wu, X-L. Chen, C-J. Gao, Zhejiang University of Technology, China

[O5.24] Sorption enhanced mixed matrix materials comprising palladium nanoparticles and polybenzimidazole for H2/CO2 separation L. Zhu*, D. Yin, S. Konda, M. Swihart, H. Lin, The State University of New York, USA

[O6.24] Effect of acidic dopants on the performance of polyaniline membranes in organic solvent nanofiltration J. Shen*, S. Shahid, L. Xu, D.A. Patterson, University of Bath, UK

[O7.24] HELIX - Flux enhancement technology in tubular waste water treatment membranes J. Potreck, Pentair X-Flow, The Netherlands

12:20-13:30 Lunch

Rooms Grand Ballroom A Continental 7-9 Franciscan A&B Continental 1-3 Franciscan C&D Grand Ballroom B Imperial A Imperial B


Fouling 2 EMS Giulio C. Sarti Honorary Session

Membrane Characterization 2

Membrane Module Design and Fabrication



13:30-13:55 [O1.24] Nitrate selectivity of heterogeneous membranes in membrane

[O2.25] A study on sub- and superboundary operating conditions of a

[O3.25] New amine-containing membranes for CO2 capture

[O4.25] Novel method for the characterization of ion exchange (IEX) membrane

[O5.25] Diagnosing the shortcomings of commercial membrane

[O6.25] Composite membranes containing engineered porous

[O7.25] Novel high-performance nanofiltration membranes with

[O8.17] Facile surfactant-assisted modification of RO membranes for

capacitive deionization T. Mubita*1 ,2, P. Aerts3, S. Porada2 ,4, B. van der Wal1, 1Wageningen University, The Netherlands,

2Wetsus, The Netherlands, 3The Dow Chemical Company, The Netherlands,

4University of Twente, The Netherlands

nanofiltration membrane system M. Stoller1, J.M. Ochando Pulido2, R. Field*3, 1University of Rome La Sapienza, Italy,

2University of Granada, Spain,

3University of Oxford, UK

K. Chen, Y. Han, W. Salim, Z. Tong, D. Wu, W.S.W. Ho*, The Ohio State University, USA

adsorbers by means of fluorescence microscopy A. Ley*1 ,2, S. Pagel1

,2, P. Altschuh2 ,3, F. Taft2, L. Villain2, P. Vana1, 1Georg-August University Göttingen, Germany, 2Sartorius Stedim Biotech GmbH, Germany,

3Karlsruher Institute of Technology, Germany

modules, the enablers of membrane technology D.J. Stookey*1, S. Majumdar1, 1Elah Strategies, USA,

2Compact Membrane Systems Inc., USA

materials for biogas purification T.H. Bae*, Y. Yang, H. Gong, T.H. Nguyen, Nanyang Technological University, Singapore

full pH-stability N. Daems*1, P.P. Pescarmona2 ,1, I.F.J. Vankelecom1, 1K.U. Leuven, Belgium,

2R.U. Groningen, The Netherlands

enhanced removal of diverse micropollutants K. Baransi-Karkaby, M. Bass, V. Freger*, Technion - Istrael Institute of Technology, Israel

13:55-14:20 [O1.25] High performance electrospun bipolar membrane with a 3D junction C. Shen2, R. Wycisk1, P. Pintauro*1, 1Vanderbilt University, USA,

2Wuhan University of Technology, China

[O2.26] Non-destructive biofilm detection on reverse osmosis membrane measuring microbial respiration with fluorescence Y. Yu*, J. Jung, J. Ryu, W. Song, M. Kweon, J. Kweon, Konkuk University, Republic of Korea

[O3.26] Heat and UV induced grafting of nonwoven PBT membranes for bioseparations R.G. Carbonell, NC State University, USA

[O4.26] Influence of fixed charge group concentration on water and ion transport in ion exchange membranes for desalination and energy generation applications J. Kamcev*, D.R. Paul, B.D. Freeman, The University of Texas at Austin, US

[O5.26] New designs of flat membrane modules for membrane distillation A. Criscuoli, Institute on Membrane Technology (ITM-CNR), Italy

[O6.26] A new superior competitor for exceptional propylene/propane separations: ZIF-67 containing mixed matrix membranes J. Lee*1, H. An1, H. Kwon2, H. Jeong2, K. Baek3, S. Hong3, 1Sogang University, Republic of Korea, 2Texas A&M University, USA, 3Korea Institute of Science & Technology, Republic of Korea

[O7.26] Incorporation of oleic acid-modified Ag@ZnO core-shell nanoparticles into thin film composite membranes for enhanced antibacterial properties Y.B. Chen*, X.J. Huang, S.Y. Wei, Y.F. Zhang, Tianjin Polytechnic University, China

[O8.18] Efficient micro-patterned polyamide thin-film composite membranes of "super-switchable" wettability I. ElSherbiny1, A. Khalil*1 ,2, M. Ulbricht1, 1University of Duisburg-Essen, Germany, 2Fayoum University, Egypt

14:20-14:45 [O1.26] Multicomponent transport in membranes for solar fuels devices D.J. Miller*1, B.S. Beckingham2, 1Lawrence Berkeley

[O2.27] Effect of surface roughness on membrane fouling for reverse osmosis applications Z. Jiang*, S. Karan, A.

[O3.27] Ion sorption, diffusion and transport in charged polymer membranes B.D. Freeman, The University of Texas

[O4.27] Streaming potential measurements of cellulose acetate and nanocomposite cellulose acetate/silver membranes to

[O5.27] Novel cylindrical cross-flow hollow fiber membrane module for direct contact membrane distillation-based

[O6.27] H2/CO2 Separation at elevated temperature with molecularly tuned free volume of vapor cross-linked 6FDA-Durene/ZIF-

[O7.27] Graphene oxide top layer for water treatment and separation mechanisms for salts, dyes, and protein solutions

[O8.19] Roll-to-roll patterning of commercial ultrafiltration membrane and fouling behaviour of varying pattern

National Laboratory, USA, 2Auburn University, USA

Livingston, Imperial College London, UK

at Austin, USA evaluate the membrane zeta potential and BSA permeation performance A.S. Figueiredo1 ,2, M.G. Sánchez-Loredo3, M. Minhalma*1 ,2, M.N. de Pinho2, 1Instituto Politécnico de Lisboa, Portugal,

2Universidade de Lisboa, Portugal,

3Universidad Autónoma de San Luis Potosí, Mexico

desalination D. Singh, L. Li, G. Obuscovic, J. Chau, K. Sirkar*, New Jersey Institute of Technology, USA

71 mixed matrix membranes (MMMs) S. Japip*, K-S. Liao, T.S. Chung, National University of Singapore, Singapore

F. Baskoro, S.J. Lue*, Chang Gung University, Taiwan

geometries J. Hutfles*, J. Pellegrino, University of Colorado Boulder, USA

14:45-15:10 [O1.27] Membrane development and transport study for redox flow batteries W. Wang, Pacific Northwest National Laboratory, USA

[O2.28] Fouling behavior of silica nanoparticle-surfactant mixtures during constant flux dead-end ultrafiltration K.W. Trzaskus1, S.L. Lee1, W.M. de Vos1, A.J.B. Kemperman*1, K. Nijmeijer1

,2, 1University of Twente, The Netherlands,

2Eindhoven University of Technology, The Netherlands

[O3.28] Can we emulate nature’s exquisite selectivity for water andproteins? G. Belfort, Rensselaer Polytechnic Institute, USA

[O4.28] Characterization of hollow fiber supported ionic liquid membranes using microfocus X-ray computed tomography D.P. Hopkinson*1, S. Dai1, Y. Seol1, S. Wickramanayake1

,2, 1National Energy Technology Laboratory, USA,

2AECOM, USA

[O5.28] Hollow fiber membrane contactor design for post-combustion capture of CO2/N2 through sweep gas M. Younas*1, A. Muhammad1, G. Lipscomb2, 1University of Engineering and Technology, Pakistan, 2University of Toledo, USA

[O6.28] Carbon Dioxide Removal using Mixed Matrix Membranes with Metal-Organic Frameworks Supporting Ionic Liquids A.R. Nabais1, A. Portela1, R.P.P.L. Ribeiro1, J.P.B. Mota1, I.M. Coelhoso1, J.G. Crespo*1, I.A.A.C. Esteves1, L.C. Silva2, L.A. Neves1, 1LAQV, Requimte, FCT-UNL, Portugal, 2LAQV, Requimte, FS-UP, Portugal

[O7.28] Solvents in membrane synthesis and their effect on NF/RO performance: From conventional organic solvents to ionic liquids H. Mariën*, L. Bellings, S. Hermans, I.F.J. Vankelecom, KU Leuven, Belgium

