WE1.R1.2
Thermodynamic Analysis Based Programmed Heating Strategies to Limit Carbon Depositions in Electrified Modular Methane Reformer Reactors
Collins Don-Pedro, UNIVERSITY OF HOUSTON, United States; Ram Ratnakar, Shell International Exploration & Production Inc USA, United States; Sumana Chenna, Indian Institute of Chemical Technology, India; Vemuri Balakotaiah, UNIVERSITY OF HOUSTON, United States
Session:
WE1.R1: Reaction Engineering for the Energy Transition V
Track:
Reaction Engineering for the Energy Transition
Location:
Room 1
Presentation Time:
Wed, 19 Feb, 09:50 - 10:10 CT (UTC -6)
Presentation
Discussion
Resources
No resources available.
Session WE1.R1
WE1.R1.1: MICROKINETIC MODELING OF OXIDATIVE COUPLING OF METHANE: CAN ELECTROCHEMISTRY BREAK THE SCALING RELATIONSHIP?
Julian Ufert, William Green, Massachusetts Institute of Technology, United States
WE1.R1.2: Thermodynamic Analysis Based Programmed Heating Strategies to Limit Carbon Depositions in Electrified Modular Methane Reformer Reactors
Collins Don-Pedro, UNIVERSITY OF HOUSTON, United States; Ram Ratnakar, Shell International Exploration & Production Inc USA, United States; Sumana Chenna, Indian Institute of Chemical Technology, India; Vemuri Balakotaiah, UNIVERSITY OF HOUSTON, United States
WE1.R1.3: ISOPOTENTIAL TITRATION OF AMMONIA ELECTRON TRANSFER ON METAL CATALYSTS
Jesse Canavan, Justin Hopkins, Rajat Daga, Ulrick Gaillard, Matthew Neurock, Alon McCormick, University of Minnesota, United States; Omar Abdelrahman, University of Houston, United States; Paul Dauenhauer, University of Minnesota, United States
Contacts