To advance efficiency and durability of proton exchange membrane fuel cells at a pre-competitive level to enable their commercialization for heavy-duty vehicle applications with an initial focus on long-haul trucks.
Electrification is a paradigm shift for the transportation sector that provides a promise of clean, renewable means of moving goods and people. For heavy-duty applications that require more power and longer range, green clean hydrogen is a compelling fuel that provides a future fleet of clean, emission-free vehicles. To realize this reality of hydrogen-fueled vehicles in the heavy-duty regime, there is a need to improve the fuel cells that provide the underlying hydrogen to electricity generation on board.
Proton-exchange membrane fuel-cells (PEMFCs) have many benefits over internal combustion engines (ICEs) and pure battery-powered propulsion used in the transportation sector, including higher efficiency and better scalability and refueling, respectively. The fuel-cell technology for heavy-duty vehicles (HDVs), however, requires a paradigm shift in fuel-cell research and development compared to the current state of the technology for light-duty vehicles (LDVs), which has been achieved decades-long research and progress. Instead of a focus on increased power densities and lower cell costs in LDVs, M2FCT will focus on commercialization of fuel-cell trucks demand a greater focus on efficiency and significantly longer lifetimes, and 4 to 5x improvements in durability.
Who We Are
Million Mile Fuel Cell Truck (M2FCT) is a Department of Energy (DOE)-funded consortium formed by five primary national labs to overcome durability and efficiency challenges in PEMFCs for heavy-duty applications with an initial focus on long-haul trucks. The consortium coordinates National Laboratory activities related to fuel-cell efficiency and durability, provides technical expertise, and harmonizes activities with industrial developers across the Hydrogen Fuel Cell and Technology Office's HDV PEMFC portfolio, which is located in DOE's Office of Energy Efficiency & Renewable Energy, thus amplifying their impact.
M2FCT comprises five principle National Laboratories listed below and 3 affiliate laboratories as well as supports various industry- and academia-led projects.
- Los Alamos National Laboratory (LANL)
- Lawrence Berkeley National Laboratory(LBNL)
- Argonne National Laboratory (ANL)
- National Renewable Energy Laboratory (NREL)
- Oak Ridge National Laboratory (ORNL)
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What We Do
We envision the M2FCT consortium as a beacon in the community and clearinghouse for data and ideas, while providing proactive leadership and guidance under its umbrella of lab, academic, and industrial projects. We plan to strengthen domestic competitiveness with a focus on HDV requirements.
The M2FCT consortium is focused on achieving an aggressive target for PEMFC HDV membrane electrode assemblies (MEAs) that combines efficiency, durability, power density, and implicitly, cost in a single metric:
2.5 kW/gPGM power (1.07 A/cm2 current density) at 0.7 V after 25,000 hour-equivalent accelerated durability test.
Beyond the 2025 target, the consortium will increase the system efficiency to meet the DOE efficiency targets of 68% (2030) and 72% (ultimate), and durability targets of 30,000 hours (ultimate) for long-haul trucks, as shown below. The durability targets for other HDVs include 35,000 hours for locomotives and 100,000 hours for marine applications.
Read more about fuel-cells for trucks and heavy-duty applications: Nature Energy article
Contact Us: [email protected]
This award recognizes Dr. ChungHyuk Lee for his work in high-performing and durable electrodes for proton exchange membrane fuel cells.