[O8.20] Enhancing anti-fouling properties of commercial pes membranes using polymerized bicontinuous microemulsion coatings induced by uv-led light E. Gukelberger*1, S.A. Schmidt1, F. Galiano2, S.I. Bouhadjar1, R. Manusco3, B. Gabriele3, J. Hoinkis1, A. Figoli2, 1Karlsruhe University of Applied Sciences, Germany,

2Institute on Membrane Technology, Italy,

3University of Calabria, Italy


Rooms Grand Ballroom A Continental 7-9 Franciscan A&B Continental 1-3 Franciscan C&D Grand Ballroom B Imperial A Imperial B


Fouling 2 EMS Giulio C. Sarti Honorary Session

Membrane Characterization 2

Membrane Module Design and Fabrication



15:40-16:05 [O1.28] Solvent-resistant ion exchange membranes for non-aqueous redox flow batteries Y. Li, I. Vankelecom*, KU Leuven University, Belgium

[O2.29] Deoiling of saline emulsions: Understanding oil droplet behavior at the membrane surfaces C.A. Hejase1, E.N. Tummons1, J.W. Chew2 ,3, A.G. Fane2

,3, V.V. Tarabara*1, 1Michigan State University, USA, 2Nanyang Technological University, Singapore,

3Singapore Membrane Technology Centre, USA

[O3.29] Ultra-selective carbon molecular sieve membranes with tailored synergistic sorption selective properties W.J. Koros*, C. Zhang, Georgia Institute of Technology, USA

[O4.29] Geometric restriction of gas permeance in ultrathin film composite membranes evaluated using an integrated experimental and modeling approach L. Zhu, M. Yavari, W. Jia, E. Furlani, H. Lin*, The State University of New York, USA

[O5.29] The novel approaches for design of cascades for membrane gas separation V.M. Vorotyntsev*, P.N. Drozdov, I.V. Vorotyntsev, Nizhny Novgorod State Technical University n.a. R.E. Alekseev, Russia

[O6.29] Controlled positioning of MOFs and their role in interfacially polymerized thin-film nanocomposites C. Van Goethem1, R. Verbeke*1, T. Koshine1, M. Pfanmöller2, R. Bernstein3, S. Bals2, I.F.J. Vankelecom1, 1KU Leuven, Belgium,

2Universiteit Antwerpen, Belgium, 3Ben-Gurion University of the Negev, Israel

[O7.29] Preparation of nanofiltration membranes via alternating polyelectrolyte deposition with limited number of layers on PSF/SPES based porous support membranes O. Tekinalp*, S.A. Altinkaya, Izmir Institute of Technology, Turkey

[O8.21] Spatial control of grafted polymers on ultrafiltration membrane: A new horizon of AGET-ATRP A. Sengupta*, X. Qian, S.R. Wickramasinghe, University of Arkansas, USA

16:05-16:30 [O1.29] Selective ion transport in nano-crack regulated proton exchange membrane and its application for vanadium redox flow battery (VRFB) D.S. Hwang1, H. Park2, S. Moon2, T. Chung1, Y.M. Lee2, S. Kim1, T. Wang*1, 1University of Illinois at Chicago, USA, 2Hanyang University, Republic of Korea

[O2.30] Flow-field mitigation of membrane fouling (FMMF) via manipulation of the convective flow in cross-flow membrane applications F. Zamani, H.J. Tanudjaja, E. Akhondi, W.B. Krantz, A.G. Fane*, J.W. Chew, Nanyang Technological University,

[O3.30] Observing membranes and molecules: The renaissance revisited J.G. Crespo, FCT-Universidade Nova de Lisboa, Portugal

[O4.30] New information from the old time-lag experiment H. Wu*, J. Thibault, B. Kruczek, University of Ottawa, Canada

[O5.30] Facile coating with hierarchically polymeric microspheres to improve surface hydrophobicity of membrane for direct contact membrane distillation E.J. Lee, A.K. An*, City University of Hong Kong, Hong Kong

[O6.30] Gas separation performances of 6FDA-based polyimide mixed matrix membranes with high surface area UiO-66 (Zr-BDC) nanoparticles M.Z. Ahmad*1 ,2, M. Navarro2, B. Zornoza2, J. Coronas2, C. Tellez2, V. Fila1, 1University of Chemistry and Technology Prague, Czech Republic,

2University of

[O7.30] Constructing zwitterionic surface of nanofiltration membrane for high flux and antifouling performance Y-F. Mi*1, Y-S. Guo1, X-D. Weng1, F-Y. Zhao1, Q-F. An1

,2, 1ZheJiang University, China,

2Beijing University of Technology, China

[O8.22] Covalent surface entanglement of single walled carbon nanotube on polyvinylidene fluoride membranes S. Al-Gharabli1 ,2, J. Kujawa1 ,3, M. Mavukkandy1, T. Agbaje1, E. Hamad2, H. Arafat*1, 1Masdar Institute of Science and Technology, United Arab Emirates, 2German-Jordanian

Singapore Zaragoza, Spain

University, Jordan,

3Nicolaus Copernicus University in Torun, Poland

16:30-16:55 [O1.30] Polyaniline-coated carbon nanotube ultrafiltration membranes: Enhanced anodic stability for in situ cleaning and electro-oxidation processes A. Ronen*1, W. Duan2, S. Walker2, D. Jassby2, 1Temple University, USA,


[O2.31] Cleaning mechanism of CTA based Spiral-Wound Forward Osmosis (SWFO) membrane for wastewater reuse and seawater desalination hybrid system S.J. Im*, A. Jang, SungKyungKwan University, Republic of Korea

[O3.31] On the Maxwell-Garnett equation and its use to interpret gas permeability and selectivity data in mixed matrix membranes F. Doghieri*, M. Minelli, University of Bologna, Italy

[O4.31] Effect of pyrolysis temperature on the structure of carbon molecular sieve membranes Y. Ma*, R. Lively, Goergia Institute of Technology, USA

[O5.31] Laterally-fed membrane chromatography (LFMC) devices for high-resolution separation of biopharmaceuticals P. Madadkar*, R. Sadavarte, U. Umatheva, S. Nino, R. Ghosh, McMaster University, Canada

[O6.31] Fast synthesis of metal organic frameworks inside gas separation membranes and their amorphisation to boost performances J. Didden, A. Kertik, I. Vankelecom, R. Verbeke*, KU Leuven, Belgium

[O7.31] Epon resin 1031-based TFC-membranes via nucleophilic and anionic ring opening polymerization E. Dom1, J. Van den Bosch1, S. Rutten1, J. Vandendriessche1, T. Koschine1, A. Szymczyk2, G. Koeckelberghs1, R. Verbeke1, W. Egger3, I.F.J. Vankelecom1, H. Mariën*1, 1KULeuven, Belgium, 2Institut des Sciences Chimiques de Rennes, France,

3Universitäd Munchen, Germany

[O8.23] Topological control of thin film composite membranes using new nanoscale assembly techniques for improving fouling resistance W. Choi1, E.P. Chan2, J-H. Lee*1, 1Korea University, Republic of Korea, 2The National Institute of Standards and Technology (NIST), USA

16:55-17:20 [O1.31] Thin-film, low-temperature O2 electrochemical pumps and solid oxide fuel cells R.A. Bauer*, M.T. Snider, H. Verweij, The Ohio State University, USA

[O2.32] “Printed graphene membrane spacers”: Antibiofilm and antimicrobial properties of laser induced graphene S.P. Singh1, Y. Li2, A. Be'er1, Y. Oren1, J.M. Tour2, C.J. Arnusch*1, 1Ben Gurion University of the Negev, Israel,

2Rice University, USA

[O3.32] Novel membrane chromatographic supports for protein purification C. Boi, University of Bologna, Italy

[O4.32] Fast development of carbon molecular sieves enabled by high throughput kinetic adsorption J. Liu*, J. Goss, M. McAdon, K. Andrews, R. Golombeski, E. Calverley, Y. Liu, D. Kayrak Talay, L. Xu, M. Brayden, The Dow Chemical Company, USA

[O5.32] A innovative fabrication method of polyamide thin film composite reverse osmosis membranes via dual-layer slot coating S-J. Park*, W.S. Choi, J-H. Lee, Korea University, Republic of Korea

[O6.32] Understanding polymer confinement effects in ZIF-11 MMMs E.Z. Zhou*, R.P.L. Lively, Georgia Institute of Technology, USA

[O7.32] Preparation of high flux and anti-pollution SPSF/PSF composite membrane Q. Zhang*, Y. Chen, W. Peng, Y. Wang, Y. Zhao, Beijing OriginWater Membrane Technology Co., Ltd. Bejing, China

[O8.24] Surface modification of porous PES membranes with low-fouling zwitterionic polyampholyte hydrogels Z. Yang, W. Zhang, R. Bernstein*, Ben-Gurion University of the Negev, Israel

