MIT and DMI to develop first open-source hydrogen fuel cell powered motorcycle
The student-run MIT campus team is partnering with Doosan Mobility Innovation for the project. A student run MIT Electrical Vehicle Team (MIT EVT) focused on innovation regarding electric vehicles has partnered with hydrogen fuel cell technologies provider Doosan Mobility Innovation (DMI) to develop an H2-powered motorcycle. The team hopes that battery-powered vehicles (BEVs) are a jumping off point to H2-powered vehicles. The MIT EVT hopes that the hydrogen fuel cell motorcycle development will help to overcome a range of challenges associated with BEVs while addressing concerns regarding sh…
The student-run MIT campus team is partnering with Doosan Mobility Innovation for the project.
A student run MIT Electrical Vehicle Team (MIT EVT) focused on innovation regarding electric vehicles has partnered with hydrogen fuel cell technologies provider Doosan Mobility Innovation (DMI) to develop an H2-powered motorcycle.The team hopes that battery-powered vehicles (BEVs) are a jumping off point to H2-powered vehicles.
The MIT EVT hopes that the hydrogen fuel cell motorcycle development will help to overcome a range of challenges associated with BEVs while addressing concerns regarding shortages and environmental issues associated with lithium mining. The team is working under the advising of Professor Alexander H. Slocum from MIT’s Department of Mechanical Engineering. In this partnership between the MIT EVT and DMI, the goal is to create one of the first ever open-source H2-powered motorcycles. As a part of this partnership, DMI will be providing the team with a DM15 fuel cell module. That unit will be integrated into a motorcycle once it has been designed by the MIT EVT.The DMI15 will allow the hydrogen fuel cell motorcycle to operate carbon emission free.
The DM15 is a cutting-edge fuel cell technology for use in mobile applications needing efficient, clean and reliable operation. It is fueled by H2, which it converts into electricity. The only byproduct of this process is water vapor.
If the vehicle is fed by green H2 (produced using electrolysis powered by renewable electricity), then it will offer an important step forward toward a fully zero-carbon footprint vehicle operation.