Day 1 | |||||
---|---|---|---|---|---|
Time | Paper ID | Title / Authors | Keywords | Topic code | Ack. number |
Separation processes | |||||
(14:00–15:20) ( Ichimura Shigetoshi) | |||||
G116 | Dehydration of carboxylic acids using a SPPO carbon membrane and its application to esterification | Carbon membrane Pervaporation Esterification | 4-a | 565 | |
G117 | Intensification of Cross Flow Filtration Processes with Oscillatory Baffled Membrane Module | Oscillatory baffled flow Membrane fouling Filtration module | 4-a | 570 | |
G118 | Optimization of operating conditions for a PRO power generation system with a hollow fiber membrane module | PRO membrane module hollow fiber | 4-a | 668 | |
G119 | Fabrication of polymeric ion-gel films containing an amino acid ionic liquid for CO2 separation | Facilitated transport membrane Ionic liquid Gel | 4-a | 717 | |
Break | |||||
(15:40–16:40) ( Yoshimune Miki) | |||||
G121 | Phase-field simulation of polymer membrane formation via thermally induced phase separation | Polymer membrane Phase-field method Thermally induced phase separation | 4-a | 733 | |
G122 | Coordination of phase field method and direct numerical simulation and its application to permeation of particle dispersion through membrane pore | Microfiltration Direct numerical simulation Phase field method | 4-a | 649 | |
G123 | Effect of fine bubble on membrane fouling reduction and relevance of water quality | Fine Bubble Membrane Fouling | 4-a | 628 | |
Day 2 | |||||
Time | Paper ID | Title / Authors | Keywords | Topic code | Ack. number |
Chemical Industry Technology Forum -(Impact to the chemical industries which diversity of raw materials and energy source including shale gas bring about)- | |||||
(13:00–17:00) ( KOSUGE Michitaka) | |||||
G213 | [Invited lecture]Strategy of Japanese company for Shale gas revolution (Toray Corporate Business Research,Inc) Fukuda Yoshiyuki | shale gas natural gas chemical industry | F-5 | 672 | |
G217 | [Requested talk]Supply and Demand of Energy and Raw Material | oil natural gas liquefied gas | F-5 | 685 | |
G219 | [Requested talk]Development of shale gas and shale oil, ability of propylene production and its future | shale gas shale oil propylene | F-5 | 693 | |
G220 | [Requested talk] Corporate capital investment and Energy supply and demand | energy supply and demand capital investment engineering | F-5 | 858 | |
G222 | Discussion | discussion chemical industry petrochemical technology | F-5 | 699 | |
Day 3 | |||||
Time | Paper ID | Title / Authors | Keywords | Topic code | Ack. number |
Separation processes | |||||
(9:00–10:20) ( Haraya Kenji) | |||||
G301 | Roles of Physicochemical Properties of "Nano-Platform of Membrane" in Asymmetric Recognition Function of Liposome | Membranome Chiral recognition Membrane characterization | 4-a | 590 | |
G302 | Fabrication of biomimetic water treatment membranes using lipid bilayer and gramicidin A | lipid bilayer gramicidin a water treatment membrane | 4-a | 643 | |
G303 | Fouling Behavior in support layer of forward osmosis membrane | Forward Osmosis Membrane fouling AL-DS orientation | 4-a | 645 | |
G304 | Effect of surface treatment conditions by 2-methacryloyloxyethyl phosphorylcholine (MPC) polymer on membrane performances | 2-methacryloyloxyethyl phosphorylcholine polymer fouling ceramic membrane | 4-a | 812 | |
Break | |||||
(10:40–12:00) ( Hagio Takeshi) | |||||
G306 | Hydrophilic modification of the outer surface of hollow-fiber membranes using dip-coating and vapor-induced phase separation | hydrophilic modification vapor induced phase separation (VIPS) fouling | 4-a | 551 | |
G307 | Hydrocarbon separation properties of silicalite-1 membrane under pressurized conditions | Silicalite-1 Membrane separation Pressurized conditions | 4-a | 517 | |
G308 | Current status of development of zeolite membrane for IPA dehydration | Zeolite membrane Dehydration Isopropyl achohol | 4-a | 654 | |
G309 | Deveopment of structural characterization using adsorption for zeolite membrane | zeolite membrane structure adsorption | 4-a | 658 | |
Lunch break | |||||
(13:00–15:00) ( Nomura Mikihiro, Seshimo Masahiro) | |||||
G313 | DDR-type zeolite element developed on multichanneled support having large membrane area of 12m2 (NCM Project, Corporate R&D, NGK Insulators, LTD.) Yajima Kenji, | membrane zeolite separation | 4-a | 51 | |
G314 | Application of DDR-type zeolite membranes for dehydration from organic solvent/water mixtures (NCM Project, Corporate R&D, NGK Insulators, LTD.) Hagio Takeshi, | membrane zeolite separation | 4-a | 50 | |
G315 | Thickness Reduction of the Zeolitic Imidazolate Framework-8 membrane for the improvement of the propylene permeance (Nat. Inst. Advanced Industrial Sci. and Tech.(AIST)) Hara Nobuo, | Gas separation membrane Zeolitic imidazolate framework-8 Propylene/propane separation | 4-a | 336 | |
G316 | Preparation and gas permeation properties of thermally stable organosilica membranes derived by hydrosilylation | Organosilica membranes Thermal stability Hydrosilylation | 4-a | 448 | |
G317 | Analysis of gas permeation through porous organosilica membranes based on the modified gas translation model | gas separation membrane hybrid silica membrane modified gas translational model | 4-a | 712 | |
G318 | Study on structures of organic group modified silica membranes and CO2 separation properties | molecular dynamics aminopropyl group CO2 separation | 4-a | 809 |