- Date 7 Dec 2020
Johnson Matthey (JM), United Kingdom, a global leader in sustainable technologies, including those for the most energy and environmentally efficient production of methanol from syngas, has secured a multiple licence win for China’s Ningxia Baofeng Energy Group’s latest project to develop five of the largest single train methanol plants in the world.
Located at Baofeng’s Ordos City complex in Inner Mongolia, PRC, the plants have a planned capacity of 5 x 7200 tonnes per day and mark the fourth project on which Baofeng has selected Johnson Matthey as its collaboration partner for methanol technology.
Under the agreement Johnson Matthey will be the licensor of all five methanol plants and supplier of associated engineering, technical review, commissioning assistance, and catalyst. The JM methanol plants will take synthesis gas as a feed and use JM radial steam raising converters in a patented Series Loop. Within the design, there is potential for 1-2% more feedstock efficiency over the life of the catalyst.
JM catalysts will enable Ningxia Baofeng Energy to produce stabilized methanol as a product that is used to produce olefins downstream. Thanks to JM’s methanol loop synthesis technology, the plants will provide enhanced energy savings along with low OPEX, CAPEX and emissions.
Upon startup, this will represent JM’s 13th operating license in China with a plant capacity greater than 5500 mtpd and the fourth JM methanol design licensed by Ningxia Baofeng Energy. This latest award follows the recent award of the 7200 tonnes per day licence in July 2020, the successful commissioning of the 6600 tonnes per day Baofeng methanol synthesis unit in May 2020 and the original 4450 tonnes per day methanol synthesis unit, which was commissioned in 2014. It again demonstrates Baofeng’s recognition of JM’s technical leadership in this key growth market and is a testament to Johnson Matthey’s commitment and dedication to the delivery of the most energy, cost and environmentally efficient large-scale methanol production units.