Norwegian Blastr Green Steel has selected Primetals as technological partner for DRI plant, electric steelmaking meltshop, Arvedi ESP line, and continuous pickling and galvanizing line. The Greenfield-Steelwork set to become leading producer of green steel with annual capacity of 2.5 million tons. The Project will create 1,000 direct and 4,600 indirect jobs in Finland.
Blastr Green Steel is an Oslo-based company founded in 2021 with the mission to set new standards in green steel production. Recently, Blastr Green Steel has chosen Primetals Technologies as its technological partner for the development of a new 2.5 million tons-per-year steel production complex to be implemented in Inkoo, close to the city of Helsinki, Finland. When in operation, the steel plant and an integrated hydrogen production facility will provide approximately 1,000 direct and 4,600 indirect jobs in Finland.
As the market leader in environmental and energy-efficiency solutions for the metals industry with numerous highly innovative solutions in its portfolio, Primetals Technologies will ensure that the new facilities meet the latest industry standards.
"This partnership marks a significant milestone in our journey toward sustainable steel production and decarbonizing the steel value chain. By combining our strengths with industry leaders, we are poised to drive innovation and shape the future of steel production," says Mark Bula, CEO of Blastr Green Steel.
The Midrex H2 plant, powered by 100 percent green hydrogen, will be provided by a consortium of Midrex and Primetals Technologies. The plant will produce hot DRI for direct charging to the steel mill, as well as hot briquetted iron (HBI), enabling Blastr to decarbonize other value chains by providing ultra-low-carbon iron feedstock for customers.
Primetals Technologies will also supply an electric arc furnace based meltshop with a 300-ton EAF Ultimate designed for the direct charging of hot DRI and characterized by short tap-to-tap times, fully automated operation, and advanced control systems. A comprehensive secondary metallurgy scope is planned as well, comprising of a ladle furnace and an RH plant. The secondary metallurgy equipment will allow Blastr to produce top-quality steel grades for the highly demanding automotive sector. In addition, Primetals Technologies will supply an off-gas treatment system and a waste heat recovery plant for the electric steelmaking plant, ensuring the most efficient reuse of energy.
"The production process will be augmented by digital technologies, feature the enhanced use of robot technology, and employ advanced solutions for remote control to enable the highest possible level of autonomous operations enhancing occupational safety, a top priority for the project," said Andreas Viehböck, Head of Upstream Technologies at Primetals Technologies.
The partnership also includes an Arvedi ESP thin slab casting and hot-rolling line as well as a state-of-the-art continuous pickling and galvanizing line to produce a variety of hot-rolled steel products including coated steel sheets for various industrial applications.
“Blastr’s ultra-low CO₂ targets require technology that ensures net-zero direct CO₂ emissions from steel production. The MIDREX plant, featuring an electric heater as an alternative to a gas-fired reformer/heater, and the Arvedi ESP technology, which is an officially certified carbon-neutral thin-slab casting and hot rolling process, are two key technologies needed on the path to meet our ambitious emission targets,” says Mikael Lindvall, Chief Technology Officer of Blastr Green Steel.
Primetals Technologies is also responsible for the full electrics and automation scope including the complete process automation systems as well as digitalization solutions for optimized production and energy management and comprehensive quality-control systems. Implementing a greenfield, state-of-the-art, integrated green steel production facility is a process that puts great expectations on the supplier. This also applies to the automation solutions, for which the need for quick learnings and evaluations will be particularly high.
During the conceptual development of the plant, a special emphasis has been placed on digitalization as well as on the enhanced use of robot technology, AI, and advanced solutions for remote control to allow for the highest possible level of autonomous operations. This will result in a high level of occupational safety and in an optimization of the production process, enabling a swift scaleup to full production capacity and a streamlined process from the get-go. Moreover, numerous AI-based digital assistant systems integrated into a Central Operation Cockpit (COC) provide operators with all the information needed to operate the plant efficiently.
Source: Primetals Technologies
