MOSCOW (MRC) -- Shell and BASF are collaborating to accelerate the transition to a world of net-zero emissions. To this end, both companies worked together to evaluate, de-risk, and deploy BASF’s Sorbead Adsorption Technology for pre- and post-combustion Carbon Capture and Storage (CCS) applications, according to Hydrocarbonprocessing.
The Sorbead Adsorption Technology is used to dehydrate CO2 gas after it has been captured by Shell’s carbon capture technologies such as ADIP Ultra or CANSOLV.
The Adsorption Technology has several advantages for CCS applications: Sorbead, an aluminosilicate gel material, is acid resistant, has high capacity for water, and regenerates at a lower temperature compared to activated alumina or molecular sieves. Furthermore, Sorbead Adsorption Technology ensures the treated gas is free of glycol and will meet stringent pipeline and underground storage specifications. Customers also benefit from long life, operational turndown flexibility and immediate on-spec gas at startup.
The Sorbead Adsorption Technology is now in Shell’s portfolio for use in the numerous CCS projects around the world to achieve their Powering Progress strategy. “BASF has enjoyed a great partnership with Shell over the past several years and I am happy to see another successful qualification. BASF is proud to support Shell in their effort to reach net-zero emissions and work toward improving environmental conditions around the world”, says Dr. Detlef Ruff, Senior Vice President, Process Catalysts at BASF.
As MRC reported earlier, BASF is strengthening its global catalyst development and helping customers to bring new products faster to the market. As part of this strategy, BASF is building a new pilot plant center at its Ludwigshafen site. The new Catalyst Development and Solids Processing Center will serve as a global hub for pilot-scale production and process innovations of chemical catalysts. The new building is scheduled for completion by mid-2024.
We remind that BASF aims is to electrify its production processes for basic chemicals, which are currently based on fossil fuels.
We also remind that in mid-February, BASF said it was restarting one of its steam crackers at its Ludwigshafen complex in Germany after operations were halted earlier that month due to a technical issue. The naphtha cracker produces ethylene and propylene, and is one of two crackers on the site. One has a production capacity of 420,000 metric tons/year, with the other"s capacity at 240,000 metric tons/year.
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 1,396,960 tonnes in January-July 2021, up by 7% year on year. Shipments of all grades of ethylene polymers increased. At the same time, PP shipments to the Russian market were 841,990 tonnes in the first seven months of 2021, up by 29% year on year. Supply of propylene homopolymers (homopolymer PP) and block-copolymers of propylene (PP block copolymers) increased, whereas supply of statistical copolymers of propylene (PP random copolymers) subsided.
BASF is the leading chemical company. It produces a wide range of chemicals, for example solvents, amines, resins, glues, electronic-grade chemicals, industrial gases, basic petrochemicals and inorganic chemicals. The most important customers for this segment are the pharmaceutical, construction, textile and automotive industries.
Royal Dutch Shell plc is an Anglo-Dutch multinational oil and gas company headquartered in The Hague, Netherlands and with its registered office in London, United Kingdom. It is the biggest company in the world in terms of revenue and one of the six oil and gas "supermajors". Shell is vertically integrated and is active in every area of the oil and gas industry, including exploration and production, refining, distribution and marketing, petrochemicals, power generation and trading.
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