TOPICS of ESCRE 2027
ESCRE 2027 will take a series of presentation and discussion in invited plenary lectures, lecture presentations and poster sessions.
1. Reaction Kinetics and Mechanisms
1.2 Homogeneous and heterogeneous reaction mechanisms
1.3 Molecular-level understanding of reactions
1.4 Advanced experimental methods for kinetics
1.5 Data-driven and hybrid kinetic approaches
2. Catalytic and Functional Materials for Chemical Reaction Engineering
2.2 Structure-activity-stability relationships
2.3 Operando and in situ characterization techniques
2.4 Additive manufacturing and 3D-printed catalysts and reactors
2.5 Materials for circularity and recycling
3. Chemical Reactors: Fundamentals, Design and Applications
3.1 Reactor fundamentals and scale-up
3.2 Intensified and multifunctional reactors
3.3 Electrochemical and electro-catalytic reactors
3.4 Plasma-assisted reactors
3.5 Electrified reactors (induction, Joule heating, microwave, …)
3.6 Novel reactor concepts and emerging applications
3.7 Polymerization reactors
3.8 Reactor safety, HSE and risk analysis
4. Modeling, Simulation and Digitalization in Chemical Reaction Engineering
4.1 Multiscale modeling of reactive systems
4.2 CFD for reactive flows and reactors
4.3 Molecular modeling for catalytic and non-catalytic reactions
4.4 Scientific machine learning and AI for CRE
4.5 Digital twins
5. Chemical Reaction Engineering at the Interface with Other Disciplines
5.2 Reaction engineering and separation processes
5.3 Techno-economic analysis and process design
5.4 Life-cycle assessment and sustainability metrics
5.5 Chemical reaction engineering for circular economy
6. Reaction Engineering for Energy Transition and Sustainability
6.1 CO2 capture, activation and utilization
6.2 Sustainable fuels and energy carriers
6.3 Power-to-X processes
6.4 Biomass, waste-to-X and circular feedstocks
6.5 Pyrolysis, gasification and partial oxidation processes
6.6 Electrification of chemical processes