NASCRE-5 2025 || Houston, Texas || 16

TU1.R3.1

Thermodynamic Analysis Based Programmed Heating Strategies to Limit Carbon Depositions in Electrified Modular Methane Reformer Reactors

Collins Don-Pedro, UNIVERSITY OF HOUSTON; Ram Ratnakar, Shell International Exploration & Production Inc USA; Sumana Chenna, Indian Institute of Chemical Technology; Vemuri Balakotaiah, UNIVERSITY OF HOUSTON

Session:

TU1.R3: Reaction Engineering for the Energy Transition IV

Location:

Tanglewood/Bellaire

Presentation Time:

Tue, 18 Feb, 10:45 - 11:05 CT (UTC -5)

Session Co-Chairs:

Hsi-Wu Wong, University of Massachusetts Lowell and Kevin Modica, The Dow Chemical Company

Session TU1.R3

TU1.R3.1: Thermodynamic Analysis Based Programmed Heating Strategies to Limit Carbon Depositions in Electrified Modular Methane Reformer Reactors

TU1.R3.2: DYNAMIC OPTIMIZATION OF ELECTRIFIED ETHANE CRACKING FOR COST-EFFECTIVE ETHYLENE PRODUCTION WITH LOW CO2 EMISSIONS

Alexandre Cattry, Chaitanya Vuppanapalli, Dharik Mallapragada, NYU

TU1.R3.3: Towards the complete mineralization of PFOA with a pilot-scale UV-light, boron-nitride—based recirculating reactor unit

Juan Donoso, Rice University; Guo Chen, Tokyo Institute of Technology; Kimberly Heck, Rice University; Tony Powell, Purifics; Mohammed Ateia, Michael Wong, Rice University