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 ...

The process to turn propane into industrially necessary propylene has been expensive and environmentally unfriendly. That was until scientists devised a greener way to take this important step in ...

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

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 ...

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 ...