Daimler Truck Invests in KEYOU for Hydrogen Technology
Leinfelden-Echterdingen/Munich – Daimler Truck AG and KEYOU GmbH are partnering to offer trucks equipped with hydrogen internal combustion engines. The goal of the collaboration is to provide a technology that is available in the short term, cost-effective, and robust, and that effectively complements existing decarbonized powertrains. Existing vehicle and engine variants from Daimler Truck will serve as the technical foundation for rapid implementation and market launch. KEYOU will be responsible for the hydrogen retrofit, with service providers from the Munich-based company adapting the vehicle and engine. A market launch is still planned for 2027. The parties have now signed a corresponding agreement.
“Road freight transport requires different propulsion solutions for different operating profiles. Hydrogen can be used in both fuel cells and internal combustion engines. With KEYOU, we are collaborating with a specialized partner to bring hydrogen-powered internal combustion engine technology to market quickly and efficiently,” says Andreas Gorbach, Member of the Board of Management at Daimler Truck, responsible for Truck Technology.
Thomas Korn, CEO and co-founder of KEYOU GmbH: “The collaboration with Daimler Truck is an important step for us in bringing our KEYOU-inside technology to industrial application. Together, we can significantly accelerate the development and scaling of hydrogen-based propulsion solutions in the commercial vehicle sector, thereby making a concrete contribution to the decarbonization of heavy-duty transportation.”
Efficiency: Partnership Instead of In-House Development
Daimler Truck has extensive expertise in the development of internal combustion engines and has been researching hydrogen combustion for several years as part of its early-stage development efforts. For the market launch, the company is deliberately relying on a collaborative model.
KEYOU specializes in converting existing engine platforms to hydrogen and takes an approach based on proven production vehicles. This division of labor allows Daimler Truck to optimize development efforts while enabling rapid time-to-market.
In addition to vehicle development, KEYOU also places a strong emphasis on long-term customer support as a key aspect of the partnership. As a next step, KEYOU and Daimler Truck plan to hold discussions on how existing service and maintenance structures could be utilized in the future to offer fleet operators a high level of operational reliability and availability.
Through this collaboration, both companies are laying the groundwork for a long-term industrial partnership in the field of hydrogen-based commercial vehicle powertrains. The collaboration deliberately goes beyond a mere technological partnership.
Here’s How the Cooperation Model Is Implemented
The first vehicle will be the KEYOU HICE.40 tractor-trailer, which is scheduled to be launched in 2027. — Under the agreement, Daimler Truck plans to sell Mercedes-Benz Actros L 1848 tractor trucks and engines manufactured in Mannheim—based on the existing 12.8‑liter engine platform—to KEYOU. The Munich-based company KEYOU is responsible for the technological adaptation to a hydrogen-powered internal combustion engine. The technical conversion of the trucks and the integration of the KEYOU-inside engine will be carried out by qualified external service providers.
The resulting KEYOU HICE.40 tractor-trailer is designed for operation with a gross vehicle weight of 40 metric tons and, according to the manufacturer, is expected to achieve a range of up to 650 kilometers thanks to its 350-bar pressurized hydrogen technology. With an output of up to 350 kW and a Port Fuel Injection (PFI) system, it is intended to offer a proven and powerful solution for demanding freight transport. In the future, the technology can also be applied to other vehicle series.
KEYOU then offers the vehicles to customers—and, in the future, also in combination with the emerging hydrogen refueling station infrastructure, which is supported, among other things, by funding programs from the Federal Ministry of Transportation. — This could also help drive demand for hydrogen and the corresponding infrastructure. Daimler Truck supports the development of hydrogen refueling stations capable of dispensing both gaseous and liquid hydrogen. This allows all common forms of H2 to be offered at a single station, just as we are accustomed to with gasoline and diesel. This integration enables the development of a standardized infrastructure while reducing costs through higher utilization rates. Today’s hydrogen internal combustion engines require gaseous hydrogen. Technically, however, a transition to liquid hydrogen—as Daimler Truck already uses in its fuel cell trucks—is also conceivable. This integrated approach makes it easier for customers to transition to hydrogen-based transportation.
Starting in late 2027, hydrogen-powered trucks can thus be introduced into the market on a scalable basis to make a sustainable and measurable contribution to the decarbonization of road freight transport.
Two technologies, one goal: decarbonizing road freight transport
Daimler Truck is pursuing a dual strategy to decarbonize its vehicle portfolio using battery-electric and hydrogen-based powertrains. Battery-electric trucks are particularly well-suited for predictable routes, including heavy-duty long-haul transport, and thus cover a large portion of customers’ use cases. Fuel cell technology offers advantages, particularly in flexible and demanding long-haul transport. In combination with liquid hydrogen, this enables ranges of well over 1,000 km with short refueling times.
The hydrogen internal combustion engine, in turn, is characterized by high robustness, lower system complexity compared to fuel cells, and very little need for adaptation to existing vehicle architectures. It is also particularly well-suited for applications with high payloads. Due to its compact design and the ability to utilize existing industrial infrastructure, the technology can be implemented cost-effectively. Trucks powered by fuel cells or hydrogen combustion engines thus represent a sensible complement to battery-electric trucks for customers.
Hydrogen will play a key role in the decarbonization of numerous economic sectors, including the steel industry and nearly all energy-intensive sectors. Furthermore, existing challenges related to infrastructure and energy availability underscore the need for hydrogen in road freight transport as well. As electrification progresses in Europe, the power grid is becoming increasingly strained. Expanding the high-voltage grid accordingly involves considerable time and expense. It would be faster and more cost-effective to develop electricity and hydrogen infrastructure in parallel.
Against the backdrop of recent geopolitical developments and Europe’s continued heavy reliance on imported fossil fuels—currently more than 50 percent of its primary energy comes from coal, oil, and gas—hydrogen can help diversify the energy supply. As a globally tradable, renewable, and virtually inexhaustible energy source, hydrogen has the potential to increase security of supply and relieve pressure on the energy system.
Furthermore, hydrogen can make an important contribution to strengthening competitiveness in road freight transport: Europe’s industrial base, technological expertise, and manufacturing infrastructure provide the foundation for further expanding Europe’s position in hydrogen and fuel cell technology and securing long-term value creation.