PEM Develops Modular Powertrain for TrucksCopyright: © PEM RWTH Aachen
In the "SeLv" project, the "Production Engineering of E-Mobility Components" (PEM) chair at RWTH Aachen University is developing a modular powertrain for trucks that allows individual configurations depending on requirements. The integration of a fuel cell system with an electric drive unit serves as the basis. The development focuses on industrializing the production processes for the powertrain. The goal: unit-based cost advantages in manufacturing. "SeLv" stands for "Heavy-duty trucks for zero-emission logistics in heavy-duty transport using electrification modules and an economical production system" and is being funded by the German Federal Ministry of Transport with around 16.9 million euros.
Traffic and transport sector causes 20 percent of CO2 emissions
The background to the research project is the 20 percent share of the traffic and transport sector in Germany-wide greenhouse gas emissions. Heavy goods and commercial vehicles in turn account for around 35 percent of these. To achieve the climate targets, it is therefore necessary to electrify heavy-duty transport in addition to passenger cars for private use. Hydrogen technology has a key role to play here, as underpinned by the German government's National Hydrogen Strategy (NWS).
Converting existing vehicles to electric drive systems
Due to the high energy requirements of heavy trucks, it is important to exploit the technological advantages of the fuel cell – above all the long range and high possible vehicle masses – in order to realize locally emission-free long-distance traffic. This requires not only the renewal of vehicle fleets but also the electrification of numerous existing vehicles.
- "SeLv": Heavy-duty trucks for zero-emission logistics in heavy-duty transport using electrification modules and an economical production system
- Conceptual design and validation of a modular electrification kit for powertrain configuration to integrate battery and fuel cell overall system and integrated electric drive unit
- Concept adaptation and evaluation of the suitability of different hydrogen pressure storage stages in an overall fuel cell system for use in heavy trucks
- Conceptual design of an integrated production system for the modular electrification kit, consisting of scalable fuel cell system and battery
Research and project partners
- 08/13/2020 thorugh 10/31/2023
Federal Ministry of Transport and Digital Infrastructure (BMVI)
The project is funded within the framework of the implementation of the Mobility and Fuel Strategy (MKS) of the Federal Government with a total of exactly 16,879,790.68 euros. The funding measure is coordinated by NOW GmbH.