17:20-19:00 Break

19:00-21:00 Poster Session 2 Continental 4-6

Wednesday, August 2nd 2017

Rooms Franciscan A&B Continental 7-9 Grand Ballroom B Continental 1-3 Grand Ballroom A Imperial A Franciscan C&D Imperial B

08:30-10:10 Aseanian Membrane Society Session

Fouling 3 Gas Separation 3 Iso-porous Membranes


Nanofiltration 3 Reverse Osmosis Wastewater Treatment 1

08:30-08:55 [O1.32] (08:40-08:55) Research activities of the membrane society of Japan T. Yamaguchi, Tokyo Institute of Technology, Japan [O1.33] (08:55-09:10) Research activities of Korea J. Jegal, Korea Research Institute of Chemical Technology (KRICT), Republic of Korea [O1.34] (09:10-09:25) Research activities of China W. Jin, Nanjing Tech University, China [O1.35] (09:25-09:40) Research activities of Taiwan Y. Chang, Chung Yuan University, Taiwan [O1.36] (09:40-09:55) Research activities of Australia A. Thornton, CSIRO,

[O2.33] In-situ electrochemical cleaning of silica-fouled electrically conducting MD membranes L. Tang*, D. Jasssby, UC Riverside, USA

[O3.33] Ortho-Hydroxyl-functionalized Tröger's base derived diamine as an efficient building block for gas separation membranes X. Ma*, A. Shkurenko, M. Eddaoudi, I. Pinnau, KAUST, Saudi Arabia

[O4.33] Predicting permeability in nanotube membranes D. Mattia, University of Bath, UK

[O5.33] Design, fabrication and applications of ceramic-supported composite membranes W.Q. Jin, Nanjing Tech University, China

[O6.33] Braided-reinforced thin film composite (TFC) nanofiltration hollow fiber membranes J.R. McCutcheon, L. Xia*, University of Connecticut, USA

[O7.33] Sub-8nm polyamide thin film composite membranes for reverse osmosis application Z. Jiang*, S. Karan, A. Livingston, Imperial College London, UK

[O8.25] Ultrafiltration of microbial fuel cell effluent for water re-use applications L. Xia1, C. Alvarado1, J.E. Kilduff*1, N. Shreshtha2, G. Chilkoor2, V. Gadhamshetty2, J. Keating1, G. Belfort1, 1Rensselaer Polytechnic Institute, USA,

2South Dakota School of Mines and Technology, USA

08:55-09:20 [O2.34] A novel indirect contact-killing mechanism for enhanced anti-biofouling behaviours of polyvinylidene fluoride membrane modified by quaternary ammonium compounds X. Zhang*, Z. Wang, J. Ma, Tongji University, China

[O3.34] Engineering the microporosity in Polybenzoxazole (PBO)-based gas separation membranes S. Luo, A. Kushwaha, R. Guo*, University of Notre Dame, USA

[O4.34] Membranes with ~1 nm pore size and excellent fouling resistance through zwitterionic copolymer self-assembly A. Asatekin, Tufts University, USA

[O5.34] Novel supramolecular organic framework (SOF) based mixed matrix membranes (MMMs) for methane purification Z.V. Singh*1, L-L. Tan1 ,2, M.G. Cowan1, Y-W. Yang2, W. Zhang1, D.L. Gin1, R.D. Noble1, 1University of Colorado Boulder, USA, 2International Joint Research Laboratory of Nano-

[O6.34] Amphiphilic PVC-based nanofiltration membrane: From molecular designing to membrane manufacture M.Y. Zhou*1, L.F. Fang1 ,2, C.C. Sun1, B.K. Zhu1, 1Zhejiang University, China,

2Kobe University, Japan

[O7.34] Easy fabrication of reverse osmosis membrane with regenerable antibacterial and chlorine resistance properties Y. Wang*, Z. Wang, S-C. Wang, Tianjin University, China

[O8.26] Fit-for-use reclaimed urban wastewater for industrial purposes combining membrane filtration and adsorption technologies O. Ferrer1, M. Pastur1, M. Aceves2, C. Gómez3, A.M. Mateo4, A. Ayuso5, C. Mesa6, A. Vega6, J.L. Cortina*7

,1, 1Water Technology Centre, Spain, 2Àrea Metropolitana de

Australia [O1.37] (09:55-10:10) Membrane research in Singapore R. Wang, Nanyang Technological University, Singapore

Micro Architecture Chemistry, China

Barcelona, Spain,

3ECOIMSA, Spain,

4ARCHROMA Ibérica S.L.U, Spain, 5TACSA, Spain, 6Aigües de Barcelona, Empresa Metropolitana de Gestió del Cicle Integral de l'Aigua, SA., Spain,

7Multiscale Science and Engineering Research Center, Barcelona TECH UPC, Spain

09:20-09:45 [O2.35] Enzymes - an alternative cleaning agent for membranes in biorefineries? G. Rudolph*, A-S. Jönsson, F. Lipnizki, Lund University, Sweden

[O3.35] Water sorption, dilation, and transport in polybenzimidazoles for gas separations J. Moon*1, M. Galizia1, H. Borjigin2, R. Liu2, J. Riffle2, B. Freeman1, D. Paul1, 1The University of Texas at Austin, USA,

2Virginia Polytechnic Institute and State University, USA

[O4.35] Fabrication of hierarchical nanoporous poly(styrene) membrane from ordered block copolymer precursor R.H. Shevate*, M. Kumar, C.G. Canlas, K.V. Peinemann, King Abdullah University of Science and Technology (KAUST), Saudi Arabia

[O5.35] High performance materials for gas separation applications. Mixed matrix membranes made form linear polymers and porous polymer networks C. Aguilar-Lugo1, B. Lopez-Iglesias2, A. Hernández1, C. Bartolomé2, J. M. Martínez-Ilarduya2, J. G. de la Campa1, C. Álvarez1, A. E. Lozano*1

,2, 1Institute of Polymer Science and Technology, Spain,

2University of Valladolid, Spain

[O6.35] Polyelectrolyte based hollow fibre membrane for various low-pressure nanofiltration applications C. Liu*, T.H. Chong, R. Wang, Nanyang Technological University, Singapore

[O7.35] Pilot-scale chlorination of BW30 TFC membranes and their thorough physico-chemical characterization R. Verbeke*1, V. Gomez2, W. Egger3, A. Bergmaier3, I.F.J. Vankelecom1, 1KU Leuven, Belgium,

2Dow Water and Process Solutions, Spain, 3Universität der Bundeswehr München, Belgium

[O8.27] Ceramic hollow fiber membranes for filtration of highly aggressive industrial wastewater treatment applications G. Wood, i2m LLC, USA

09:45-10:10 [O2.36] Fouling-resistant ultrafiltration membranes prepared via co-

[O3.36] Ionic liquids compatibility study in cross-linked polyether ion gel

[O4.36] Isoporous block copolymer membranes - closer to commercial

[O5.36] Tailoring interfacial morphology in mixed matrix membranes via

[O6.36] Diananofiltration, a purification approach towards the sustainability? A

[O7.36] Development of robust reverse osmosis (RO)/nanofiltration

[O8.28] Development of a multi-stage membrane distillation system

deposition of dopamine/zwitterion composite coatings A.Y. Kirschner*1, C.C. Chang2, S. Kasemset1, T. Emrick2, B.D. Freeman1, 1University of Texas at Austin, USA,

2University of Massachusetts at Amherst, USA

membranes V.A. Kusuma*1 ,2, M.K. Macala1 ,2, J. Liu1, A.M. Marti1, D.P. Hopkinson1, 1US Dept of Energy - National Energy Technology Laboratory, USA,

2AECOM, USA

reality J. Shethji*, C. Crock, J. Cho, S. Robbins, R. Dorin, Terapore Technologies, Inc.,, USA

supramolecular interactions Q. Zhang, R. Guo*, University of Notre Dame, USA

green chemistry case study A.R.S. Teixeira*1 ,2, G. Willig1 ,2, J. Couvreur1 ,2, A.L. Flourat1 ,2, A.A.M. Peru1 ,2, P. Ferchaud3, H. Ducatel3, F. Allais1

,2, 1AgroParisTech, France, 2Université Paris-Saclay, France,

3Extractis, France

(NF) membranes with thermal stability and chlorine tolerance and application to various types of water resources T. Tsuru*1, J. Ohshita1, W. Nishijima1, M. Hirose2, T. Tsustsumi3, G. Gong1, W. Puthai1, S.M. Ibrahim1, H. Nagasawa1, M. Kanezashi1, 1Hiroshima University, Japan, 2Nitto Denko Corporation, Japan,

3Fukuyama City University, Japan

for treatment of hydraulic fracturing flow back waters K. Sardari*, S.R. Wickramasinghe, University of Arkansas, USA


