easp 2.41; proghtml 2.37 (C)1999-2015 kawase
Day 1 | |||||
|---|---|---|---|---|---|
| Time | Paper ID | Title / Authors | Keywords | Topic code | Ack. number |
| 学生賞・分離プロセス | |||||
| (10:00–12:00) (Chair: Hanada Nobuko) | |||||
| A101 | Development of acid stable silica based reverse osmosis membrane | silica based membrane reverse osmosis counter diffusion CVD | 4-a | 8 | |
| A102 | Influence of activation temperature on carbon membrane prepared by hydrothermal method for gas separation | activated carbon gas separation glucose | 4-a | 56 | |
| A103 | Effect of coexisting substances on De-ethanolation by MFI zeolite membrane | MFI zeolite membrane Japanese SAKE organic acid | 4-a | 9 | |
| A104 | Separation and recovery of gold from a waste mobile phone leachate with a polymer inclusion membrane | Polymer Inclusion Membrane Gold Recovery | 4-a | 65 | |
| A105 | Durability of radiation graft membrane for thermochemical hydrogen production | Hydrogen production cation exchange membrane Durability | 4-a | 13 | |
| A106 | Transport of critical metal ions using a polymer inclusion membrane and improvement of membrane stability | Polymer Inclusion Membrane Critical Metals Separation | 4-a | 60 | |
| A107 | Reverse osmosis separation with amine type silica membrane | counter diffusion CVD reverse osmosis 3-aminopropyl trimethoxysilane | 4-a | 31 | |
| A108 | Evaluation of micropore in carbon-deposited silicalite-1 by N2 adsorption | membrane separation carbon-deposition micropore volume | 4-a | 69 | |
| (13:00–15:15) (Chair: Sugime Hisashi) | |||||
| A111 | Development of silica hybrid membranes for HI separation | CVD silica membrane hydrogen separation | 4-a | 11 | |
| A112 | Analysis of regeneration heat for MDEA/PZ binary amine solution system with different mixture ratios in CO2 capture process | CO$2$ capture MDEA/PZ regeneration heat | 4-d | 20 | |
| A113 | Effect of addition of amine functionalized nanoparticles on CO2 chemical absorption | chemical absorption CO2 removal nanoparticles | 4-d | 74 | |
| A114 | The effects of gas and liquid flow rates on the physical absorption rate of oxygen in membrane-mediated microchannel (Graduate School of Sci. and Tech., Niigata U.) *Ikezoe Sho, | microchannel gas absorption physical absorption | 4-d | 50 | |
| A115 | Recovery of calcium citrate from nickel citrate plating wastewater | calcium citrate plating wastewater crystallization | 4-g | 95 | |
| A116 | Evaluation of the gap between particles in cake layer by electrokinetic phenomena | filtration electrokinetic phenomena streaming potential | 4-b | 78 | |
| A117 | Improvement of highly permeable MFI zeolite membrane by addition of KF | zeolite acetic acid MFI | 4-a | 16 | |
| A118 | Control of MSZW with purification of mother liquor | Crystallization Membrane Filter Particulate impurities | 4-g | 79 | |
| A119 | Improvement of permeability of silica composite membrane by counter diffusion CVD method | hydrocarbon CVD silica membrane | 4-a | 12 | |
Day 2 | |||||
| Time | Paper ID | Title / Authors | Keywords | Topic code | Ack. number |
| シンポジウムS-1 | |||||
| (9:00–10:20) (Chair: Noda Suguru) | |||||
| A201 | Proposal of sustainable environmental measures for bauxite mining in Pahang Malaysia | bauxite mining wastewater treatment sustainable development | S-1 | 58 | |
| A202 | Optimization of energy consumption and cost in solvent recovery section for large-scale biofuel production from microalgae | mechanical vapor recompression primary energy consumption cost estimation | S-1 | 43 | |
| A203 | Hydrogen generation by electrolysis of ammonia as hydrogen carrier | hydrogen carrier ammonia over voltage | S-1 | 24 | |
| A204 | [invited talk] Examples of how to proceed with developing technologies related to effective utilization of resources and energies aiming for social implementation | social implementation effective utilization of resources and energies | S-1 | 26 | |
| A206 | Rapid vapor deposition of crystalline silicon films for solar cells and technology assessment based on life cycle thinking | Solar cell Life cycle assessment | S-1 | 40 | |
| A207 | Electrochemical ammonia synthesis in electrolytic cells using solid-state phosphate-based electrolytes (Graduate School of Eng., U. Tokyo) *Kikuchi Ryuji, | Ammonia Electrolysis Intermediate Temperature | S-1 | 105 | |
| A208 | Evaluation of performance and costs of solid oxide fuel cells and technological scenario-making for widespread use in future society | Solid oxide fuel cell Techno-economic analysis Hydrogen production | S-1 | 107 | |
| A209 | Fluidized-bed production of long carbon nanotubes and their three-dimensional current collectors for rechargeable batteries | carbon nanotubes rechargeable batteries three-dimensional current collectors | S-1 | 112 | |
| シンポジウムS-2 | |||||
| (13:00–14:20) (Chair: Matsukata Masahiko) | |||||
| A213 | [Invited lecture]Development of CO2 separation and recovery technology toward low-carbon society | carbon dioxide separation and recovery low-carbon society | S-2 | 76 | |
| A215 | Sorption behavior of low concentration CO2 onto K2CO3/Na2CO3 honeycomb | honeycomb carbon dioxide carbonate | S-2 | 3 | |
| A216 | Development of methodology for in silico generation of atomic arrangement in zeolite by Metropolis method for screening of separation materials | Zeolite Computation Adsorbent | S-2 | 104 | |
| (14:20–15:20) (Chair: Nakagaki Takao) | |||||
| A217 | Design of silica hybrid membranes for sepration of hydrogen or hydrocarbons | Hydrocarbon separation counter diffusion CVD silica hybrid membrane | S-2 | 55 | |
| A218 | Hydrocarbon separation by zeolite membrane | zeolite membrane olefin hydrocarbon separation | S-2 | 68 | |
| A219 | Study on membrane reactor for methanol synthesis using zeolite membrane | Membrane reactor Methanol synthesis MFI zeolite | S-2 | 62 | |
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