FLUXLICON
Intelligent and flexible system for the use of second-life batteries in municipal charging infrastructure
Project name: Intelligent and flexible system for the use of second-life batteries in municipal charging infrastructure
Project duration: 01.09.2021 – 31.08.2024
Funding ID: 01MV21006
Location: Germany
Project sponsor: DLR Projekträger
Project leaders: PEM Motion
Grantor: Federal Ministry of Economic Affairs and Climate Action
RESEARCH OBJETIVES
OBJETIVE 1
Development of a stationary storage system from second-life battery packs using a modular approach
OBJETIVE 2
Construction of two prototypes and integration into the infrastructure of two pilot municipalities covering common use cases of German municipalities
OBJETIVE 3
Development of a Trusted Platform to enable access of energy storages operators to second-life systems which are provided by OEMs, who in turn receive information about the performance of their systems in a second-life applicationdriving time
DESCRIPTION
Identifying the Project’s Challenge
Have you noticed more and more electric cars on the streets of Europe? These cars often use special batteries to power them, but when these batteries can only hold 80% of their original charge, they are usually discarded. This creates a lot of waste and goes against the principles of the circular economy, which seeks to minimize waste and keep materials in use for as long as possible. At the same time, we need more ways to store renewable energy to transition towards a more sustainable energy system, which is a key part of the EU Green Deal.
PEM Motion’s Approach and What Has Been Achieved So Far?
That’s where the Fluxlicon project comes in: We are developing a new type of energy storage system that uses second-hand batteries from electric cars that still have a lot of life left in them. We are currently facing two main challenges:
First, we need to prove that this new system is just as safe and reliable as other energy storage systems that use new batteries. Secondly, we must ensure that the system is durable and can adapt to different needs and use cases.
To overcome these challenges, PEM Motion is coordinating the Fluxlicon project, bringing together experts to develop this new energy storage container. With our technical knowledge and experience, we can help make sure that the Fluxlicon system is a success and can help contribute to the sustainability of our energy systems.
IN COLLABORATION WITH
IN COLLABORATION WITH