Rooms Franciscan A&B Continental 7-9 Grand Ballroom B Continental 1-3 Grand Ballroom A Imperial A Franciscan C&D Imperial B

10:40-12:20 Aseanian Membrane Society Session

Fouling 3 Gas Separation 3 Iso-porous Membranes


Nanofiltration 3 Reverse Osmosis Wastewater Treatment 1

10:40-11:05 [O1.38] (10:45-11:15) Review of various membrane formation mechanisms S.S. Kim, Kyung Hee University, Republic of Korea [O1.39] (11:15-11:45) Prof. Neal Chung's membrane research at NUS T.S. Chung, National University of

[O2.37] UF membrane cleaning using carbon dioxide saturated solution M. Al-Ghamdi, N. Ghaffour*, KAUST, Saudi Arabia

[O3.37] The role of chlorine substituent in polychlorotrifluoroethene (PCTFE) for membrane gas separation M. Yavari*1, Y. Okamoto2, H. Lin1, 1State University of New York, USA, 2New York University, USA

[O4.37] Improving separation performance of ultrafiltration membranes made via phase separation from solutions of standard polymers by inducing micellization of diblock copolymer additives M. Ulbricht*, J. Meyer, Universität Duisburg-Essen,

[O5.37] Effect of gas phase impurities on carbon dioxide separation in mixed matrix membranes S. Kanehashi*1 ,2, A. Aguiar2, H. Lu2, S. Kentish2, 1Tokyo University of Agriculture and Technology, Japan,

2The University of Melbourne, Australia

[O6.37] Graphene oxide membranes on inner surface of ceramic tubes for efficient water purification M. Zhang*, J. Shen, G. Liu, J. Zhao, W. Jin, Nanjing Tech University, China

[O7.37] What makes the polyamide desalination membranes so unique: New insights into membrane structure and ion rejection mechanism N. Fridman-Bishop*, V. Freger, Technion-Israel Institute of Technology, Israel

[O8.29] Nanoporous lyotropic liquid crystal polymer membranes for the treatment of hydraulic fracturing flowback water S.M. Dischinger*, R.D. Noble, D.L. Gin, K.G. Linden, J. Rosenblum, University of Colorado Boulder, USA

Singapore, Singapore [O1.40] (11:45-12:15) Free space and material architectures for membrane separations A.J. Hill*1, P. Falcaro2, C.M. Doherty1, R. Ricco2, A.W. Thornton1, 1CSIRO, Australia, 2Technical University Graz, Austria

Germany

11:05-11:30 [O2.38] Effect of direct electric current and field on biofouling in electrodialysis and reverse electrodialysis M. Vaselbehagh, H. Karkhanechi, R. Takagi*, H. Matsuyama, Kobe University, Japan

[O3.38] Thermally rearranged bismaleimide networks (TR-BMIs) for membrane gas separation W.H. Lee*1, Y.S. Do1, J.G. Seong1, J.S. Kim1, H.H. Wang1, C.M. Doherty2, A.J. Hill2, Y.M. Lee1, 1Hanyang University, Republic of Korea,

2Commonwealth Scientific and Industrial Research Organization (CSIRO) Manufacturing, Australia

[O4.38] Homoporous membranes with uniform, noncircular pore geometries by selective swelling of amphiphilic block copolymers L.M. Guo, Y. Wang*, Nanjing Tech University, China

[O5.38] Water transport through porous particles in mixed matrix membranes P. Cay-Durgun1 ,2, M.L. Lind*1, 1Arizona State University, USA, 2Arizona State University, USA

[O6.38] Modelling concentrated multicomponent mixtures of non-spherical molecules for nanofiltration applications V. Aguirre Montesdeoca*1 ,2, A. Van der Padt1, R.M. Boom1, A.E.M. Janssen1, 1Wageningen University, The Netherlands,

2Institute for Sustainable Process Technology, The Netherlands

[O7.38] Water flow inside polyamide reverse osmosis membranes: A nonequilibrium molecular dynamics study Y. Song*, F. Xu, M. Wei, Y. Wang, Nanjing Tech University, China

[O8.30] Combination of membrane and electrochemical processes for micropollutant removal from water C. Trellu*1, C. Coetsier1, J.C. Rouch1, S. Raffy2, M. Cretin3, C. Causserand1, 1Université de Toulouse, France, 2Saint-Gobain, France,

3Institut Européen des Membranes, France

11:30-11:55 [O2.39] Novel membranes with special wettability for anti-wetting and anti-fouling membrane distillations Z. Wang, S. Lin*, Vanderbilt University, USA

[O3.39] A multiscale method to predict the mixed gas separation performance of high-Tg polymeric membranes for CO2 capture: The case of CO2/CH4 separation with Matrimid® E. Ricci1 ,2, M.G. De Angelis1 ,2, M. Minelli*1

,2, 1University of Bologna, Italy,

2INSTM, Italy

[O4.39] Fabrication of inside-out isoporous hollow fiber membranes K. Sankhala*1, J. Koll1, M. Radjabian1, U.A. Handge1, V. Abetz1

,2, 1Helmholtz-Zentrum Geesthacht, Germany,

2University of Hamburg, Germany

[O5.39] High performance mix-matrixed fibrous membranes for ammonium removal from wastewaters S. Chen*, P. Ahmadiannamini, S.R. Wickramasinghe, X. Qian, University of Arkansas, USA

[O6.39] Nanofiltration of dicarboxylic acids: How does pH affect permeabilities and rejections? P.A.B. Díaz, A.C. Habert, F.A. Kronemberger*, Federal University of Rio de Janeiro, Brazil

[O7.39] In situ biofouling investigation in spacer-filled channel using Optical Coherence Tomography (OCT) L. Fortunato*, T. Leiknes, King Abdullah University of Science and Technology (KAUST), Saudi Arabia

[O8.31] Investigation of the degradation of endocrine disrupting compounds in a membrane bioreactor M. Kamaz*1, E. Eswaranandam1, S. Jones2, M. Watts2, W. Zhang1, S.R. Wickramasinghe1, X. Qian1, 1University of Arkansas, USA,

2Garver Engineering, USA

11:55-12:20 [O2.40] Effect of pretreating secondary

[O3.40] O2-stable membranes for CO2

[O4.40] Polybenzoxazine: A facile material for

[O5.40] Fabrication of antifouling hybrid

[O6.40] Nanofiltration membranes for

[O7.40] Visualizing concentration

[O8.32] Direct filtration of municipal

wastewater on fouling of Reverse Osmosis membrane Y.H. Cai*1, N. Galili1, A. Kidron2, M. Herzberg1, J. Gilron1, 1Zukerberg Institute for Water Research, Israel,

2Amiad Water Systems Ltd., Israel

separation and H2 purification V. Vakharia1, W. Salim*1, M. Gasda2, W.S.W. Ho1, 1The Ohio State University, USA,

2Bloom Energy Corporation, USA

building up porous materials for oil/water separation Y-L. Liu*, C-T. Liu, National Tsing Hua University, Taiwan

membranes through in situ biomimetic mineralization X.T. Zhao*, N. Jia, Y. Zhou, L.F. Liu, C.J. Gao, Zhejiang University of Technology, China

ionic liquid recovery during pretreatment A. Avram, X. Qian, S.R. Wickramasinghe*, University of Arkansas, USA

polarization - a new method for in-situ measurement in RO/NF O. Jung*, F. Saravia, M. Wagner, S. Heißler, H. Horn, Karlsruhe Institute of Technology (KIT), Germany

wastewater using flat-sheet ceramic membrane Y.X. Zhao*, X.Y. Li, The University of Hong Kong, China

12:20-onwards

Free Afternoon

Thursday, August 3rd 2017

Rooms Imperial A Continental 1-3 Yosemite A&B Grand Ballroom B Franciscan A&B Grand Ballroom A Franciscan C&D Imperial B

08:30-10:10 Biomimetic and Bioinspired Membranes 1

Carbon Dioxide Capture 1

Catalytic and Membrane Reactors 1

Ion Exchange and Electrically Driven Processes 1

Modeling 1 Osmotic Membrane Processes

Sustainable Membranes and Processes 1

Wastewater Treatment 2

08:30-08:55 [O1.41] Artificial water channels M. Barboiu, Institut Europeen des Membranes, France

[O2.41] Scale-up of amine-containing membranes and spiral-wound membrane module field test for CO2 capture from flue gas W. Salim*, V. Vakharia, D. Wu, Y. Chen, L. Zhao, Y. Han, W.S.W. Ho, The Ohio State University, USA

[O3.41] Preparation and catalytic performance of TS-1 zeolite membrane M.H. Zhu*1, L. Li1, Y.X. Liao1, R. Yue1, Y.S. Liu1, M. Xue1, I. Kumakiri2, X.S. Chen1 ,2, H. Kita2, 1Jiangxi Normal University, China, 2Yamaguchi University, Japan

