In brief… TICKER (Week 11)

Germany: Bosch develops new fuel cell solution for buses +++ Germany: Tool for checking BMV funding for hydrogen refueling stations and commercial vehicles +++ Canada: New Flyer orders 500 H2 bus engines from Ballard Power +++ Germany: University of Hamburg collaborates with Yamanashi University in Japan on green hydrogen +++ Oman: SLG delivers 80 MW electrolyzers to ACME +++ Germany: National Hydrogen Council provides input on the Master Plan for Hydrogen and E-Fuels in Transport

A selection of PtX topics summarized at the end of the week

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(Germany) Bosch has introduced a new variant of its fuel cell drive system under the name “C100”, which is suitable for all bus types, especially for urban buses. This expands the company's Fuel Cell Power Module (FCPM) portfolio, which ranges in power output from 100 to 300 kilowatts. The low-profile design, with a height of only 40 centimeters, allows for roof mounting, typical for the European market. The system is designed for city buses between 12 and 18 meters in length and is based on the FCPM C190 variant for intercity and coach buses. The latter will enter test operation in demonstration vehicles in the first half of 2026 and will be installed in the rear, similar to a diesel engine. With a system output of 300 kilowatts, the FCPM C300 is also suitable for heavy trucks. In 2025, Bosch announced the market launch of its Hybrion PEM electrolysis stack for hydrogen production. Furthermore, Bosch is working on technology for hydrogen engines and offers corresponding components for port and direct injection.

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(Germany) The federally owned Now GmbH has launched an interactive tool online that can be used to check whether a location meets the spatial requirements for the combined funding of hydrogen filling stations and commercial vehicles. As reported, the Federal Ministry of Transport (BMV) recently announced the Funding guidelines The German Federal Ministry of Transport (BMV) has published a plan for the development of an initial network of hydrogen refueling stations in combination with the purchase of commercial vehicles powered by hydrogen. A total of €220 million is being provided for this purpose. tool Users can select which funding option they want to use to assess a hydrogen refueling station location. If the planned location is in a green-colored area, it is eligible for funding after this non-binding assessment. The map displays the entire area of ​​Germany down to street level but is for orientation purposes only.

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(Canada) Ballard Power Systems Inc. is to supply 500 "FCmove-HD+" fuel cell engines with a total output of 50 megawatts to New Flyer of America Inc., a subsidiary of NFI Group Inc. Deliveries will begin later this year and the vehicles will be installed in Xcelsior CHARGE FC buses. This puts New Flyer "well-positioned to accelerate zero-emission operations across North America," says Oben Uluc, Ballard's vice president of sales and marketing. The vehicles will replace diesel buses, says David White, executive vice president of supply management at New Flyer. New Flyer had already begun a long-term plan to introduce these vehicles in 2024. Supply contract An order with Ballard was increased from 100 to 200 engines. Today, the Ballard-powered fleets worldwide have grown to more than 2.200 fuel cell buses, with a total of over 250 million kilometers driven, 98 percent availability, and no reported safety incidents.

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(Germany) The University of Hamburg and the University of Yamanashi (Japan) are strengthening their collaboration in the field of research on green hydrogen and electricity-based synthetic fuels (E-fuels) within the framework of a new “Japanese-European Clean Energy Material Research Hub”. Mehtap Özaslan is the lead researcher for the University of Hamburg. "Currently, there is a consolidation phase in the field of green hydrogen – many are waiting for new funding," says the professor of technical electrocatalysis in the Department of Chemistry. The energy carrier has not yet become as widespread as hoped, and the current political uncertainty is making things more difficult. However, policymakers in Germany, the EU, and Japan agree that green hydrogen is needed. "We have to move away from oil and natural gas." During her time at the Technical University of Braunschweig, the chemist established a research presence in Japan with the German-Japanese Green Hydrogen Material Laboratory, which opened in 2022. Japan has been committed to green hydrogen "for a long time." There are "many companies in the field of materials and components there that are also of interest to us in Europe," says Özaslan: "Japanese companies are looking for partners in Europe and vice versa." The initial steps involve research, material exchange, and joint publications. A double degree program is planned for master's students, in which students would receive a degree from both universities.

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(Oman) The Chinese company Shuangliang International Co. Ltd. (SLG) has delivered electrolyzers with a capacity of 80 megawatts to the Indian conglomerate ACME Cleantech Solutions Pvt. Ltd. The equipment is destined for the "300-TPD" project in Oman. ACME plans to use it to produce 300 tons of green ammonia daily in the special economic zone of the port city of Duqm. Commissioning is scheduled for 2027. In March 2022, the Norwegian project developer and operator of renewable energy plants, Scatec ASA, and ACME established a 50:50 joint venture to develop, build, and operate the plant. plans According to reports, the electricity for hydrogen production will come from a newly constructed solar power plant with an installed capacity of 500 megawatts. Once fully operational, the plant will produce 1,2 million tons of ammonia. The electrolyzer capacity is to be expanded to 3,5 gigawatts by then, it was stated at the time. In March 2024, ACME and the Norwegian fertilizer company Yara International ASA signed an agreement. Vereinbarung Signed for the delivery of 100.000 tons of ammonia annually.

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(Germany) In a paper on the planned master plan for hydrogen and e-fuels in the mobility sector, the National Hydrogen Council (NWR) emphasizes the “strategic importance of hydrogen for transport, industry and technological sovereignty of Germany”. Hydrogen is not a niche topic, especially in the truck sector, "but alongside electromobility, an important building block for climate protection, security of supply, and industrial competitiveness," says Felix Christian Matthes, acting chairman of the National Hydrogen Council. According to him, the energy carrier is a "key to important mobility segments" and plays "a crucial role in segments with particularly significant challenges in the transition to climate neutrality"—including road-based heavy goods transport, aviation, shipping, and parts of the rail sector. Battery-electric and hydrogen-based drives should be understood as two complementary technologies, as they serve different application profiles and together increase the resilience of the transport system. A prerequisite for a market breakthrough is a comprehensive, expandable hydrogen refueling network—including 350-bar, 700-bar, and, in the future, liquid hydrogen refueling. This must be "supported by the government at an early stage." Continuing the National Innovation Programme for Hydrogen and Fuel Cell Technology (NIP) beyond 2026 is necessary "to advance research, industrialization and scaling". The paper “Master plan for hydrogen and e-fuels in the mobility sector: Input from the NWR” is available free of charge as a PDF (22 pages).

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Photos
iStock / © Danil Melekhin