| Mo_S2 |
Monday, June 29th |
11:10-13:10 |
Chairmen: Theodore Tsotsis / José Sanchez |
| Session 2 |
| |
Reference |
Name |
First Name |
Topic |
Title |
| 11:10-11:40 |
S2-K |
HEDLUND |
Jonas |
3. Modeling and simulation of CMRs |
Membrane processes for effective methanol synthesis in the forest based biorefinery |
| 11:40-12:00 |
S2-O1 |
MA |
Yi Hua |
3. Modeling and simulation of CMRs |
Palladium Membrane Reactor for Water Gas Shift Reaction |
| 12:00-12:20 |
S2-O2 |
MENDES |
Diogo |
3. Modeling and simulation of CMRs |
Hydrogen from ethanol steam reforming by membrane processes: process design and energetic optimisation |
| 12:20-12:40 |
S2-O3 |
BLOND |
Eric |
3. Modeling and simulation of CMRs |
Exploitation process effects on the lifespan of CMR for oxygen separation |
| 12:40-13:10 |
S2-P1 |
BORIO |
Daniel |
3. Modeling and simulation of CMRs |
Effect of flow configuration on the membrane reactor behaviour operating without sweep gas. |
| S2-P2 |
BINIWALE |
Rajesh |
3. Modeling and simulation of CMRs |
Grand Canonical Monte Carlo simulation studies for comparison of CO2 adsorption on various zeolites |
| S2-P3 |
GOSIEWSKI |
Krzysztof |
3. Modeling and simulation of CMRs |
Mathematical model of WGS membrane reactor for gas from coal gasification |
| S2-P4 |
HARA |
Shigeki |
3. Modeling and simulation of CMRs |
Limit conversion dependent on hydrogen permeation property of the metal membrane in a methane-steam-reforming membrane reactor |
| S2-P5 |
MILNE |
David |
3. Modeling and simulation of CMRs |
The Oxidative Dehydrogenation of n-Butane : Maximising the Yields of Butenes and Butadiene from a Differential Side-Stream Reactor |
| S2-P6 |
PERA-TITUS |
Marc |
3. Modeling and simulation of CMRs |
Technical and economical feasibility of zeolite NaA membrane-based reactors in liquid-phase etherification reactions |
| S2-P7 |
BORIO |
Daniel |
3. Modeling and simulation of CMRs |
Influence of the oxygen feed distribution on the performance of a catalytic reactor for ATR of methane |
| S2-P8 |
SÁ |
Sandra |
3. Modeling and simulation of CMRs |
Methanol steam reforming in a bi-catalytic membrane reactor for producing PEMFC grade hydrogen |
| S2-P9 |
TEIXEIRA |
Miguel |
3. Modeling and simulation of CMRs |
Modeling a Composite Catalytic Membrane Reactor for Propylene Stream Purification |
| Mo_S3 |
Monday, June 29th |
14:30-16:45 |
Chairmen: David Farrusseng / Juergen Caro |
| Session 3 |
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Reference |
Name |
First Name |
Topic |
Title |
| 14:30-14:50 |
S3-O1 |
GALUSZKA |
Jan |
1.1 CMRs applied to chemical synthesis |
Catalytic dehydrogenation of ethane in hydrogen membrane reactor |
| 14:50-15:10 |
S3-O2 |
GOLDBACH |
Andreas |
1.1 CMRs applied to chemical synthesis |
H2O2 synthesis over PdAu membranes |
| 15:10-15:30 |
S3-O3 |
OLIVIER |
Louis |
1.1 CMRs applied to chemical synthesis |
Oxidative coupling of methane in a new composite membrane reactor |
| 15:30-15:50 |
S3-O4 |
PASHKOVA |
Aneta |
1.1 CMRs applied to chemical synthesis |
Hydrogen peroxide direct synthesis in a catalytic membrane contactor - process optimisation |
| 15:50-16:20 |
S3-P1 |
ERNST |
Barbara |
1.1 CMRs applied to chemical synthesis |
High resistance to coking of a hydrogen selective nickel membrane implemented in a membrane reactor for the catalytic dehydrogenation of propane |