[O4.41] Effect of the presence of magnesium ions on power generation using reverse electrodialysis J. Moreno2 ,3, V. Diez2, M. Saakes2, K. Nijmeijer*1, 1Eindhoven University of Technology, The Netherlands,

2Wetsus, The Netherlands,

3University of Twente, The Netherlands

[O5.41] Analysis of the transport properties of Thermally Rearranged (TR) polymers and Polymers of Intrinsic Microporosity (PIM) relative to upper bound performance M.E. Dose*1, L.M. Robeson2, B.D. Freeman1, D.R. Paul1, 1The University of Texas at Austin, USA,

2Lehigh University, USA

[O6.41] Experimental assessment of osmotically assisted reverse osmosis for dewatering brines extracted from the geologic storage of carbon dioxide J.T. Arena*1, T.V. Bartholomew2, M.S. Mauter2, N.S. Siefert1, 1US DOE National Energy Technology Laboratory, USA,

2Carnegie Mellon University, USA

[O7.41] Using polytetrafluoroethylene hollow fibers in a gas-liquid membrane contactor for CO2/CH4 separation J. Ghobadi*1, T. Lua1, D. Ramirez1, R. Jerman2, M. Crane2, 1Texas A&M University-Kingsville, USA, 2Eclipse Membranes, USA

[O8.33] Chromium recovery for process reuse from tannery wastewater streams by membranes M. Stoller*1, G. Vilardi1, O. Sacco2, J.M. Ochando Pulido3, L. Di Palma1, 1University of Rome La Sapienza, Italy,

2University of Salerno, Italy,

3University of Granada, Spain

08:55-09:20 [O1.42] Biomimetic and bioinspired membranes for separations: An

[O2.42] Pilot-scale development of a PEEK hollow fiber membrane

[O3.42] Reactive polyether sulfone membranes with in situ assembled catalytic

[O4.42] Ion specific effects in charged polymers for membrane applications

[O5.42] Particle-membrane interactions: Pressure, permeation and

[O6.42] Concentration of downstream effluents from pharmaceutical

[O7.42] Recoveries and treatment performance of volatile, semi-

[O8.34] Concurrent removal of selenium and arsenic from water using POSS-

overview M. Kumar, Pennsylvania State University, USA

contactor process for post-combustion CO2 capture S. Li*1, T.J. Pyrzynski1, N.B. Klinghoffer1, J.L. Aderhold1, H.S. Meyer1, Y. Ding2, 1Gas Technology Institute, USA, 2Air Liquide Advanced Separations, USA

nanoparticles on pore surfaces for water purification Z. Liping*1, L. Zhuang1, X. Rui1, J. Xiaojie1 ,2, W. Wei1, C. Liangyin1

,2, 1Sichuan University, China,

2Sichuan University, China

G.M. Geise, The University of Virginia, USA

deformation G.Z. Ramon, Technion - Israel Institute of Technology, Israel

industry using Aquaporin Inside TM hollow fiber forward osmosis membranes - Influence of flow conditions on membrane performance M.S. Camilleri-Rumbau*1, L.C. Vargas1 ,2, A. Romagnoli3, K. Trzaskus1, E. Gad1, C. Hélix-Nielsen2

,4, 1Aquaporin A/S, Denmark, 2Technical University of Denmark, Denmark,

3GSK Vaccines S.r.l, Italy, 4University of Maribor, Slovenia

volatile, and non-volatile organic contaminants by direct contact membrane distillation D. Won*1, E.P. Kolodziej1 ,3, K. Salls2, S.R. Hiibel2, A.D. Gipe3, A. Childress4, 1University of Washington, USA, 2University of Nevada, USA,

3Center for Urban Waters, USA,

4University of Southern California, USA

polyamide thin-film nanocomposite nanofiltration membranes Y.R. He*, Y.P. Tang, T.S. Chung, National University of Singapore, Singapore

09:20-09:45 [O1.43] Biomimetic membranes – learning from Nature or reinventing the wheel? T. Schäfer1, 1Polymat University of the Basque Country, Spain, 2Ikerbasque Basque Foundation for Science, Spain

[O2.43] Study of dual stage membrane design and CO2cost capture evaluation for flue gas treatment L. Giordana*, D. Roizard, R. Bounaceur, E. Favre, CNRS, France

[O3.43] Biocatalytic membrane for CO2 capture and conversion utilizing enzymatic zif-8 cascade S. Gao*, J. Hou, V. Chen, University of New South Wales, Australia

[O4.43] Impact of solution composition on the resistance of ion exchange membranes S. Zhu*1, R. Kingsbury1, D. Call2, O. Coronell1, 1The University of North Carolina, USA,

2North Carolina State University, USA

[O5.43] The effect of support pore distribution on the permeance of composite membranes P. Hao, L. White, Z. He, D. Nguyen, T. Merkel, J.G. Wijmans*, MTR, USA

[O6.43] Evaluation of fertilizer-drawn forward osmosis for sustainable agriculture and wastewater reuse in arid regions: From bench-scale performance to pilot-scale investigation on hydroponic lettuce L. Chekli*1, J.E. Kim1, I. El Saliby2, Y. Kim1

,3, S. Phuntsho1, S. Li4, N. Ghaffour4, T. Leiknes4, H.K. Shon1, 1University of Technology Sydney, Australia,

2Botanic Gardens

[O7.43] Power generation in a reverse electrodialysis system using SWRO brine and sewage-treated water M. Higa*, T. Sakurada, M. Kuno, M. Yasukawa, Yamaguchi University, Japan

[O8.35] Removal capacity, transfer coefficient and microbial succession during phenol removal via extractive membrane bioreactor (EMBR) L. Ren*, R. Chen, X. Zhang, Y. He, J. Shao, Shanghai Jiao Tong University, China

and Centennial Parklands, Australia,

3Korea University, Republic of Korea,

4King Abdullah University of Science and Technology, Saudi Arabia

09:45-10:10 [O1.44] Artificial membranes with preferential nanochannels from block copolymer self-assembly B. Sutisna*, V. Musteata, K-V. Peinemann, S.P. Nunes, King Abdullah University of Science and Technology (KAUST), Saudi Arabia

[O2.44] Bench scale testing of sub-ambient hollow fiber membrane modules at the National Carbon Capture Center D. Hasse*, T. Chaubey, S. Kulkarni, D. Kratzer, J. Brumback, A. Alexstine, Air Liquide, USA

[O3.44] Development of nanoporous titania thin films towards visible light active photocatalytic membranes S.E. Rankin*, S.Z. Islam, N. Wanninayake, A. Reed, D.Y. Kim, University of Kentucky, USA

[O4.44] Ion transport modelling in membrane capacitive deionisation A. Hassanvand, G.Q. Chen, P.A. Webley, S.E. Kentish*, University of Melbourne, Australia

[O5.44] Molecular simulations of responsive polymers for membrane applications X. Qian*, X. Sun, H. Du, University of Arkansas, USA

[O6.44] Combined forward osmosis-reverse osmosis for the treatment of brewery wastewater C. Schneider*1, A. Zarebska1, C. Hélix-Nielsen1

,2, 1Technical University of Denmark, Denmark,

2University of Maribor, Slovenia

[O7.44] Effect of flow rate, bulk temperature, and channel depth on flux in nanophotonics-enhanced solar membrane distillation S.S. Pedersen*, A.A. Alabastri, P.D. Dongare, Q. Li, Rice University, USA

[O8.36] Acid recovery from mining processing water using Membrane Distillation and Solvent Extraction (MD-SX) L. Ding1, H. Aral1, M. Duke1, X. Yang*1, 1Victoria University, Australia,

2Jervois Mining Limited, Australia


Rooms Imperial A Continental 1-3 Yosemite A&B Grand Ballroom B Franciscan A&B Grand Ballroom A Franciscan C&D Imperial B

10:40-12:20 Biomimetic and Bioinspired Membranes 1




Modeling 1 Osmotic Membrane Processes

Sustainable Membranes and Processes 1

Wastewater Treatment 2

10:40-11:05 [O1.45] Current development of aquaporin inside™ biomimetic membranes for forward osmosis applications K. Trzaskus1, M. Friis Andersen1, J. Vogel1, C. Hélix-Nielsen2 ,3, M. Salud Camilleri Rumbau*1, 1Aquaporin A/S, Denmark,

[O2.45] CO2 separation process using polyimide membrane: Lab-scale and pilot-scale tests from flue gas S.H. Han*1, S.J. Jung1, C.S. Lee1, H.C. Koh1, S.Y. Ha1, J.G. Yeo2, W.S. Chang3, 1Airrane Co. Ltd., Republic of Korea, 2Korea

