Europe’s largest inland port to become hydrogen pioneer
Rolls-Royce says it will ensure a climate-neutral energy supply at the container terminal currently under construction at the Port of Duisburg in Germany.
Rolls-Royce’s Power Systems business unit is supplying its latest mtu hydrogen technology for this purpose, in order to supply the future terminal with electrical energy and heat in a sustainable manner: mtu fuel cell solutions for electrical peak load coverage as well as mtu hydrogen heat and power generation station. To this end, Duisport, one of the world’s largest inland ports, is working with several partners to build a hydrogen-based supply network by 2023.
Hydrogen technology is no longer a dream of the future
The largest container terminal in Europe’s hinterland, enerport II, is currently being built on a former coal island, once a transshipment point for bulk cargo.
The hydrogen-powered mtu fuel cell solutions supply electrical power as soon as the public power grid reaches its limits, for example for the on-board power supply of ships berthed in the port or in the event of other load peaks. In addition, two combined heat and power plants with mtu hydrogen engines of the 4000 series convert hydrogen energy into electrical energy, which is fed into the supply network of the future container terminal or into the public grid. The waste heat is used for process heat or for heating buildings in and around the port. Furthermore, photovoltaic systems and battery storage are integrated into the local supply network, which is being realised by the port operator Duisport, Westenergie Netzservice, Netze Duisburg, Stadtwerke Duisburg and Stadtwerke Duisburg Energiehandel together with the Fraunhofer Institute Umsicht. The project is being funded by the German Federal Ministry for Economic Affairs and Energy for a period of four years as part of the government’s so-called Hydrogen Technology Offensive.
“Hydrogen technology is no longer a dream of the future, but hydrogen technology will prove itself in everyday use in Duisburg. The parallel use of fuel cell solutions and hydrogen engines shows that we have taken the right path with our technology-open approach to the development of new solutions for the energy supply of the future,” said Andreas Schell, CEO of Rolls-Royce Power Systems.
Ballard to Power Talgo Fuel Cell Passenger Train in European Trial, Ahead of Planned 2023 Launch
VANCOUVER, CANADA and HOBRO, DENMARK – Ballard Power Systems (NASDAQ: BLDP; TSX: BLDP) today announced that the Company has signed an Equipment Supply Agreement to provide 8 of its 70-kilowatt FCmoveTM-HD fuel cell modules to Talgo S.A. (Talgo; www.talgo.com) – a leader in the design, manufacture, and maintenance of high-speed light rail trains, headquartered in Madrid, Spain – for trials of its Talgo Vittal-One commuter and regional passenger train. Talgo plans to conduct their demonstration in early 2022 in Spain, with expected commercialization in 2023.
Talgo has an industrial presence in Spain, Germany, Kazakhstan, Uzbekistan, Russia, Saudi Arabia and the U.S., and is recognized worldwide for its capacity for innovation, unique and distinctive technology and reliability.
Emilio Garcia, Talgo Innovation Director said, “Green hydrogen is no longer the future, it is a reality. The implementation of hydrogen trains, such as the one Talgo is developing, will improve mobility and have a positive impact on the environment by replacing diesel technology. It will allow us to make the most of the non-electrified railways in many countries, while reducing the carbon footprint.” Mr. Garcia continued, “The announcement earlier this year of EU policies to accelerate decarbonization further validate this key step in early adoption of hydrogen trains in order to achieve these greenhouse gas reduction goals.”
Oben Uluc, Ballard Director of Sales for EMEA and India noted, “We are excited to be working with Talgo through the testing phases of its Talgo Vittal-One train. This relationship is another sign of the growing momentum in deployment of zero-emission fuel cell propulsion solutions in the rail industry across numerous geographies. Fuel cell systems enable conventional rail networks to realize the benefits of electrification without the cost and infrastructure challenges of overhead catenary wiring.”
The modular system being designed by Talgo is intended for installation on all types of passenger trains, as well as in upgrades or retrofits from diesel to hydrogen power. The innovative system utilizes hydrogen and fuel cells for propulsion, complemented by batteries that assist the train from a standing start and take advantage of the braking system for recharging. Hydrogen technology is an appropriate solution for heavy transport applications such as trains, where railway lines do not currently have catenary electrification systems and depend on diesel engines.
About Ballard Power Systems
Ballard Power Systems’ (NASDAQ: BLDP; TSX: BLDP) vision is to deliver fuel cell power for a sustainable planet. Ballard zero-emission PEM fuel cells are enabling electrification of mobility, including buses, commercial trucks, trains, marine vessels, passenger cars and forklift trucks. To learn more about Ballard, please visit www.ballard.com.
