GERMANY LAUNCHES €12.M FAB4LIB BATTERY PROJECT
Target of the project is to develop large-scale production of Li-ion batteries by a consortium of 17 companies and research institutes in Germany which will begin in due course. The Fab4Lib project as it is called, aims to explore innovative solutions along the value chain of lithium-ion technology and to validate them in demonstrators.
The project is managed by TerraE Holding GmbH, which also plans to implement the results obtained successively and promptly in large-scale production in its own factories. (Earlier post.) The German Federal Ministry of Education and Research (BMBF) is contributing €5.5 million (US$6.5 million) to the €12.1-million (US$14.3-million) project, which will run for 18 months.
The BMBF is supporting the development of battery cell production in Germany with the project Fab4Lib. The aim is to support German companies in the supply of battery cells. This is especially important for car manufacturers. The battery represents a large part of the added value of electric vehicles.
Partners in the Fab4Lib project are: TerraE Holding GmbH; StreetScooter GmbH; BMZ Batteries Assembly Center GmbH; SGL CARBON GmbH; Umicore AG & Co. KG; Custom Cells Itzehoe GmbH; Litarion GmbH; M + W Group GmbH; Manz AG; Siemens Aktiengesellschaft; ThyssenKrupp System Engineering GmbH; Westfälische Wilhelms-Universität Münster; Chair of Production Engineering of E-Mobility Components (PEM) of RWTH Aachen University; Center for Solar Energy and Hydrogen Research Baden-Württemberg (ZSW); Eco-institute; Institute for Applied Ecology e.V; and associated partners Solvay Fluor GmbH and Leclanché GmbH.
Partners of the consortium already supply technologies for mass production to international customers. With this joint approach of specialists in their respective field, a competitive value-added chain in significant size for the short-term expected market requirements for lithium-ion battery cells is to be created in Germany.
At the end of the project a competitive production unit with a production capacity of 6 GWh per year is to be developed. In the future, this unit can be modularly and multiply constructed where the required capacity is needed.