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Howden to deliver hydrogen storage compression solution for HYBRIT

Environmental, Mine ventilation, Mining industry recognition, Mining services, Power supply for mines, Steel and iron ore, Sustainable mining, , , , , , , , , , ,

Howden says it has been selected to deliver a hydrogen storage compression solution for HYBRIT, the world’s first fossil-free steel plant, in Svartöberget, Sweden.

A joint project between Sweden’s SSAB, LKAB and Vattenfall, HYBRIT is the deployment of a unique pilot project for large-scale hydrogen storage. This initiative leads the development of the world’s first fossil-free value chain for the iron and steel industry, to address renewable hydrogen storage.

Howden has been contracted to supply a high-pressure diaphragm compression package to seamlessly integrate the storage cycle of the hydrogen production. The hydrogen compression includes installation and commissioning of a packaged three stage diaphragm compressor.

The storage facility consists of a 100 cu.m hydrogen storage built in an enclosed rock cavern approximately 30 m below ground. This offers a cost-effective solution, with the necessary pressure required, to store large amounts of energy in the form of hydrogen, Howden said.

The reliability, efficiency and safety delivered by Howden’s compression solution matches with the large-scale hydrogen storage requirements, relative to the storage conditions and the evaluation of the amount of time during which the compression pressure remains at the desired level, it added.

HYBRIT supports the European Union’s Hydrogen Strategy and its ambition to install at least 6 GW of renewable hydrogen electrolysers in the EU by 2024 and at least 40 GW by 2030.

Salah Mahdy, Global Director – Hydrogen at Howden, said: “Our partnership with HYBRIT demonstrates Howden’s capabilities in developing and delivering state-of-art hydrogen compressor solutions, based on our long-standing compression expertise. We have over 100 years of experience in the compression of hydrogen, which is ideally placed to support the transition to a fossil-free energy system.

“We’re thrilled to be working on this ground-breaking project, which has the potential to reduce Sweden’s total carbon dioxide emissions by at least 10%. The steel industry currently accounts for about 7% of the world’s global carbon emissions, so the creation of a zero-emission steel is revolutionary, and may, in the future, help to reduce emissions from iron and steel production worldwide.”

Mikael Nordlander, Head of R&D Portfolio Industry Decarbonisation, Vattenfall, adds: “Fossil-free hydrogen is central to the HYBRIT process. Hydrogen can be produced cost-effectively through the electrolysis of water using fossil-free electricity. The hydrogen produced by the electrolysers can be used immediately or stored for later use. One of the key aspects of our storage facility relies on the hydrogen compression to be deployed in a contamination-free manner. Based on their proven technology, expertise and references, we are delighted to cooperate with Howden on the integration of a reliable compression solution for storage.”

Howden says it is focused on helping customers increase the efficiency and effectiveness of their air and gas handling processes enabling them to make sustainable improvements in their environmental impact. It designs, manufactures and supplies products, solutions and services to customers around the world across highly diversified end-markets and geographies.

HYBRIT hydrogen storage facility finds financial backing

Environmental, Metallurgy, Mining industry recognition, Power supply for mines, Steel and iron ore, Sustainable mining, , , , , , , , , , , ,

SSAB, LKAB and Vattenfall have agreed to invest SEK150 million ($15.2 million) on construction of a storage facility for hydrogen at the HYBRIT pilot plant for fossil-free steel.

The funding, which comes on top of the Swedish Energy Agency’s close to SEK50 million pledge, is an important step towards the goal of fossil-free iron and steel production, the HYBRIT joint venture partners said.

The HYBRIT initiative began in 2016. By using fossil-free electricity and hydrogen instead of coke and coal in steel production, the emissions will be water instead of carbon dioxide. The initiative has the potential to reduce Sweden’s total carbon dioxide emissions by 10%, according to company estimates.

The plan is to build the new hydrogen gas storage facility 25-35 m below the ground surface on LKAB’s land in Svartöberget, Sweden, close to the pilot plant currently under construction on SSAB’s site in Luleå. Construction of the 100 cu.m storage facility is expected to start in 2021 and it will operate from 2022-2024. It is expected to be a pressurised hydrogen gas storage facility in a bedrock cavern with a steel lining as a sealing layer.

The implementation study for the HYBRIT initiative showed large-scale storage of hydrogen gas can play an important role in Sweden’s future energy system. As well as acting as a buffer to ensure an even flow to the steel production, a large-scale hydrogen gas storage facility would offer a better opportunity to balance the electricity system with a greater proportion of weather-dependent power generation, and enable a competitive production cost for the fossil-free steel, according to the project partners.

Magnus Hall, Vattenfall’s President and CEO, said: “I am very pleased that we, as partners, are step by step developing our joint fossil-free steel project, and the support from the Swedish Energy Agency is important.

“Now, with the support of the community, we are investing in the next piece of the jigsaw puzzle for a value chain in which hydrogen gas plays a decisive role in the success of the initiative and the development of competitive fossil-free electricity generation in Sweden.”

Martin Lindqvist, SSAB’s President and CEO, said the investment in a storage facility for fossil-free hydrogen gas is “an important building block in achieving our goal of a fossil-free value chain from ore to finished steel”, with Jan Moström, LKAB’s President and CEO, adding that he was pleased the project could make use of parts of the company’s former ore port facility for the experiment.

Robert Andrén, Director General of the Swedish Energy Agency, said large, complex and expensive leaps in technology need to be taken for the sake of the climate, to achieve the goal of zero net emissions.

“Large-scale storage of hydrogen gas will be an important piece of the jigsaw puzzle for a fossil-free value chain for steel manufacturing, but also in a future electricity system with an increasing proportion of weather-dependent power,” he said.

In June last year, SSAB, LKAB and Vattenfall, the HYBRIT initiative partners, started the construction of a unique pilot plant in Luleå. Work also began recently on the reconstruction of a pellet works in Malmberget to replace fossil fuel with bio oil, with the aim of manufacturing fossil-free pellets.

The pilot plants for fossil-free steel production will be used from 2021 to 2024, and the partners are already looking into the possibility of scaling up the manufacturing by building a demonstration plant in 2025, three years earlier than previously planned, to produce fossil-free steel from iron ore for commercial use. The aim for 2035 is to sell fossil-free steel on a broad scale.