[O3.45] Enzymatic membrane reactors for antibiotics degradation in wastewaters R. Abejon, A.L. Parra, M.P. Belleville, J.G. Sanchez-Marcano*, Université de Montpellier, France

[O4.45] Importance of counter-ion condensation in describing ion sorption and transport in ion exchange membranes J. Kamcev*1, G.S. Manning2, D.R. Paul1, B.F. Freeman1, 1The University of Texas

[O5.45] CFD simulation of fluid and fouling profiles for membranes with engineered surface features Z. Zhou*, S.T. Weinman, S. Sarupria, S.M. Husson, A. Malakian, D.A. Ladner, Clemson University, USA

[O6.45] Optimizing hollow fiber membranes and modules for osmotic processes: From membranes to modules to models J. Ren*, J.R. McCutcheon, University of Connecticut, USA

[O7.45] Impact of module size on performance of renewable energy powered membrane system A.I. Schaefer*, A. Jeihanipour, J. Shen, B.S. Richards, Karlsruhe Institute of Technology (KIT), Germany

[O8.37] Reverse osmosis fouling during pilot-scale municipal water reuse: Evidence for aluminum coagulant carryover M.A. Sari, S. Chellam*, Texas A&M University, USA

2Technical University of Denmark, Denmark,

3University of Maribor, Slovenia

Institute of Energy Research (KIER), Republic of Korea,

3Korea District Heating Corporation (KDHC), Republic of Korea

at Austin, USA,

2Rutgers University, USA

11:05-11:30 [O1.46] Biocatalytically self-cleaning polymer membrane surfaces A. Schulze*, D. Breite, Y. Kim, M. Schmidt, I. Thomas, M. Went, K. Fischer, A. Prager, Leibniz Institute of Surface Modification, Germany

[O2.46] Membrane-based reactive-separation systems for co2 capture and utilization N. Entesari, Z. Li*, T. Tsotsis, University of Southern California, USA

[O3.46] Improving dehydrogenation conversion and selectivity by utilizing thermally stable membranes Y. Li*1, L. Schulte2, M. Rezac1, 1Kansas State University, USA, 2CMID Inc., USA

[O4.46] RED with natural waters: The role of divalent cations and how to mitigate their negative effects T. Rijnaarts*1 ,2, E. Huerta3, W. van Baak3, W.M. de Vos1, K. Nijmeijer4, 1Wetsus, The Netherlands,

2University of Twente, The Netherlands,

3FUJIFILM Manufacturing Europe, The Netherlands,

4Eindhoven University of Technology, The Netherlands

[O5.46] Multi-scale modeling of protein adsorption and fouling in ultrafiltration G. De Luca*1, F. Petrosino2, S. Curcio2, 1Institute on Membrane Technology, Italy,


[O6.46] Tuning polymer dopes to boost the performance of outer-selective thin-film composite (TFC) hollow fiber membranes for osmotic power generation Z.L. Cheng*1, X. Li2, Y. Feng1, C.F. Wan1, T.S. Chung1, 1National University of Singapore, Singapore, 2Wuhan University, China

[O7.46] Using green solvent, triethyl phosphate (TEP), to fabricate highly porous PVDF hollow fiber membranes for membrane distillation J. Chang*1, J. Zuo1 ,2, L. Zhang3, T.S. Chung1, 1National University of Singapore, Singapore,

2Singapore Institute of Technology, Singapore, 3Institute of High Performance Computing, Singapore

[O8.38] Nitric oxide-mediated biofouling control in reverse osmosis wastewater treatment H.S. Oh*1, F. Constancias1, C. Ramasamy1, T.P. Yi1, A.G. Fane1, D. Mcdougald1 ,2, S.A. Rice1, 1Nanyang Technological University, Singapore,

2University of Technology Sydney, Australia

11:30-11:55 [O1.47] Fabrication of high-performance biologically-inspired nanofiltration membranes for water treatment P. Wagh*, X. Zhang, Y. Wei, I. Escobar, University of Kentucky, USA

[O2.47] Pilot test results from a Polaris 1 MWe CO2 capture system R. Baker, C. Casillas, K. Chan, I. Huang, J. Kniep, T. Merkel*, V. Nguyen, Z. Sun, X. Wang, MTR, USA

[O3.47] Membrane reactor for continuous biocatalysis in water-in-oil Pickering emulsions A. Heyse*1, C. Plikat2, M. Ansorge-Schumacher2, A. Drews1, 1HTW Berlin-University of Applied Science,

[O4.47] Can capacitive deionization outcompete reverse osmosis in energy efficiency? L. Wang, S. Lin*, Vanderbilt University, USA

[O5.47] Numerical simulation of particle deposition phenomena on the patterned membrane surface S.Y. Jung*1, T.G. Kang2, K.H. Ahn1, S.J. Lee1, 1Seoul National University, Republic of Korea,

[O6.47] Optimizing operating parameters for minimum net energy consumption in a pilot-scale SWRO-PRO system G. O'Toole*, A. Achilli, Humboldt State University,

[O7.47] Construction of sulfonate polyelectrolyte complex nanoparticles and application as membranes Q.F. An*1 ,2, P.Y. Zheng2, C.C. Ye2, N.X. Wang1, 1Beijing Key Laboratory for

[O8.39] Membranes for microalgae filtration: Wastewater treatment and membrane fouling I.F.J. Vankelecom*, L. Marbelia, KU Leuven, Belgium

Germany, 2TU Dresden-University of Technology, Germany

2Korea Aerospace University, Republic of Korea

USA Green Catalysis and Separation, College of Environmental and Energy Engineering, Beijing University of Technology, China,

2MOE Key Laboratory of Macromolecular Synthesis and Functionalization, Department of Polymer Science & Engineering, Zhejiang University, China

11:55-12:20 [O1.48] Bio-inspired persudo-zwitterionic membranes design for advanced healthcare potentials Y. Chang, Chung Yuan Christian University, Taiwan

[O2.48] Pilot scale membrane efficiencies: CO2 separation and electrodialysis membranes in an electrochemical negative emissions technology C-F. de Lannoy*1 ,2, M. Eisenman4, A. Jose2, S. Karnitz3, R. DeVaul4, K. Cooper4, J. Rivest2, 1McMaster University, Canada,

2PARC, USA, 3Process Engineering Associates, USA, 4X, USA

[O3.48] Novel catalytic membrane prepared from PEK-C modified with a functionalized acidic ionic liquid Z.P. Zhao*, P. Lu, Beijing Institute of Technology, China

[O4.48] Transport of organic micropollutants through ion exchange membranes: Nernst-Planck approach M. Nowak*1 ,2, M. Vanoppen1, L. Gutiérez1, J. Post2, A.R.D. Verliefde1, 1Ghent University, Belgium,

2Wetsus, The Netherlands

[O5.48] Optimization of the porous support of an asymmetric oxygen transport membrane by numerical modelling U. Unije*, R. Mücke, F. Schulze-Küppers, S. Baumann, O. Guillon, Forschungszentrum Jülich GmBH, Germany

[O6.48] A pilot-scale module performance comparison in pressure-retarded osmosis M. Yasukawa*, R. Horie, M. Shibuya, M. Higa, Yamaguchi University, Japan

[O7.48] Crosslinking of polyurethane membranes for improved plasticization resistance for CO2 capturing A. Pournaghshband Isfahani*1 ,2, B. Ghalei2, E. Sivaniah2, M. Sadeghi1, 1Isfahan University of Technology, Iran,

2Kyoto University, Japan

[O8.40] Reversibility of particle deposition as affected by the applied pressure and particle elasticity N. Segev*, G.Z. Ramon, Technion - Israel Institute of Technology, Israel

12:20-13:30 Lunch

Rooms Grand Ballroom A Imperial A Continental 1-3 Yosemite A&B Grand Ballroom B Franciscan A&B Franciscan C&D Imperial B

13:30-15:10 Biomedical and Bioseparations

Biomimetic and Bioinspired Membranes 2




Modeling 2 Sustainable Membranes and Processes 2

Vapor Permeation/Pervaporation

13:30-13:55 [O1.49] Silk fibroin membranes for potential applications in controlled release Y. Huang*1 ,2, K. Bailey1, S. Wang2, X. Feng1, 1University of Waterloo, Canada,

2University of Toronto, Canada

[O2.49] Aquaporin (AQP)-based biomimetic membranes for water reuse and desalination: Current status and potential for commercialization R. Wang*, J. Torres, S.R. Qi, X.S. Li, W.X. Fang, Singapore Membrane Technology Centre, Nanyang Technological University, Singapore

[O3.49] Highly permeable and aging resistant 3D architecture from polymers of intrinsic microporosity incorporated with beta-cyclodextrin for natural gas separation J.T. Liu*, Y.C. Xiao, K.S. Liao, T.S. Chung, National University of Singapore, Singapore