| S3-P2 |
ISHII |
Masayuki |
1.1 CMRs applied to chemical synthesis |
Multi-tube type of catalytic palladium membrane for efficient direct phenol synthesis form benzene |
| S3-P3 |
PERA-TITUS |
Marc |
1.1 CMRs applied to chemical synthesis |
Nanocomposite MFI-ceramic hollow fibres: preparation and application to the separation of xylene isomer mixtures |
| S3-P4 |
KERAANI |
Adel |
1.1 CMRs applied to chemical synthesis |
Immobilisation of modified Grubbs-Hoveyda catalyst on supported ionic liquid membrane: an innovative approach for metathesis reaction in catalytic membrane reactor |
| S3-P5 |
SATO |
Koichi |
1.1 CMRs applied to chemical synthesis |
Palladium based bi-functional membrane reator for one-step conversion of benzene to phenol and cyclohexanone |
| S3-P6 |
SKUDIN |
Valery |
1.1 CMRs applied to chemical synthesis |
Catalytic membranes for propane dehydrogenation |
| S3-P7 |
VEDYAGIN |
Alex |
1.1 CMRs applied to chemical synthesis |
Oxidative dehydrogenation of propane over V/MgO: aerogel technique versus membrane reactor |
| S3-P8 |
YEUNG |
King Lun |
1.1 CMRs applied to chemical synthesis |
Pd-silicalite-1 composite membrane reactor for direct hydroxilation to phenol |
| S3-P9 |
YEUNG |
King Lun |
1.1 CMRs applied to chemical synthesis |
Catalytic properties of benzene and phenol hydroxilation by TS-1 membrane reactor and Pd-TS-1 composite membrane reactor |
| 16:20-16:40 |
S3-P10 |
ALAME |
Mohamad |
1.2 CMRs applied to environmental issues |
High-performance wet air oxidation (WAO) of organic pollutants using a catalytic membrane reactor |
| S3-P11 |
BINIWALE |
Rajesh |
1.2 CMRs applied to environmental issues |
Tubular membrane reactor for enrichment of CH4 using functionalized zeolitic membranes |
| S3-P12 |
DOTZAUER |
David |
1.2 CMRs applied to environmental issues |
Catalytic Wet Air Oxidation with Tubular Ceramic Membranes Containing Polyelectrolyte/Pt Nanoparticle Films |
| S3-P13 |
MALLADA |
Reyes |
1.2 CMRs applied to environmental issues |
Preparation of amine modified MCM -48 tubular membranes for the separation of CO2/N2 mixtures |
| S3-P14 |
KUMAKIRI |
Izumi |
1.2 CMRs applied to environmental issues |
Application of a photo-catalytic membrane reactor for potable water treatment |
| S3-P15 |
JULBE |
Anne |
1.2 CMRs applied to environmental issues |
Ni-MFI membranes by MW-assisted synthesis |
Mo_S4
|
Monday, June 29th
|
17:00-18:30
|
Chairmen: Jan Galuszka / Anne Giroir-Fendler
|
|
| Session 4 |
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| |
Reference |
Name |
First Name |
Topic |
Title |
| 17:00-17:30 |
S4-K |
KAPTEIJN |
Freek |
2. Membranes for CMRs |
A DD3R zeolite membrane reactor in alkane dehydrogenation and water gas shift reactions |
| 17:30-17:50 |
S4-O1 |
RIHKO-STRUCKMANN |
Liisa |
3. Modeling and simulation of CMRs |
Solid Electrolyte Membrane Reactor for the Oxidative Dehydrogenation of Ethane: Experiments and Modeling |
| 17:50-18:10 |
S4-O2 |
WOLF |
Eduardo |
1.1 CMRs applied to chemical synthesis |
The catalytic partial oxidation of propane to acrolein in a novel dual bed inert membrane reactor |
| 18:10-18:30 |
S4-O3 |
KAPTEIJN |
Freek |
1.1 CMRs applied to chemical synthesis |
Application of a Hydroxy Sodalite Membrane Reactor in Esterification: A Case of Integrating Reaction and Separation |