Cummins launches hydrogen internal combustion engine turbochargers for on-highway applications
22 January 2025
Cummins has launched a new turbocharger designed specifically for hydrogen internal combustion engines (H2 ICE). This advancement in turbocharging technology marks a significant milestone for heavy-duty commercial on-highway applications in Europe. Cummins Components and Software (CCS), part of Cummins’ Components business segment, has secured a contract to supply H2 ICE turbochargers to a major European OEM.
The H2 ICE turbocharger meets the industry’s growing demand for efficient and sustainable solutions, supporting the transition to low-emission transportation. It is specifically designed to power the first hydrogen internal combustion engine for heavy-duty on-highway applications in the European market.
H2 ICE engine technology has been classified as zero-emission by the European Union (EU) and represents a promising bridge solution for reducing emissions. H2ICE engine platforms also comply with the upcoming Euro VII emission standards, demonstrating the potential of hydrogen as a viable alternative in the journey toward global decarbonization.
The Cummins H2 ICE variable geometry turbocharger has been engineered to meet the unique requirements of hydrogen engines. With bespoke aerodynamics and advanced prognostics, the turbocharger optimizes performance under the challenging conditions presented by hydrogen combustion. The product is a cornerstone of Cummins’ Destination Zero strategy, which aims to achieve decarbonization by working with partners across industries to develop advanced, sustainable technologies.
Key Features of the CCS H2 ICE Turbocharger:
Bespoke aerodynamics designed for hydrogen combustion
Advanced prognostics to enhance performance and reliability
Compliance with Euro VII emission standards, aligning with the European Union’s environmental goals
During the development of the turbocharger, Cummins overcame significant challenges posed by the use of hydrogen as a fuel. These included adapting aerodynamics to address varying lambda requirements, managing the increased water production resulting from hydrogen combustion, and mitigating the metallurgical impacts of hydrogen use. Despite these hurdles, Cummins has successfully delivered a reliable and high-performance turbocharger for hydrogen powered heavy-duty on-highway truck engines.
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