Forward-looking statements
This release contains forward-looking statements concerning the development and delivery of fuel cell products, and the benefits and anticipated market adoption of them. These forward-looking statements reflect Ballard’s current expectations as contemplated under section 27A of the Securities Act of 1933, as amended, and Section 21E of the Securities Exchange Act of 1934, as amended. Any such statements are based on Ballard’s assumptions relating to its financial forecasts and expectations regarding its product development efforts, manufacturing capacity, and market demand. For a detailed discussion of the factors and assumptions that these statements are based upon, and factors that could cause our actual results or outcomes to differ materially, please refer to Ballard’s most recent management discussion & analysis. Other risks and uncertainties that may cause Ballard’s actual results to be materially different include general economic and regulatory changes, detrimental reliance on third parties, successfully achieving our business plans and achieving and sustaining profitability. For a detailed discussion of these and other risk factors that could affect Ballard’s future performance, please refer to Ballard’s most recent Annual Information Form. These forward-looking statements are provided to enable external stakeholders to understand Ballard’s expectations as at the date of this release and may not be appropriate for other purposes. Readers should not place undue reliance on these statements and Ballard assumes no obligation to update or release any revisions to them, other than as required under applicable legislation.
– Green hydrogen Gigafactory to be built at the University of Sheffield Innovation District
18 November 2021
The University of Sheffield and ITM Power have launched a pioneering collaboration to advance the hydrogen sector, including an agreement for a new ITM Gigafactory.
(Credit: University of Sheffield)
ITM Power has reached an agreement on Heads of Terms with the University to acquire a substantial site at its Innovation District for the company’s second UK factory in Tinsley, Sheffield. The Gigafactory, which is expected to be fully operational by the end of 2023, will manufacture electrolysers that split water into molecules of hydrogen and oxygen using renewable power. The resultant zero-carbon green hydrogen can then be used to decarbonise industrial processes, transport and heating, and will play a major role in achieving net zero.
The partnership between ITM Power and the University will also include the development of a new National Hydrogen Research, Innovation and Skills Centre, which will lead to the creation of new jobs at all levels of the hydrogen sector as well as training and career development, and the promotion of hydrogen domestically and internationally.
Professor Koen Lamberts, President and Vice-Chancellor of the University of Sheffield said: “We are very pleased to be launching this partnership with ITM Power. Hydrogen is one of the most exciting and promising clean energy solutions and ITM is at the forefront of green hydrogen manufacturing. This partnership is a milestone for both partners and the region in leading the way to achieving net zero through technological innovation.”
The new factory will also include office space for manufacturing staff and will be a low environmental impact building, using the best of current low carbon technologies. ITM Power will work closely with a developer, to be appointed once planning permission has been received, to incorporate low carbon footprint materials and facilities.
Sir Roger Bone, Chairman of ITM Power, said: “The opportunity to partner with the University of Sheffield, recognised for its excellence in all aspects of industrial research, will enable both parties to train the next generation of hydrogen engineers and scientists, and continue to grow the company and the economy in the region. I look forward to seeing this relationship develop and prosper in the years ahead”
The National Hydrogen Research, Innovation and Skills Centre, which will also be located at the University of Sheffield Innovation District, neighbouring ITM Power’s proposed new site, is expected to include research into the safe and efficient manufacture of hydrogen using renewable energy and/or nuclear power; research into improving hydrogen system manufacturing processes; and research into the use of ‘digital twins’ (as already in use with ITM Power) to enhance manufacturing of hydrogen equipment.
Professor Dave Petley, Vice-President for Innovation at the University of Sheffield said: “The University of Sheffield has world renowned expertise in energy innovation, and we recently announced a new Sustainable Aviation Fuels Innovation Centre, adjacent to our Translational Energy Research Centre, both housed at the University of Sheffield Innovation District. Our experience in bringing together academic research and industrial expertise is helping to solve the world’s biggest problems, and our partnership with ITM Power to advance the hydrogen sector will help make net zero a reality.”
Dr Graham Cooley, CEO of ITM Power, said: “I am delighted to be working more closely with the University of Sheffield and that our second UK factory site is in Sheffield. Both initiatives will support the local economy through job creation and supply chain support.
“The planning and construction of our second, 1.5GW capacity, factory marks the next step on delivering on our strategic plan to create a blueprint for a more automated PEM electrolyser manufacturing facility to be rolled out internationally. Our focus now is on increasing utilisation and throughput at our Bessemer Park Gigafactory as we prepare for the next step change in capacity.”
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