The combination of separation and reaction is expected to be one of the key technologies for the process intensification to achieve avoidance of chemical equilibrium, improvement of reaction yield, resource-saving, compactness, and energy saving. This symposium invites leading researchers and calls for presentations to introduce the latest research for synergy between separation and reaction. Discussions on innovative technologies and future visions of the combined process of reaction and separation, which includes membrane, distillation, and phase separation, are welcome.
Most recent update: 2024-12-22 22:18:02
The keywords that frequently used in this topics code. | Keywords | Number | |
---|---|---|---|
Membrane reactor | 4 | ||
Ammonia decomposition | 2 | ||
Porous inorganic membranes | 1 |
ACKN No. | Title/Author(s) | Keywords | Style |
---|---|---|---|
18 | Reactive Distillation Column Simulation by RAKLE Method | Reactive Distillation Simulation Algorithm | O |
467 | Development of membrane reactor with a Ru-based catalyst for CO2 methanation at low temperature | CO2 methanation membrane reactor Ru/ZrO2 catalyst | O |
469 | Hydrogen production from ammonia decomposition using membrane reactor with a K-Ru/CeO2 spherical catalyst at low temperature | ammonia decomposition hydrogen production membrane reactor | O |
628 | Optimization of an ammonia decomposition membrane reactor using a high precision model | Membrane reactor Hydrogen generation Ammonia decomposition | O |
661 | [Invited lecture] Process Intensification with Membranes: Membrane Development and Application to Membrane Reactor | Process intensification Membrane reactor Porous inorganic membranes | O |
914 | Effect of zeolite dehydration membrane in Fischer-Tropsch synthesis using CO2 | ZSM-5 Dehydration Fischer-Tropsch | O |
Organizing Committee of SCEJ 55th Autumn Meeting (2024)
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