Ultrastable, selective catalyst for propane dehydrogenation developed Date: June 12, 2020 Source: Hokkaido University Summary: A group of Japanese scientists has developed an ultrastable, selective ...

A new, highly efficient electrochemical process converts propane into propene at room temperature. The team that developed the process believes that it is an economically viable, environmentally ...

Propane dehydrogenation (PDH) reaction is a highly endothermic reaction, typically requiring temperatures above 600°C in conventional thermo-catalysis. However, elevated temperatures lead to ...

Recently, a research team from the University of Science and Technology of China (USTC) of the Chinese Academy of Sciences has developed a Pt-based high-entropy-alloy (HEA) catalyst that significantly ...

KBR, Inc.KBR developed a new Propane Dehydrogenation ("PDH") technology, K-PRO. The technology, which is based on KBR's catalytic olefins technology K-COT, provides high propylene selectivity and ...

Propylene is a vital petrochemical raw material, trailing only behind ethylene in significance. With demand continuously on the rise, there is a pressing need to explore alternative production methods ...

New process technologies for propylene production show great economic promise, according to a new report from Nexant Inc., White Plains, NY. The recently published report predicts that propylene ...

"Our finding could lead to a more efficient and cheaper industrial process to produce propylene from propane without the need for catalyst regeneration - which is far superior in selectivity and ...