Decarbonising a world reliant on chemicals
JM low carbon solutions help our customers navigate and overcome the challenges they face in meeting emissions reduction targets. Carbon capture is key to decarbonising chemical industries, such as hydrogen, methanol, and ammonia. For refinery hydrogen plants, 95% of those CO2 emissions ...
Axens Powering Integrated Solutions
Axens group provides a complete range of solutions for the conversion of oil and biomass to cleaner fuels, the production and purification of major petrochemical intermediates, the chemical recycling of plastics and all natural gas treatment and conversion options. The offer includes technologies, ...
CATACEL SSR Technology
Johnson Matthey’s CATACEL SSRTM tailored catalyst technology is a proven high performance, direct replacement catalytic solution for producing hydrogen from natural gas through the steam reforming process. This technology enables increased throughput and reduced energy consumption, ...
History of UOP | Honeywell
In commemoration of Honeywell UOP's 100th anniversary, this video describes how UOP has established the foundation for today's refining industry, revolutionized the global oil and gas industry, and enabled our modern way of living. Featuring UOP President and CEO Rajeev Gautam and other ...
HydroFlex™ technology from Haldor Topsoe
With HydroFlex™, you can turn practically any renewable feedstock into an on-spec fuel. Future-proof your refinery against changing demands and take advantage of new opportunities to extend your market share and expand your business.
Johnson Matthey Decarbonising the production of chemicals and fuels
We're catalysing the net zero transition. Our catalyst and process technologies play a key role in decarbonising the chemical and energy industries. We enable the efficient and sustainable production of important chemicals and fuels using JM’s core chemistry and technology expertise ...
Total Antwerp refinery off-gas project: A modular approach
The project was aimed at the recovery and valorization of significant volumes of high value components for steamcracking (NC3) that were burned as fuel gas at the refinery in Antwerp, Belgium (TRA). The modular approach was successfully used in this project (scope: Modules ...