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• Johnson Matthey and thyssenkrupp Uhde to combine expertise to offer integrated technology to produce low carbon (blue) ammonia that is more climate-friendly than current production methods.

• Demand for ammonia is growing because it鈥檚 easier to store and transport than pure hydrogen and is key to decarbonising the world鈥檚 power, shipping, and industrial processes.

Johnson Matthey (JM), a global leader in sustainable technologies, and thyssenkrupp Uhde, a leading provider for engineering, construction, and service of chemical plants, today announced they have signed a Memorandum of Understanding to jointly offer a fully integrated low carbon (blue) ammonia solution, building on a nearly 25-year ammonia relationship between the companies^[1].

In the drive to reduce CO₂ emissions, the role of ammonia has expanded from a vital ingredient used to produce fertiliser for the agricultural sector, to a decarbonised carrier and supplier of hydrogen energy that鈥檚 easier to store and transport than pure hydrogen. The movement of low carbon ammonia can utilise existing infrastructure making it a leading energy transition solution that鈥檚 ready to capture, store, and ship vast quantities of hydrogen for use in the power and shipping sector, and industrial value chains globally.

By joining forces thyssenkrupp Uhde and JM can access the blue ammonia market together offering proven technologies combining the uhde^庐 ammonia process and JM鈥檚 hydrogen expertise through its LCH^TM technology, which will enable the production of blue ammonia with up to 99% CO₂ capture.

thyssenkrupp Uhde has licensed, engineered, or constructed over 130 ammonia plants worldwide since 1928 and is market leading in plants greater than 3,000 metric tonnes per day with its unique uhde^庐 dual pressure technology. JM鈥檚 LCH technology, which utilises JM鈥檚 autothermal reformer alone, or in conjunction with JM鈥檚 gas heated reformer, has been selected for several of the world鈥檚 first large scale blue hydrogen projects including bp鈥檚 H2Teesside, a 700-megawatt low carbon hydrogen production plant, and the H2H Saltend project with Equinor and Linde for a 600-megawatt low carbon hydrogen production plant.

Global demand for ammonia is estimated to increase to more than 600 million metric tonnes by 2050 due to the new demands from shipping and power generation markets. Low carbon ammonia is predicted to meet two-thirds of the demand by 2050^[2] with many countries around the world setting decarbonisation targets. This could mean an estimated market size for low carbon ammonia of over $200 billion by 2050^[3].

Alberto Giovanzana, Managing Director 鈥� Catalyst Technologies at Johnson Matthey, said: 鈥淲e know multiple routes are needed in the energy transition, and ammonia provides several options because it can be used directly in power and shipping industries, and as a hydrogen carrier to safely transport hydrogen to areas it is not easy to produce.

鈥淐ombining our expertise and over two decades worth of partnership with thyssenkrupp Uhde, we are excited to offer this technology which will allow our customers to produce ammonia with significantly lower CO₂ emissions."

Lucretia L枚scher, COO thyssenkrupp Uhde, said: 鈥淎t thyssenkrupp Uhde, we are committed to our purpose, 鈥榳e create a livable planet鈥�. With this strong partnership we further broaden our portfolio of climate-friendly solutions and can help our customers even better to reach their sustainability goals.鈥�


[1] Johnson Matthey and thyssenkrupp renew partnership for world class collaboration in ammonia production
[2] Ammonia Market to triple by 2050 with nearly all growth coming from low carbon supply;
[3] Market estimate is based on an average price of $500 per tonne of ammonia and a low carbon ammonia market of 420 million tonnes by 2050.