The greenhouse gas CO2 is a promising soft oxidant for the oxidative dehydrogenation of light alkanes. However, the occurrence of side reactions including cracking, hydrogenolysis, and reforming ...
One promising approach since the late 1990’s is the use of iridium with stable terdentate “pincer” ligands as alkane dehydrogenation catalysts: Calculations suggest that pincer ligands with ...
The UOP [*] Oleflex [*] process is catalytic dehydrogenation technology for the production of light olefins from their corresponding paraffin. An Oleflex unit can dehydrogenate propane, isobutane, ...
In this review, our goal is to provide a detailed insight into the existing processes to expose various mechanistic challenges associated with FA dehydrogenation (FAD). Specifically, methodologies ...
While combining a unique mix of chemistry and chemical engineering, this up-to-date text provides a snapshot of hydrogenation, dehydrogenation, chiral catalysis, environmental catalysis, and catalyst ...
Abstract: A mathematical model is presented for simulating the steady-state catalytic dehydrogenation of ethylbenzene to styrene and other associated side reactions. The various differential equations ...
However, the electrocatalytic oxidation of glycerol reaction (RGOR) is complex, involving dehydrogenation, adsorption/desorption, and C-C bond breaking of reaction intermediates, posing challenges to ...