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Water purification
Johnson Matthey's fixed bed catalysts technologies are designed to treat water streams effectively, economically and robustly in low input operation.
ExplorePGM market research
PGM Market Report reviews and forecasts demand and supply developments in the PGM markets.
ExploreSWITCH METHANOL technology
A fuelless reforming process which delivers minimal direct CO2 emissions without carbon capture and is ready for electrification. It combines our unique gas heated reformer with an autothermal reformer (GHR+ATR).
ExploreFLEXI METHANOL technology
A robust process which combines steam methane and autothermal reforming (SMR+ ATR) to deliver consistently high performance for a wide range of natural gas compositions.
ExplorePRIMARY METHANOL technology
A well-established, oxygen-free process which is based on steam methane reforming (SMR) and can deliver large methanol capacities.
ExploreMethanol and ammonia co-production
A single process to make methanol and ammonia combining Johnson Matthey and KBR’s market leading technology, achieving maximised efficiency and savings while delivering operational flexibility and world-class reliability.
ExploreAutothermal reforming catalysts
We use our combined knowledge of process technologies and catalysis to maximise the efficiency of secondary reforming operations.
ExploreHigh performance methanol catalysts and absorbents
Johnson Matthey’s methanol catalysts and absorbents enhance plant performance, combining efficient technology to reduce operating costs effectively.
ExploreMethanol syngas purification
Johnson Matthey offers the KATALCOâ„¢ range of purification absorbents and catalysts, enabling us to deliver the right purification solutions to meet your individual plant requirements. For additional peace of mind, our range of PURASPECâ„¢ absorbents are designed to remove a range of sulphur components, heavy metals and halides and are the industry choice for longest bed life and toughest duties.
ExploreReforming
Selecting the right catalyst for your application is essential for reliable and optimum steam reformer performance. Johnson Matthey will make recommendations on the optimum split of catalysts to be loaded in the reformer tubes based on your feedstock and plant operating conditions.
ExploreMethanol synthesis
Methanol synthesis from carbon oxides and hydrogen using Johnson Matthey's KATALCOâ„¢ catalysts, including the advanced KATALCO 51-102.
ExploreHydrogen: ramping up to reach net zero
Watch: Priyan, Liz and Andy explain the vast potential of hydrogen in the race to decarbonise our societies.
ExplorePGM market research
PGM Market Report reviews and forecasts demand and supply developments in the PGM markets.
ExploreWorking together to simplify the way we do business
We are simplifying the way we work with our suppliers by implementing a new JM Global Solutions approach.
ExplorePioneering clean air technology for 50 years and beyond
The world's first commercial auto catalyst was made in Royston in May 1974
ExploreIntroducing JM's new HyRefineâ„¢ technology
Our new HyRefineâ„¢ technology enables recycling of fuel cell and water electrolyser materials.
ExploreDelivering decarbonisation at scale with low carbon hydrogen
Hydrogen is key to reducing global emissions. JM's LCHâ„¢ technology enables production of hydrogen with up to 99% less emissions.
ExploreLow Shrinkage Methanol Synthesis Catalyst
Methanol synthesis catalysts will typically undergo a degree of shrinkage (and settling) following reduction and subsequent start-up.
ExploreCO2 to Methanol - eMERALD 201
Building on KATALCO heritage, eMERALD 201 catalyst optimises CO2 to methanol conversion, ensuring sustainable, efficient plant performance long-term.
ExploreJM-Levo Purification
The JM-LEVO Purification portal is here. Assemble, visualise and gain plant operation insights and opportunities.
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