[O4.49] Membrane-based reactive separations in power generation A. Garshasbi1, S. Karagöz2, H. Chen*1, M. Cao1, R.J. Ciora3, P.K. Liu3, V.I. Manousiouthakis2, T.T. Tsotsis1, 1University of Southern California, USA,

2University of California, USA,

3Media and Process Technology, Inc., USA

[O5.49] High IEC cation-exchange membranes based on polymer nanofiber electrospinning L. Dos Santos, D. Powers, R. Wycisk, P. Pintauro*, Vanderbilt University, USA

[O6.49] Advanced control system for batch membrane processes based on the boundary flux concept M. Stoller, University of Rome La Sapienza, Italy

[O7.49] Novel supported liquid membranes with liquid ionic as carrier for metal ions extraction L. Lebrun*1, E. Jean1, D. Villemin2, 1University of Rouen, France,

2ENSICAEN, France

[O8.41] Ultra-breathable carbon nanotube membranes N. Bui1, E. Meshot1, S. Kim1, J. Pena1, C. Chen1, P. Gibson2, K.J. Wu1, F. Fornasiero*1, 1Lawrence Livermore National Laboratory, USA, 2U.S. Army Natick Soldier Research, Development and Engineering Center, USA

13:55-14:20 [O1.50] Understanding virus adhesion to membrane surfaces: Towards recovery of “sticky” viruses from complex samples for detection H. Shi*1, I. Xagoraraki1, K.N. Parent1, M.L. Bruening2, V.V. Tarabara1, 1Michigan State University, USA, 2University of Notre Dame, USA

[O2.50] Biomimetic membrane cyclic pumping via electro-active membrane platforms B.J. Hinds, University of Washington, USA

[O3.50] Investigating the influence of lignite power plant exhaust gas on the separation properties of hybrid organosilica membranes P. Tchoua Ngamou*, K. Wilkner, M. Ivanova, W.A. Meulenberg, Forschungszentrum Jülich, Germany

[O4.50] Membrane biofouling control: Impact of bacterial quorum quenchers' density K.H. Choo*, T. Iqbal, N.A. Weerasekara, J.S. Park, Kyungpook National University, Republic of Korea

[O5.50] Poly(terphenylene) anion exchange membrane with molecular ordered structure W.H. Lee1, E.J. Park1, J. Han1, D.W. Shin1, Y.S. Kim2, C. Bae*1, 1Rensselaer Polytechnic Institute, USA, 2Los Alamos National Laboratory, USA

[O6.50] The porous media effect in the permeation of soft vesicles E. Benet, J. Pellegrino*, F.J. Vernerey, Univeristy of Colorado, USA

[O7.50] High performance facilitated transport composite membranes for real industrial olefin/paraffin separation R. Zarca, M. Fallanza, A. Ortiz*, D. Gorri, I. Ortiz, University of Cantabria, Spain

[O8.42] Nanopore tuning in lyotropic liquid crystal membrane materials for optimized water vapor transport and selective rejection of CWA simulants R.D. Noble*, D.L. Gin, S. Dischinger, G. Dwulet, University of Colorado, Boulder, USA

14:20-14:45 [O1.51] Virus filtration – effects of pore morphology and protein fouling F. Fallahianbijan*1, S. Giglia2, C. Carbrello2, A.

[O2.51] Biomimetic and bioinspired system membranes L. Giorno, National Research Council of Italy, Italy

[O3.51] Highly polar polymers based on poly(1,3-dioxolane) for membrane CO2/N2 separation J. Liu*1, H.B. Park2, H. Lin1, 1The State

[O4.51] Zeolite membrane reactor for water-gas shift: Mathematical modeling and experimental investigation

[O5.51] A new lateral method for characterizing the electrical conductivity of ion-exchange membranes

[O6.51] Shear stress induced by spherical cap bubble rising in Newtonian and non-Newtonian liquids in immersed

[O7.51] Olefin gas separations using facilitated transport polymeric membranes J.R. Klaehn*1, C.J. Orme1, A.D. Wilson1,

[O8.43] Highly selective polybenzimidazole based mixed matrix membranes for water vapor transport F.H. Akhtar*, M.

Zydney1, 1Pennsylvania State University, USA, 2EMD Millipore Corporation, USA

University of New York, USA, 2Hanyang University, Republic of Korea

L. Meng*, J. Lin, Arizona State University, USA

Y. Sedkaoui1 ,2, A. Szymczyk*1, H. Lounici2, O. Arous3, 1Université de Rennes 1, France,

2National Polytechnic School of Algiers, Algeria,

3Université des Sciences et de la Technologie Houari Boumediene, Algeria

hollow fiber membrane systems E. Radaei, X. Liu*, Y. Wang, G. Leslie, F. Trujillo, University of New South Wales, Australia

S. Majumdar2, 1Idaho National Laboratory, USA, 2Compact Membrane Systems, USA

Kumar, L.F. Villalobos, K.V. Peinemann, King Abdullah University of Science and Technology (KAUST), Saudi Arabia

14:45-15:10 [O1.52] Sulfated cellulose membrane adsorbers as a platform technology for purification of cell culture-derived influenza virus particles A.R. Fortuna*1, S.B. Carvalho2 ,3, S. van Teeffelen1, F. Taft4, L. Villain4, C. Peixoto2 ,3, M.J.T. Carrondo2 ,5, M.W. Wolff1 ,6, U. Reichl1

,7, 1Max Planck Institute for Dynamics of Complex Technical Systems, Germany,

2iBET - Instituto de Biologia Experimental e Tecnológica, Portugal, 3Instituto de Tecnologia Quimica e Biológica António Xavier, Universidade Nova de Lisboa, Portugal,

[O2.52] Lipid-filled nanoporous composite membranes for selective permeation B.L. Knutson*, S.E. Rankin, S. Zhou, University of Kentucky, USA

[O3.52] Parallel production of methane and food grade CO2 from biogas: A case study E. Esposito1, J.C. Jansen*1, L. Lumassi2, L. Dellamuzia2, U. Moretti2, L. Giorno1, 1Institute on Membrane Technology, Italy,

2Tecno Project Industriale Srl, Italy

[O4.52] The development of membrane process without blower using combination of high peeling strength membrane and LENA process H.C. Jung1, H.W. Moon1, Y.C. Shin1, W.Y. Lee2, H.K. Roh2, K.Y. Park1, K.J. Lee*1, 1Kolon Industries, Republic of Korea, 2Doosan Heavy Industries & Construction, Republic of Korea

[O5.52] Temperature-stable anion-exchange materials from cyclopolymerization of quaternary ammonium halides M. Rashid1, C.M. Bell2, K. Schlenstedt1, J. Meier-Haack*1, 1Leibniz Institute of Polymer Research Dresden, Germany,

2Reutlingen University, Germany

[O6.52] An Enhanced Agent Based Model of the Photocatalytic Hydrogen Production Reaction R. V L Canseco*1, R. D Leon1, V. Pearl Bangolan1, J. Yap1, S. Curcio2, S. Chakraborty1, 1University of the Philippines, The Philippines,


[O7.52] Using a bio-derived solvent to cast polysulfone ultrafiltration membranes X. Dong*, S. Chede, I.C. Escobar, University of Kentucky, USA

[O8.44] Fabrication of large-area graphene oxide framework membrane for acetic acid dehydration R.L.G. Lecaros*1, G.E.J. Mendoza2, A.R. Caparanga2, W.S. Hung1, C.C. Hu1, K.R. Lee1, J.Y. Lai1, 1Chung Yuan University, Taiwan,

2Mapúa Institute of Technology, The Philippines

4Sartorius Stedim Biotech GmbH, Germany,

5Universidade Nova de Lisboa, Portugal,

6University of Applied Sciences Mittelhessen, Germany, 7Otto-von-Guericke University Magdeburg, Germany

15:10-15:40 Coffee Break Yosemite/Franciscan/Imperial

Rooms Grand Ballroom A Imperial A Continental 1-3 Yosemite A&B Grand Ballroom B Franciscan A&B Franciscan C&D Imperial B

15:40-17:20 Biomedical and Bioseparations

Biomimetic and Bioinspired Membranes 2




Modeling 2 Sustainable Membranes and Processes 2

Vapor Permeation/Pervaporation

15:40-16:05 [O1.53] Smartphone enabled carbon nanotube membranes for enhanced nicotine addiction treatment G. Gulati, L. Berger, B. Goodall, B.J. Hinds*, University of Washington, USA

[O2.53] Membranes with functional nanopores from the assembly of random copolymer micelles A. Asatekin, Tufts University, USA

[O3.53] High flux TR hollow fiber membrane modules for CO2 capture J.M. Lee, J.S. Kim, H.J. Jo, J.G. Seong, Y.M. Lee*, Hanyang University, Republic of Korea

