Tag Archives: BioIron

Rio Tinto ups the BioIron ante with new pilot plant in Western Australia

Environmental, Steel and iron ore, Sustainable mining, , , , ,

Rio Tinto says it will invest $143 million to develop a research and development facility in Western Australia to further assess the effectiveness of its low-carbon ironmaking process, BioIron™, to support decarbonising the global steel value chain.

The development of the BioIron Research and Development Facility in the Rockingham Strategic Industrial Area, south of Perth, follows successful trials of the innovative ironmaking process in a small-scale pilot plant in Germany, the company says.

BioIron uses raw biomass and microwave energy instead of coal to convert Pilbara iron ore to metallic iron in the steelmaking process. When combined with the use of renewable energy and carbon-circulation by fast-growing biomass, BioIron has the potential to reduce carbon emissions by up to 95% compared with the current blast furnace method, according to the company.

The BioIron facility will include a pilot plant that will be 10 times bigger than its predecessor in Germany. It will also be the first time the steelmaking process has been tested at a semi-industrial scale, capable of producing one tonne of direct reduced iron per hour. It will provide the required data to assess further scaling of the technology to a larger demonstration plant.

The plant has been designed in collaboration with University of Nottingham, Metso and Western Australian engineering company Sedgman Onyx. Fabrication of the equipment will begin this year, with commissioning expected in 2026. These works are expected to support up to 60 construction jobs.

The research and development facility will employ around 30 full-time employees and include space for equipment testing to support further scaling up of the BioIron technology, while developing a workforce highly skilled in steel decarbonisation and supporting Western Australian universities and research organisations.

Rio Tinto Iron Ore Chief Executive, Simon Trott, said: “The world needs low-carbon steel to reach net zero, and we are working to make this a reality by finding better ways to turn our Pilbara ores into steel. BioIron is a world-first technology that has the potential to play a significant role in a low-carbon steel future.

“This research and development facility will further test the BioIron process, showcase Western Australian innovation capability, and further demonstrates Rio Tinto’s commitment to supporting and enabling the decarbonisation of the steel industry.”

Western Australian Premier, Roger Cook, said: “As one of the world’s largest iron ore producers, it just makes sense for WA to lead the world when it comes to low-emission steelmaking. Our plan to turn WA into a renewable energy powerhouse opens up massive economic opportunities for the future, like producing low-emission steel right here at home.

“Processing iron ore in WA will create jobs, reduce the world’s carbon emissions and help to diversify and strengthen our economy for decades to come. This is another job-creating clean energy project in our industrial heartland of Kwinana and Rockingham, part of our commitment to transitioning the industrial strip to a clean energy future.”

BioIron was invented by Rio Tinto’s steel decarbonisation team after a decade of extensive research. Electricity consumption in the BioIron process is about one-third of the electricity required by other steelmaking processes that rely on renewable hydrogen, according to the company. It uses raw biomass such as agricultural by-products like wheat straw, barley straw, sugarcane bagasse, rice stalks, and canola straw, instead of coal as the reducing agent.

Rio Tinto is aware of the complexities around the use of biomass supply and is working to ensure only sustainable sources of biomass are used, it says. Through discussions with environmental groups, as a first step Rio Tinto has ruled out sources that support the logging of old growth and High Conservation Value forests.

Metso and Rio Tinto to work on continuous pilot plant for BioIron process

Comminution of minerals, Mineral processing, Steel and iron ore, Sustainable mining, , , , ,

Rio Tinto has awarded Metso a detailed design and engineering contract for its continuous pilot plant (CPP) for the BioIron™ process.

The contract is an extension of the work that Rio Tinto and Metso have been doing together on the development of the BioIron process, the effectiveness of which was successfully proven through small-scale pilot tests conducted at Metso’s Research Center in Frankfurt, Germany.

The process uses raw biomass instead of metallurgical coal as a reductant and microwave energy to convert Pilbara iron ore to metallic iron in the steelmaking process. BioIron has the potential to support near-zero CO2 steelmaking, and can result in net negative emissions if linked with carbon capture and storage, according to Rio Tinto.

Rio aims to move further towards full-scale implementation of the BioIron technology through operation of a CPP, according to Metso, with the OEM entrusted with the detailed design of the CPP’s reduction furnace and certain other equipment for the BioIron process.

David Leigh, General Manager Steel Decarbonisation at Rio Tinto, said: “This work is the key next step in the development of the BioIron technology and builds on the success of the research and development team.”

Matthias Gabriel, Director, Ferrous at Metso, added: “We are very excited to continue the close working relationship with Rio Tinto and to provide engineering and design support as we move to the next phase of development of the BioIron technology.”

Rio Tinto verifies use of Pilbara ore for low-carbon iron-making using BioIron

Environmental, Mine operation news, Mineral processing, Mining services, Steel and iron ore, Sustainable mining, , , , , , , ,

Rio Tinto says it has proven the effectiveness of its low-carbon iron-making process using ores from its mines in Australia in a small-scale pilot plant in Germany, and is now planning the development of a larger-scale pilot plant to further assess its potential to help decarbonise the steel value chain.

The process, known as BioIron™, uses raw biomass instead of metallurgical coal as a reductant and microwave energy to convert Pilbara iron ore to metallic iron in the steelmaking process. BioIron has the potential to support near-zero CO2 steelmaking, and can result in net negative emissions if linked with carbon capture and storage, according to the company.

Over the past 18 months, the process has been tested extensively in Germany by a project team from Rio Tinto, Metso Outotec and the University of Nottingham’s Microwave Process Engineering Group. Development work was conducted in a small-scale pilot plant using batches of 1,000 golf ball-sized iron ore and biomass briquettes.

Rio Tinto Chief Commercial Officer, Alf Barrios, said: “Finding low-carbon solutions for iron and steelmaking is critical for the world as we tackle the challenges of climate change. Proving BioIron works at this scale is an exciting development given the implications it could have for global decarbonisation.

“The results from this initial testing phase show great promise and demonstrate that the BioIron process is well suited to Pilbara iron ore fines. BioIron is just one of the pathways we are developing in our decarbonisation work with our customers, universities and industry to reduce carbon emissions right across the steel value chain.”

BioIron’s potential was confirmed in a comprehensive and independent technical review by Hatch, the global engineering, project management and professional services firm, Rio said. Hatch noted the thorough work completed by the team and BioIron’s capacity to reduce greenhouse gas emissions while converting Pilbara iron ore into iron and steel.

The BioIron process will now be tested on a larger scale, at a specially designed continuous pilot plant with a capacity of 1 t/h. The design of the pilot plant is underway and Rio Tinto is considering suitable locations for its construction.

The BioIron process works using lignocellulosic biomass including agricultural by-products (eg wheat straw, canola stalks, barley straw, sugar cane bagasse) or purpose-grown crops. The biomass is blended with iron ore and heated by a combination of combusting gases released by the biomass and high-efficiency microwaves that can be powered by renewable energy.

Rio says it is aware of the complexities around the use of biomass supply and is working to ensure only sustainable sources of biomass are used. Accordingly, the company is undertaking a benchmarking study of biomass certification processes. Through discussions with environmental groups, as a first step Rio Tinto has ruled out sources that support the logging of old growth and High Conservation Value forests.