Liten is a major European research institute and a driving force behind the development of the sustainable energy technologies of the future. The institute is spearheading the EU’s efforts to limit dependency on fossil fuels and reduce greenhouse gas emissions in three key areas: renewable energy, energy efficiency/storage and development of materials.
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Liten's research teams work across a vast portfolio of renewable energy technologies. Cutting-edge photovoltaic technologies are developed at INES, the French National centre for solar research and R&D with Hydrogen and Biomass activities being managed from the LITEN's main site in Grenoble, Rhone-Alpes.
“Radically improving energy efficiency will reduce the need for investment in energy infrastructure, cut fuel costs, increase competitiveness, lessen exposure to fuel price volatility, increase energy affordability for low-income households and cut local and global pollutants improving consumer welfare” Source OECD Energy report, 2014
From nanosecurity, nanocharacterisation,and anti-counterfeiting technology to the development of advanced materials and point of sale: a comprehensive offering.
Transverse activities help add value to our technology portfolio. An optimised modeling and characterisation model, for example, can help reduce time to market. Browse this section to find out more....
News | New technologies
Hydrogen production and storage
The French government sent a strong message about hydrogen’s potential in an official announcement of the start of the €100 million plan to develop the energy carrier starting in 2019. Liten, a CEA Tech institute, active in hydrogen research for more than two decades, is poised to address hydrogen development from a position of leadership. The institute possesses solid know-how in the main applications targeted by the government’s strategy and, in some cases, has already successfully transferred its technologies to industrial companies.
In 2005 Liten developed the first Genepac fuel cell for PSA. The fuel cell was unveiled in 2006 and integrated into a Peugeot 307 CC three years later. An improved version of the fuel cell was transferred to Symbio in 2012 to equip captive fleets of hydrogen-powered Renault Kangoo utility vehicles. Last year, Liten signed an agreement with major global automotive equipment manufacturer Faurecia to continue to develop fuel cells to prepare for widespread rollout.
Hydrogen is currently produced mainly via the steam reforming of hydrocarbon fuels, a process that generates substantial CO2 emissions. Liten is focusing on a high-temperature water-electrolysis technology developed in conjunction with Sylfen to help reach the government’s target of 10% “green” hydrogen by 2023. The partners recently announced that they designed, assembled, and tested the first reversible functional demonstrator of the Smart Energy Hub in Grenoble, France. In electrolyzer mode, the Smart Energy Hub produces hydrogen from solar electricity; in fuel-cell mode, it provides power and heat for buildings. The demonstrator marks a crucial step toward transferring French-developed high-temperature reversible electrolysis technology to industry.
From components to systems
Liten also possesses strong know-how in software used to improve the components it develops. For example, Liten researchers can use the institute’s validated simulation software to improve the design of the bipolar plates—highly complex components by definition—found in fuel cells.
The same applies to complex systems like the Energy Observer (the world’s first hydrogen-powered boat), where Liten researchers developed software to automate management of the vessel’s entire energy system, which includes a complete hydrogen chain, to provide a reliable power supply on board. Liten can also assess the economic viability of complex systems, something the institute recently completed for a project in Corsica.
Finally, as a leader in energy research, Liten is active in the major current and future demonstrator systems in France to convert CO2 into syngas, coupling syngas and “green” hydrogen production. These initiatives include the GRHYD power-to-gas project, which kicked off on June 11, 2018, and the Jupiter 1000 power-to-gas project, which began in 2017.
CEA is a French government-funded technological research organisation in four main areas: low-carbon energies, defense and security, information technologies and health technologies. A prominent player in the European Research Area, it is involved in setting up collaborative projects with many partners around the world.