easp 2.32; proghtml 2.33 (C)1999-2013 kawase
Day 1 | |||||
|---|---|---|---|---|---|
| Time | Paper ID | Title / Autors | Keywords | Topic code | Ack. number |
| Symposium <Recent progress on development of energy-saving distillation technologies for practical applications> | |||||
| (10:00–11:00) ( Matsuda K., Suzuki Y.) | |||||
| M104 | Energy saving distillation by using salt effect | energy saving distillation salt effect | S-41 | 912 | |
| M105 | Separation characteristics of distillation / membrane hybrid process relating to membrane performance | Hybrid distillation process Membrane separation Vapor permeation | S-41 | 747 | |
| M106 | Number of Theoretical Stages of Energy Saving Distillation Processes | modified Petlyuk process DWC energy saving | S-41 | 236 | |
| (11:00–12:00) ( Mori H., Wakabayashi T.) | |||||
| M107 | Dynamic simulation of dividing wall column | Dividing wall column Process dynamics Operability | S-41 | 298 | |
| M108 | Actual proof study by a standard-type HIDiC bench plant for enriching process of bio-ethanol | Bio-ethanol HIDiC distillation Energy saving | S-41 | 14 | |
| M109 | Actual proof study by a compressor-free HIDiC bench plant for enriching process of bio-ethanol | Bio-ethanol HIDiC distillation Energy saving | S-41 | 15 | |
| Symposium <Recent progress on the batch type heat-integrated distillation symposium <Invited presentations only>> | |||||
| (13:00–13:40) ( Suzuki Y.) | |||||
| M113 | [Keynote Lecture] The Intensifying of Distillation Technology via Poress Integration | Distillation Integration Energy-saving | S-42 | 243 | |
| (13:40–15:00) ( Matsuda K.) | |||||
| M115 | [Keynote Lecture] Development of Internal Heat-Integrated Batch Distillation Column | Batch distillation Heat-integration Energy saving | S-42 | 283 | |
| M117 | [Keynote Lecture] Hybrid adsorption-distillation system for a batch separation process | adsorption batch distillation hybrid | S-42 | 806 | |
| (15:00–15:40) ( Endo A.) | |||||
| M119 | [Invited Lecture] Development of energy-saving technology by hybridization of distillation and membrane | membrane energy saving separation | S-42 | 813 | |
Day 2 | |||||
| Time | Paper ID | Title / Autors | Keywords | Topic code | Ack. number |
| Symposium <The session of the membrane technologies in the industrial application 2013 <Invited presentations only>> | |||||
| (11:00–12:00) ( Matsuyama H., Shintani T.) | |||||
| M207 | Application of membrane water treatment technology in China | Membrane Water treatment application | S-47 | 22 | |
| M208 | Cellulose Acetate Hollow Fiber UF Membrane for Water Treatment | Cellulose Acetate Membrane Water Treatment | S-47 | 34 | |
| M209 | New Single Layer Large Diameter-type UF membrane and its filtration property | membrane waste water treatment in-to-out filtration | S-47 | 462 | |
| (13:00–15:00) ( Matsukata M., Mimura K.) | |||||
| M213 | Applicationof MBR and MBR-RO for industrial waste water treatment | MBR RO membrane | S-47 | 939 | |
| M214 | Innovative design concept for spiral wound element -LD TechnologyTM- | Reverse Osmosis Biofouling Spiral wound element | S-47 | 220 | |
| M215 | Advanced Technology for Stabilizing RO Membrane Performance | Reverse osmosis Chemical durability Low-fouling | S-47 | 485 | |
| M216 | CFD simulation of both open-ended hollow-fiber reverse osmosis module | CFD Hollow Fiber Reverse Osmosis | S-47 | 25 | |
| M217 | Practical applications of zeolite membrane | S-47 | 1019 | ||
| M218 | Permselectivities of high-silica CHA-type zeolite (MSM-1) membrane | S-47 | 1020 | ||
| Communication time | |||||
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