[O4.53] Design and optimization of catalytic membrane reactors for hydrogen delivery from ammonia decomposition S.B. Lundin*, S. Madachy, T.F. Fuerst, S. Liguori, C.A. Wolden, J.D. Way, Colorado School of Mines, USA

[O5.53] Highly durable spirobifluorene-based aromatic anion exchange membrane for alkaline fuel cell application S. Miyanishi*1 ,2, H. Kuroki3, T. Yamaguchi1

,2, 1Tokyo Institute of Technology, Japan, 2Japan Science and Technology CREST, Japan, 3Kanagawa Academy of Science and Technology, Japan

[O6.53] Microporous vs dense materials for membrane distillation process: A critical analysis D. Mejia*, E. Favre, C. Castel, C. Lemaitre, Laboratoire Réactions et Génie de Procédés, France

[O7.53] Aerosol-assisted plasma synthesis of ultra-thin composite membranes for solvent separation X. Chen1, Z. Chen1, C. Laporto2, R. d'Agostino2, K. Magniez1, X. Dai1 ,3, F. Palumbo1, L. Dumee*1, 1Deakin University, Australia,

2University of Bari, Italy, 3CNR, Italy

[O8.45] Simultaneous measurement of mass and heat transfers in transient state for pervaporation process S-A. Toudji, J-P. Bonnet, J-L. Gardarein, E. Carretier*, Aix Marseille Université, France

16:05-16:30 [O1.54] Membrane-based, simple filtration device for rapid separation of

[O2.54] Artificial water channels as simple tools for biomimetic membranes

[O3.54] CO2 capture from gasification streams with proteusTM and polarisTM

[O4.54] Chemically-enhanced phosphorus removal and

[O5.54] The ion exchange composite membranes with

[O6.54] Numerical study on the formation mechanism of ultrafiltration

[O7.54] +Flux a new approach in beer membrane filtration H.J. Everts*, E. van

[O8.46] Development of new and high flux polymeric PERVAP membranes for

biological particles from complex matrices M. Liou1, J. Lee2, P. Naraghi-Arani3, J. Pena1, S. Kim*2, 1University of Illinois, USA,

2Lawrence Livermore National Laboratory, USA,

3InSiliXa, Inc., USA

I. Kocsis*, Y-M. Legrand, M. Barboiu, European Membrane Institute, France

membranes: Update on field test demonstrations R. Baker1, J. Kniep*1, T. Merkel1, V. Nguyen1, Z. Sun1, J. Tan1, B. Watson1, E. Westling1, T. Carlisle2, 1Membrane Technology and Research, USA,

2Oregon State University, USA

biologically-enhanced phosphorus recovery with a ceramic membrane bioreactor in municipal wastewater treatment R.H. Li*, X.Y. Li, The University of Hong Kong, Hong Kong

inorganic particles for fuel cell application T.Y. Son*1, D.J. Kim1, Y.T. Hong2, S.Y. Nam1, 1Gyeongsang National University, Republic of Korea,

2KRICT, Republic of Korea

polymeric membranes produced by the NIPS method K. Yano*, K. Yoshimoto, T. Taniguchi, M. Ohshima, Kyoto University, Japan

Mastrigt, R. Folz, Pentair X-Flow, The Netherlands

pervaporation W. Yave*, L. Leva, DeltaMem AG, Switzerland

16:30-16:55 [O1.55] The architecture of responsive polymeric ligands on protein binding and recovery X. Qian*, Z. Liu, S.R. Wickramasinghe, University of Arkansas, USA

[O2.55] Magnetic-responsive membranes for the control of solute mass transport and protein-surface interactions A.C. Manjua1 ,2, C.I. Daniel1, C.A.M. Portugal*1, J.G. Crespo1, 1FCT-Universidade Nova de Lisboa, Portugal,

2IST-Universidade de Lisboa, Portugal

[O3.55] Development of CO2 selective poly(ethylene oxide) based membranes: From laboratory to pilot plant scale T. Brinkmann, J. Lillepärg, H. Notzke, J. Pohlmann, S. Shishatskiy, J. Wind*, T. Wolff, Helmholtz-Zentrum Geesthacht, Germany

[O4.55] Production of dimethyl ether from CO2 and H2 using a catalytic membrane reactor N.B. Klinghoffer*1, S. Li1, M. Yu3, X. Liang2, 1Gas Technology Institute, USA,

2Missouri University of Science and Technology, USA,

3University of South Carolina, USA

[O5.55] Novel proton exchange membranes based on a benzothiadiazole unit with multiply introduced sulphonic acids S. Amari*1, S. Ando2

,1, T. Yamaguchi1

,2, 1Tokyo Institute of Technology, Japan, 2Kanagawa Academy of Science and Technology, Japan

[O6.55] Numerical and experimental study on a crossflow filtration module based on chaotic advection T.G. Kang*1, S.Y. Jung2, K.H. Ahn2, K.T. Park3, S.U. Kim3, 1Korea Aerospace University, Republic of Korea, 2Seoul National University, Republic of Korea,

3BKT Co. Inc., Republic of Korea

[O7.55] GOHAL!: Sustainable membranes for alcohol dehydration V. Boffa*1, P.E. Mallon2, G. Magnacca3, 1Aalborg University, Denmark,

2University of Stellenbosch, South Africa, 3Universitá di Torino, Italy

[O8.47] Drying solvents and specialty chemicals by pervaporation D. Campos, E. Sohodski, S. Nemser, S. Majumdar*, Compact Membrane Systems, USA

16:55-17:20 [O1.56] Novel reverse electrodialysis biofuel cell C. Smith, B. Rodgers, J.A. Hestekin, C.N. Hestekin*, University of Arkansas, USA

[O2.56] Preparation of interconnected biomimetic PVDF-CTFE hydrophobic membrane by the two-stage phase inversion strategy L.B. Zheng*, J. Wang, Z.J. Wu, Y.S. Wei, Research Center for Eco-

[O3.56] Amine-enhanced, ultrathin graphene oxide membranes on hollow fiber for highly efficient CO2 capture F. Zhou*, H. Tien, J. Chen, W. Xu, Q. Liu, E. Hicks, M. Fathizadeh, S. Li, M. Yu, University of

[O4.56] Novel membrane in IEMB treatment of groundwater highly contaminated with oxyanions P.J. Littman1, L. Farkas2, Y. Oren2, Z. Ronen2, J. Gilron*2, 1Mekorot Water Company, Israel, 2Ben Gurion

[O5.56] A novel cation exchange membrane based on crown-ether derivatives for the selective separation of monovalent cations S.S. Yang*1, Y.L. Jiang1, B.V. Bruggen2, J.N.

[O6.56] Water transport through nanotubes: The effects of roughness and hydrophilicity of tube wall W. Cao*1, L. Huang3, M. Ma1, L. Lu2, X. Lu2, 1Tsinghua University, China,

2Nanjing Tech

[O7.56] Advances in polymeric membrane preparation using sustainable and green solvents A. Figoli*1, T. Marino1, F. Galiano1, C. Ursino1, E. Di Nicolò2, 1ITM-CNR, Italy, 2Solvay

[O8.48] From low-pressure effusion to membrane distillation A.S. Kim*1, H.S. Lee2, D.S. Moon2, H.J. Kim2, 1University of Hawaii at Manoa, USA, 2Korea Research Institute of Ships & Ocean

Environmental Sciences, China

South Carolina, USA Univ., Israel Shen1, C.J. Gao1, 1Zhejiang University of Technology, China,

2KU Leuven, Belgium

University, China,

3University of Oklahoma, USA

Specialty Polymers, Italy

Engineering, Republic of Korea

18:30 Banquet Cruise

Friday, August 4th 2017

08:30-10:30 Plenary Session |Grand Ballroom B

08:30-09:30 [PL.01] Tailoring of membrane morphology and surface property- from fundamentals to applications J.Y. Lai, Chung Yuan University, Taiwan

09:30-10:30 [PL.02] Organic solvent nanofiltration: Enabling Molecular Separations in Organic Liquids A.G. Livingston, Imperial College London, UK

10:30-11:00 Coffee Break Grand Ballroom A

11:00-12:00 Plenary Session |Grand Ballroom B

11:00-12:00 [PL.03] Using fundamentals to pragmatically reach advanced membrane objectives: Our community’s charter W.J. Koros, Georgia Institute of Technology, USA

12:00-12:30 Closing Ceremony | Grand Ballroom B

EXHIBITOR COMPANY PROFILES · of L'Aquila, Italy induced hydrolyzation method for preparation of...

Documents

Transcript of EXHIBITOR COMPANY PROFILES · of L'Aquila, Italy induced hydrolyzation method for preparation of...