Saft and Siemens Mobility Collaborate to Power Hydrogen Trains with Advanced LTO Batteries in Germany
Key Ideas
- Saft and Siemens Mobility partner to equip Mireo Plus H hydrogen trains in Germany with advanced Lithium Titanate Oxide (LTO) traction batteries.
- LTO batteries offer fast-charging capability, increased safety, improved performance, and a lifespan of 10 to 15 years, supporting Germany's clean energy goals.
- The batteries assist in acceleration, braking, and energy recovery, making them well-suited for rail traction applications and showcasing versatility across industries.
- LTO technology, with its unique chemistry and standout features, is not limited to rail; it finds applications in AGVs for fast charging and in space for increased energy efficiency.
Saft, a subsidiary of TotalEnergies, has joined forces with Siemens Mobility to enhance the next generation of Mireo Plus H hydrogen trains in Germany by integrating advanced Lithium Titanate Oxide (LTO) traction batteries. These batteries play a pivotal role in achieving Germany's clean energy objectives, working alongside hydrogen fuel cells to power the trains and enabling zero-emission operations over long distances without the need for overhead power lines.
Cedric Duclos, CEO of Saft, highlighted the advantages of adopting this innovative technology, emphasizing improved safety, reliability, lower CO2 emissions, increased lifespan, and enhanced power compared to previous Li-ion batteries.
The LTO batteries offer rapid charging, exceptional safety features, and a long lifespan, supporting the performance of the Mireo Plus H trains. They are crucial for acceleration, braking, and energy recovery, compensating for fuel cell limitations and contributing to stable and efficient rail traction.
Beyond rail applications, LTO batteries have diverse uses across industries. They power AGVs for fast charging in warehouses and hospitals, ensuring uninterrupted operations, and enhance energy efficiency in space systems, particularly in Low Earth Orbit. The unique properties of LTO technology, including rapid charge/discharge rates and stable electrochemistry, make it a preferred choice for various applications where efficiency and reliability are paramount.
Topics
Fuel Cells
Renewable Energy
Clean Energy
Technology
Innovation
Sustainability
Transportation
Battery Technology
Rail Transportation
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