Electrochemical Engineering: Reactor Design and Reaction Transport Processes in Electrocatalysis I | AIChE

Other Sites & Tools

Technical Groups

Electrochemical Engineering: Reactor Design and Reaction Transport Processes in Electrocatalysis I

Chair(s)

Feaster, J. T., Lawrence Livermore National Laboratory

Co-chair(s)

Morales-Guio, C., University of California, Los Angeles
Agarwal, H., University of Michigan Ann Arbor

Fundamental understanding of mass, heat, charge and momentum transfer processes is necessary for the rational design, optimization and scale-up of electrocatalytic technologies. This session encourages submissions focused on understanding and/or optimizing reaction transport processes at multiple scales. The scope of this session ranges from fundamental studies to system-level design of electrochemical reactors and is for a wide range of applications, including energy conversion, energy storage, and production of sustainable fuels and chemicals from natural gas (e.g. electrochemical reforming) and waste feedstocks (e.g. CO2 reduction, nitrate reduction, phosphate recovery). Theoretical, computational and experimental works are all of interest.

Presentations

12:30 PM
(670a) A Novel Circuit-Based Model of a Bipolar Membrane Electrodialysis Reactor for Offshore Chemical Synthesis
12:48 PM
(670b) A Two-Dimensional Transport Model of Bipolar Membrane Electrodialysis for the Electro-Regeneration of Carbon Capture Solvents.
1:06 PM
(670c) A Systematic Analysis of the Electrochemical Reduction of CO2 Using Uncertainty Quantification
1:24 PM
(670d) Coupling Microkinetics with Continuum Transport Models to Understand Electrochemical CO2 Reduction
1:42 PM
(670e) Bipolar Membrane Electrolyzers Architectures for Ion Transport Control and Impure Water Electrolysis
2:00 PM
(670f) Understanding the Effects of Microenvironment and Mass Transport on Electrochemical CO2 Reduction Using Operando ATR-Seiras
2:18 PM
(670g) Development of Reaction-Transport Kinetics Model for Electrochemical CO2 Reduction on Copper: Moving Away from Tafel Kinetics to Incorporate Mass Transfer Effects
2:36 PM
(670h) Resolving Local Microenvironments and Fluxes in Electrochemical CO2 Reduction Using Continuum Modeling

Topics 

Catalysis
Reactors

Checkout

Paper abstracts are public but to access Extended Abstracts, you must first purchase the conference proceedings.

Checkout

Do you already own this?

Pricing

Individuals

AIChE Pro Members $150.00
AIChE Emeritus Members $105.00
AIChE Graduate Student Members Free
AIChE Undergraduate Student Members Free
AIChE Explorer Members $225.00
Non-Members $225.00

More Conference Links