This insight resolves a longstanding scientific debate and opens new avenues for optimizing other industrial processes such as ammonia synthesis and the Fischer–Tropsch process.

The extraordinary versatility of the Fischer-Tropsch synthesis makes it once again the key process for any energy conversion that produces hydrocarbons from carbon sources such as biomass or even CO2.

Industrial waste gases, long seen as a major contributor to climate change, could soon be captured and repurposed into everyday household products such as shampoo, detergent, and even fuel.

Researchers are trying to develop a way to overcome these issues using the Fischer–Tropsch synthesis (FTS) process. The FTS reaction converts a mixture of hydrogen and carbon monoxide gases into a ...

I mapped my first business process diagram over 35 years ago when I joined Accenture. I used a hierarchical diagram format called IDEF0 to describe an ERP system we were implementing at a U.K ...

Carbon recycling company LanzaTech and sustainable aviation fuel (SAF) producer LanzaJet have launched an alternative to using costly Fischer-Tropsch technology to convert waste into liquid fuels.

The Fischer–Tropsch (FT) process was developed by Hans Fischer and Franz Tropsch (Fischer and Tropsch, 1926) to produce synthetic fuels and chemicals. Since then, it has been successfully established ...

Johnson Matthey announced that DG Fuels has selected its award-winning Fischer Tropsch CANS technology – co-developed with bp – for DG Fuels’ first SAF plant in St. James Parish, Louisiana (U.S.).