Chemical Reaction Engineering
toward Carbon-Neutral Future
ISCRE29 & APCRE11
10-13 May, 2026
Republic of Korea
Oral Program
Sunday 10 May, 2026
PL/KN events may span all rooms. Parallel oral sessions are E1–E7.
Sunday 10 May, 2026
PL/KN events may span all rooms. Parallel oral sessions are E1–E7.
Oral Presentation Guidelines
- There is no template file for oral presentations.
- Presentation materials (PDF or PPT format supported) can be saved on a PC in the session room.
- Personal laptops might be permitted, but you must provide your own adapter and other necessary equipment. Please ensure compatibility and proper operation are verified before the session begins. We recommend that you carry the file separately on a USB just in case.
- It is the presenter's responsibility to ensure that all slides, fonts, and embedded media in your PDF or PPT file display correctly. Please arrive at the session room computer at least 15 minutes before your session begins to verify your presentation.
| Time | Room E1 | Room E2 | Room E3 | Room E4 | Room E5 | Room E6 | Room E7 |
|---|---|---|---|---|---|---|---|
| 17:00 | Plenary 1 PL0393 Advanced Model-based Reaction Engineering for Circular Economy Dr. Sang Phil Han | ||||||
Session & Code
| Session | Sub-session | Code |
|---|---|---|
| 1. Reaction Mechanism and Kinetics | 1-1. Reaction Mechanism and Kinetics - Fundamental | MKF |
| 1-2. Reaction Mechanism and Kinetics - Polymerization | MKP | |
| 1-3. Reaction Mechanism and Kinetics - Computational | MKC | |
| 2. Reactor Modeling and Design | 2-1. Reactor Design - Fundamental | DFN |
| 2-2. Reactor Design - Fluidization/Multiphase Flow Reactors | DFL | |
| 2-3. Reactor Design - Plasma | DPL | |
| 2-4. Reactor Design - Membrane reactor | DMB | |
| 2-5. Reactor Design - Electrochemical Reactors | DER | |
| 2-6. Reactor Design - Polymerization Reactors | DPR | |
| 2-7. Reactor Design - Novel Reactors | DNR | |
| 3. Process Intensification | 3. Process Intensification / TEA / LCA | PTL |
| 4. Heterogeneous/Homogeneous Catalysis | 4-1. Heterogeneous Catalysis - Thermal | HTT |
| 4-2. Heterogeneous Catalysis - Photochemical | HTP | |
| 4-3. Heterogeneous Catalysis - Electrochemical | HTE | |
| 4-4. Homogenous Catalysis | HMC | |
| 5. Hydrogen | 5-1. Hydrogen Production | HYP |
| 5-2. Hydrogen Storage (LOHC, NH3, MeOH etc) | HYS | |
| 5-3. Hydrogen Transportation | HYT | |
| 6. Net-zero CO2 Technologies | 6-1. Net-zero CO2 Technologies - CO2 Capture | CDC |
| 6-2. Net-zero CO2 Technologies - CO2 Utilization | CDU | |
| 6-3. Net-zero CO2 Technologies - CO2 Storage | CDS | |
| 7. Environmentaly-friendly and Sustainable Chemicals | 7-1. Sustainable Chemicals - Materials (Zeolite, MOF etc) | SCM |
| 7-2. Sustainable Chemicals - Biomass | SCB | |
| 7-3. Sustainable Chemicals - Waste Valorization | SCW | |
| 8. Clean Environmental Technologies | 8. Clean Environmental Technologies | CET |
Room E1
Room E1
17:00
Plenary 1 PL0393
Advanced Model-based Reaction Engineering for Circular Economy
Dr. Sang Phil Han
Room E2
Room E2
17:00
Plenary 1 PL0393
Advanced Model-based Reaction Engineering for Circular Economy
Dr. Sang Phil Han
Room E3
Room E3
17:00
Plenary 1 PL0393
Advanced Model-based Reaction Engineering for Circular Economy
Dr. Sang Phil Han
Room E4
Room E4
17:00
Plenary 1 PL0393
Advanced Model-based Reaction Engineering for Circular Economy
Dr. Sang Phil Han
Room E5
Room E5
17:00
Plenary 1 PL0393
Advanced Model-based Reaction Engineering for Circular Economy
Dr. Sang Phil Han
Room E6
Room E6
17:00
Plenary 1 PL0393
Advanced Model-based Reaction Engineering for Circular Economy
Dr. Sang Phil Han
Room E7
Room E7
17:00
Plenary 1 PL0393
Advanced Model-based Reaction Engineering for Circular Economy
Dr. Sang Phil Han
Session & Code
1. Reaction Mechanism and Kinetics
MK1-1. Reaction Mechanism and Kinetics - Fundamental
1-2. Reaction Mechanism and Kinetics - Polymerization
1-3. Reaction Mechanism and Kinetics - Computational
2. Reactor Modeling and Design
DF2-1. Reactor Design - Fundamental
2-2. Reactor Design - Fluidization/Multiphase Flow Reactors
2-3. Reactor Design - Plasma
2-4. Reactor Design - Membrane reactor
2-5. Reactor Design - Electrochemical Reactors
2-6. Reactor Design - Polymerization Reactors
2-7. Reactor Design - Novel Reactors
3. Process Intensification
PT3. Process Intensification / TEA / LCA
4. Heterogeneous/Homogeneous Catalysis
HT4-1. Heterogeneous Catalysis - Thermal
4-2. Heterogeneous Catalysis - Photochemical
4-3. Heterogeneous Catalysis - Electrochemical
4-4. Homogenous Catalysis
5. Hydrogen
HY5-1. Hydrogen Production
5-2. Hydrogen Storage (LOHC, NH3, MeOH etc)
5-3. Hydrogen Transportation
6. Net-zero CO2 Technologies
CD6-1. Net-zero CO2 Technologies - CO2 Capture
6-2. Net-zero CO2 Technologies - CO2 Utilization
6-3. Net-zero CO2 Technologies - CO2 Storage
7. Environmentaly-friendly and Sustainable Chemicals
SC7-1. Sustainable Chemicals - Materials (Zeolite, MOF etc)
7-2. Sustainable Chemicals - Biomass
7-3. Sustainable Chemicals - Waste Valorization
8. Clean Environmental Technologies
CE8. Clean Environmental Technologies