MOSCOW (MRC) -- Honeywell announced the completion of a commercial refinery trial with Preem AB for co-processing of biomass-based pyrolysis oil in a fluidized catalytic cracking (FCC) unit, said Hydrocarbonprocessing.
Utilizing UOP’s proprietary bioliquid feed system with OptimixTM GF Feed Distributor, pyrolysis oil was successfully co-processed in the FCC at Preem’s Lysekil refinery to produce partially renewable transportation fuel. This test marks the 6th commercial co-processing trial conducted by UOP worldwide of this technology in an FCC and the first pyrolysis oil co-processing trial in Scandinavia using UOP’s Optimix GF Feed Distributor technology.
“Preem's production of renewable petrol is an important piece of the puzzle that Sweden must solve to achieve the climate goals,” said Peter Abrahamsson, Head of Sustainable Development at Preem AB. “Residual products from our Swedish forests have a unique potential and this is an exciting step in our work to develop the fuel of the future."
To meet Sweden’s long-term goals of greenhouse gas (GHG) emission reductions, fuel suppliers must reduce the carbon intensity of transportation fuels. Co-processing of biomass-based pyrolysis oil is one method to reduce the carbon intensity of transport fuels at the refinery compared to blending of biofuels downstream. Pyrolysis oil produced from sustainable solid biomass materials such as sawdust or agricultural residuals is a low carbon feedstock suitable for refinery upgrading. Biomass-based pyrolysis oil can qualify as an Annex IX Part A feedstock under the European Union Renewable Energy Directive, which is directly supported by Sweden’s Integrated Energy and Climate Plan. Pyrolysis oil co-processed in an FCC is an economically attractive method of meeting RED biofuel mandates for Advanced Biofuels.
"UOP is excited to support Preem for the production of low-carbon transportation fuels” said Ben Owens, vice president and general manager, Honeywell Sustainable Technology Solutions. “FCC co-processing of biomass-based pyrolysis oil is an integrated production solution using existing refinery infrastructure to convert sustainable feeds into advanced biofuels."
FCC co-processing technology is part of a portfolio of renewable fuel solutions offered by the Sustainable Technology Solutions group at Honeywell UOP. Using the UOP Optimix GF Feed Distributor system, many types of bioliquids can be successfully co-processed in an FCC unit. Refinery co-processing is one method for meeting biofuel mandates and produce low carbon fuels.
Preem AB is the largest fuel company in Sweden, with a refining capacity of more than 18 million cubic meters per year. Preem refines and sells gasoline, diesel, heating oil and renewable fuels to companies and consumers in Sweden and worldwide. By 2030, Preem will produce approximately 5 million cubic meters of renewable fuels, and thereafter aims to become the world’s first climate neutral biofuels- and refining company.
Honeywell recently committed to achieve carbon neutrality in its operations and facilities by 2035. This commitment builds on the company’s track record of sharply reducing the greenhouse gas intensity of its operations and facilities as well as its decades-long history of innovation to help its customers meet their environmental and social goals. About half of Honeywell’s new product introduction research and development investment is directed toward products that improve environmental and social outcomes for customers.
As per MRC, Honeywell announced that Lotte GS Chemical Corp. will use Honeywell UOP Q-Max, Phenol 3G, and Evonik MSHP technologies to produce more than 565,000 metric tons per year of phenol and acetone at its petrochemicals facility in Yeosu, Korea. UOP is providing a license for the technology, in addition to basic engineering design services, key equipment, catalysts and adsorbents and technical services. As part of the project, UOP will provide a cumene unit and a phenol unit with alpha-methylstyrene (AMS) hydrogenation. The combined technologies will allow Lotte GS Chemical to produce phenol and acetone derivatives from benzene and polymer-grade propylene.
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 1,176,860 tonnes in the first half of 2021, up by 5% year on year. Shipments of exclusively low density polyethylene (LDPE) decreased. At the same time, PP shipments to the Russian market were 727,160 tonnes in the first six months of 2021, up by 31% year on year. Supply of homopolymer PP and block-copolymers of propylene (PP block copolymers) increased. Supply of statistical copolymers of propylene (PP random copolymers) subsided.
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