MO3.R2.3
From Apparent Kinetics to Microkinetics: Leveraging Power Law Models for Reaction Mechanism Identification
Fernando Vega-Ramon, Christopher Hardacre, Dongda Zhang, The University of Manchester, United Kingdom
Session:
MO3.R2: Fundamentals of Catalysis and Reaction Engineering III
Track:
Fundamentals of Catalysis and Reaction Engineering
Location:
Room 2
Presentation Time:
Mon, 17 Feb, 16:30 - 16:50 CT (UTC -6)
Presentation
Discussion
Resources
No resources available.
Session MO3.R2
MO3.R2.1: FROM PULSES TO PELLETS TO PACKED BEDS: UNDERSTANDING CrOx/Al2O3 CATALYST DEACTIVATION DURING PROPANE DEHYDROGENATION VIA TRANSIENT KINETIC ANALYSIS AND MULTISCALE MODELING
Nicholas Thornburg, Meagan Crowley, Adam Yonge, Hariswaran Sitaraman, National Renewable Energy Laboratory, United States; Dingqi Nai, Georgia Institute of Technology, United States; Jason Malizia, Idaho National Laboratory, United States; Rong Xing, Mingyong Sun, Clariant Corporation, United States; Lars Grabow, University of Houston, United States; Rebecca Fushimi, Idaho National Laboratory, United States; Andrew Medford, Georgia Institute of Technology, United States; Peter Ciesielski, National Renewable Energy Laboratory, United States
MO3.R2.2: Polymer Distribution Models for Polyether Polyols
Arjun Raghuraman, Christopher Ho, Nima Nikbin, The Dow Chemical Company, United States; Carlos Villa, Retired, United States
MO3.R2.3: From Apparent Kinetics to Microkinetics: Leveraging Power Law Models for Reaction Mechanism Identification
Fernando Vega-Ramon, Christopher Hardacre, Dongda Zhang, The University of Manchester, United Kingdom
Contacts