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Industrial Modular Battery Pack Concept Addressing High Energy Density, Environmental Friendliness, Flexibility and Cost Efficiency for Automotive Applications

Deliverables

Dissemination and Communication Plan

Full Dissemination and Communication Plan, including details on Dissemination and Communication objectives, target groups and stakeholders, tools and channels, indicators and targets, and action plan for implementation.

Battery pack tests at lab scale

CEA will accomplish full tests on module before testing the full BP

Referenced LCA

RSC will fix an initial picture of the LCA with respect to the SoA. All partners will feed RSC with the necessary information

Selection of battery pack tests

Led by end users REN and EGO, the automotive BP standards will be analysed and tests selected to be accomplished by CEA, AIT and RWTH at laboratory and in car.

Thermal conditioning secondary components design (M12)

The cooling secondary components involve the cover of the BP and as an option, bulk parts of the BP. RSC will contribute with a thermal conductive material that can be used in those parts of the whole BP product. AIT and RWTH will report their thermal simulations as well as HEX their mechanical ones.

Report on Eco-design assessment

RSC will gather in this report all the steps folowed to mathc the BP design with ecodesign rules In case that some decisisonagainst those rules were taken RSC will collect the reasons economical technical etc

Comparative study and calculation tool for EV battery recycling processes

ACC will report the collected data about recyclability main keypoints related to each step of the BP design and manufacturing The methodology regarding a smart recycling will be explained in this report by ACC supported by EGO FREE and TYVA

Battery pack module tests at lab

AIT and RWTH will accomplish full tests on module before testing the full BP

Comparison of suitable high energy density cells for automotive applications (M3)

REN, EGO, TYVA, CID, ISE and AIT will share their knowledge on the cell market in order to select the most suitable high energy density cell brands. RSC will execute an analysis of cells recyclability in close contact to WP7

Publications and Events Report

Report with summary of scientific publications developed and conferences attended including abstracts justification of journalconference impact achieved The report will also include a summary of the tradeshows attended during the project including objectives overview of participants networking established and impact achieved Lastly the report will summarize outcomes of the Workshop and Webinars including objectives agenda participants topics discussed and minutes

Project Website

Report on the iModBatt project website, including project objectives, partner profiles, connections with social media, project reports and other relevant communication

Customization of BP for second use and reuse

All the process followed to customize the BPs form the original applications to the final applcoiations is reported in this Deliverable by CID This work will be supported by EGO FREE and TYVA

Comparative LCA

RSC will present the definitve LCA at the end of the project

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Publications

Ante-mortem analysis, electrical, thermal, and ageing testing of state-of-the-art cylindrical lithium-ion cells

Author(s): Hartmut Popp, Ningxin Zhang, Marcus Jahn, Mikel Arrinda, Simon Ritz, Matthias Faber, Dirk Uwe Sauer, Philippe Azais, Iosu Cendoya
Published in: e & i Elektrotechnik und Informationstechnik, 137/4-5, 2020, Page(s) 169-176, ISSN 0932-383X
Publisher: Springer Verlag
DOI: 10.1007/s00502-020-00814-9

Application Dependent End-of-Life Threshold Definition Methodology for Batteries in Electric Vehicles

Author(s): Mikel Arrinda, Mikel Oyarbide, Haritz Macicior, Eñaut Muxika, Hartmut Popp, Marcus Jahn, Boschidar Ganev, Iosu Cendoya
Published in: Batteries, 7/1, 2021, Page(s) 12, ISSN 2313-0105
Publisher: MDPI
DOI: 10.3390/batteries7010012