MOSCOW (MRC) -- Svante and Kiewit Energy Group Inc. have entered into an MOU to pursue industrial carbon capture projects under development by industrial carbon emitter clients in the US and Canada including cement, SMR hydrogen, refineries, chemicals, steel, ammonia and pulp & paper facilities, according to Hydrocarbonprocessing.
The KSI Alliance will work as a highly collaborative, integrated team to offer clients a “one-stop-shop” common business development and construction approach from pre-construction services phase to engineering, procurement and construction (EPC) project delivery.
The carbon capture projects will employ Svante’s solid sorbent technology to capture CO2 directly from industrial post-combustion diluted flue gases as a non-intrusive “end-of-the-pipe’’ solution to produce pipeline-grade pure CO2 for safe storage.
Through this collaboration, both companies intend to address the critical need of lowering the capital cost of the capture of the carbon dioxide emitted from industrial facilities in order to achieve the world’s net-zero carbon goals required to stabilize the climate.
As MRC wrote before, in September 2021, Mitsubishi Corp and Shell Canada Products, by its managing partner, Shell Canada Limited (Shell Canada) signed a Memorandum of Understanding (MoU) relating to the production of low-carbon hydrogen through the use of carbon capture and storage (CCS) near Edmonton, Canada.
Mitsubishi Corp said it aims to build and start-up the low-carbon hydrogen facility near the Shell Energy and Chemicals Park Scotford towards the latter half of this decade, and Shell would provide CO2 storage via the proposed Polaris CCS project. The low-carbon hydrogen, commonly called blue hydrogen, would be produced via a natural gas feedstock and exported mainly to the Japanese market to produce clean energy.
We remind that Royal Dutch Shell plans to reduce its refining and chemicals portfolio by more than half, it said in July 2020 without giving a precise timeframe. The move is part of the Anglo-Dutch company's plan to shrink its oil and gas business and expand its renewables and power division to reduce greenhouse gas emissions sharply by 2050.
Ethylene and propylene are the main feedstocks for the production of polyethylene (PE) and polypropylene (PP), respectively.
According to MRC's ScanPlast report, Russia's estimated PE consumption totalled 2,047,100 tonnes in the first ten months of 2021, up by 17% year on year. Shipments of all grades of ethylene polymers increased. At the same time, PP shipments to the Russian market were 1,226,530 tonnes in January-October 2021, up by 26% year on year. Supply of propylene homopolymers (homopolymer PP) and block-copolymers of propylene (PP block copolymers) increased, whereas supply of injection moulding stat-copolymers of propylene (PP random copolymers) decreased significantly.
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