Talgo elige Extremadura para presentar su innovador sistema de propulsión de hidrógeno - corporate
null Talgo elige Extremadura para presentar su innovador sistema de propulsión de hidrógeno
16 Sep 2020
Talgo chooses Extremadura to present its innovative hydrogen propulsion system
It will be the first prototype in Spain
Hydrogen technology is an emission-free alternative for non-electrified lines, where diesel trains are now operating
The system has been presented in Don Benido, Badajoz, within the framework of the SOI H2 Conference, on the possibilities that hydrogen technologies present in the Southwest of the Iberian Peninsula (SoI)
Talgo has presented this Wednesday at Don Benito, in Badajoz, its hydrogen-based rail vehicle propulsion system, a green, innovative and efficient alternative to replace diesel engines. The project has been presented within the framework of the first Conference on Hydrogen as a Vector of Socioeconomic Development in the Southwest of the Iberian Peninsula (SOI H2). The event, which was held both on site and virtually, was attended by Emilio Garcia, Director of Innovation at Talgo.
This system is configured as a modular solution that can be installed on all types of trains, but has been specifically designed for the Urban and Medium Distance Vittal platform, with which Talgo competes in various bidding processes in Spain and other countries.
The first track validation tests will be carried out on the Extremadura railway lines in the fourth quarter of 2021.
This innovative system uses hydrogen batteries that provide the energy for the train's electric motors. It is powered by renewable energy sources, such as solar photovoltaic or wind, which produce hydrogen that is stored and then used to power fuel cell-based propulsion systems, such as the one designed by Talgo. The system is complemented by batteries that increase the speed of the train when it starts, taking advantage of the braking system to recharge it.
Unlike the extended battery systems in the automotive industry, hydrogen (H2) technology is the logical answer to the needs of heavy transport and, in particular, of those railway lines that do not have catenary electrification systems, and which today depend on trains powered by diesel engines. The hydrogen system designed by Talgo enables conventional network lines to be "electrified" without the need for costly and lengthy adaptation operations, and without the use of fossil fuels.
Spain's leading high-speed train manufacturer has selected Extremadura as part of a broader strategy that recognizes the efforts of Extremadura's civil society, business and regional public administrations to innovate and accelerate a transition to completely decarbonized transport networks.
The choice of Extremadura has to do not only with the type of existing infrastructure but also with the fact that it is one of the Spanish regions that have expressed a more decisive commitment to the creation and regeneration of industrial networks based on the local production of hydrogen.
Talgo S.A., is the leading company in the design, manufacture and maintenance of high-speed light trains with industrial presence in seven countries: Spain, Germany, Kazakhstan, Uzbekistan, Russia, Saudi Arabia and the United States. The company is recognized worldwide for its innovative capacity, unique and distinctive technology and reliability. Talgo is the train supplier for the "Haramain" high-speed railway project between Mecca and Medina in Saudi Arabia, and counts the German, American and Russian railway administrations among its customers.
About the SOI H2 Project
The SOI H2 Project is a transversal initiative driven by both the public and private sectors to make the Hydrogen industry a vector of socio-economic development in the Southwest of the Iberian Peninsula. This project has the direct support of LLOABRE, ADRAL and Fundecyt- PCTEX (Junta de Extremadura), which estimates at 50,000 the number of jobs that could be created in the Euroregion ALEX (Alentejo + Extremadura).
For more information
Phone: +34 91 576 52 50
Jornadas SOI H2