European Commission Joint Research Centre
5 Jan 2018 EVE Presentation on Battery Durability by JRC (JRC) EVE-25-06 2018-01-05 JRC
13 Jun 2018 JRC Update on EV battery durability (ageing) modeling (JRC) EVE-27-09 2018-06-13 JRC
16 Oct 2018 EV in-vehicle battery durability research status (JRC) EVE-28-13 2018-10-16 JRC
15 Apr 2019 In-Vehicle Battery Durability: JRC TEMA model update (JRC) EVE-30-12 2019-04-15 JRC
8 Oct 2019 EV batttery durability: JRC modelling update (JRC) EVE-32-13 2019-10-08 JRC
11 Feb 2020 JRC EV battery durability update (JRC) EVE-33-09 2020-02-11 JRC
1 Apr 2020 JRC contribution on in-vehicle EV battery durability (JRC) EVE-34-13/Rev.1 2020-04-01 JRC
24 Mar 2020 EV battery durability: JRC TEMA model update (JRC) EVE-34-16 2020-03-24 Information from the JRC Transport Technology and Mobility Assessment Platform (TEMA) research. JRC
1 Apr 2020 Parameters for EV battery durability check (JRC) EVE-34-21 2020-04-01 JRC
9 Oct 2020 JRC input on in-vehicle battery durability (JRC) EVE-38-02/Rev.1 2020-10-09 JRC
3 Feb 2021 EV battery durability: JRC responses to OICA questions on TEMA model (JRC) EVE-43-02 2021-02-03 JRC
18 May 2021 EV battery durability: Part A: Verification of monitors-Option B (JRC) EVE-48-02 2021-05-18 Breakout group presentation from EC-JRC. JRC
1 Jul 2021 Usable battery energy (UBE): Battery durability GTR-Annex 3 Part A Test Procedure and Performance Parameter (EC and JRC) EVE-51-01 2021-07-01 : EC JRC
21 Apr 2022 GTR 22: Applying the new GTR on i-vehicle battery durability (JRC and EC) EVE-55-02 2022-04-21 JRC EC
30 May 2022 GTR 22: Presentation on Annex 2 (values to be read from vehicles) (JRC) EVE-56-05 2022-05-30 JRC
21 Sep 2022 GTR 22: Input on EV battery durability (JRC) EVE-57-14 2022-09-21 Follow-up of the JRC activities in support to EVE IWG “in-vehicle battery durability” topic:<ul><li>Exploring and integrating new cell chemistry models into JRC TEMA, and</li><li>Exploring a simplified battery thermal model as follow up NRC exchanges.</li></ul> JRC
19 May GTR 22: Minimum performance requirements-Additional Lifetime LDV (JRC) EVE-97-08 2026-05-19 The presentation reports results from performance-based models for electric passenger vehicles and electric vans, analyzing capacity retention and capacity fade at 5, 8, and 10 years and at 100,000 km, 160,000 km, and 200,000 km driving distances. Results show capacity retention exceeding 60 per cent at 10 years and 200,000 km for vans with Li-Ion NCM-LMO (2015) battery technology, and exceeding 65 per cent for battery electric vehicles under the same conditions. JRC
8 Jul 2020 Input concerning in-vehicle EV battery durability (EC and JRC) SLR-39-09 2020-07-08 EC JRC