'Battery Europe' strategy 2030 goals

Recently, the European battery technology innovation platform 'Battery Europe' (ETIPBatteriesEurope) announced the 'Battery Strategic Research Agenda'Battery Europe' was created by the European Commission under the framework of the 'Strategic Energy Technology Plan' (SET-Plan) in 2019. It brings together representatives from industry, academia and industry associations to promote research and innovation actions related to the battery value chain The implementation of the European battery industry has accelerated the establishment of a globally competitive European battery industry. The agenda puts forward the research topics and key performance indicators that should be achieved in the next ten years from four aspects: battery applications, battery manufacturing and materials, circular economy of raw materials, and European battery competitive advantages. Among them, stationary energy storage applications mention: the next ten years This field will focus on the following research topics: (1) Reduce the cost of stationary energy storage batteries through innovative technologies and components, and improve the cycle life to ensure the best performance. The subject research will improve battery energy density, power density, cycle and cycle life, depth of discharge, charge and discharge rate, etc., and reduce capital expenditures, operating expenditures, etc., and will also carry out reuse and recycling design. Key performance indicators: The fully equivalent cycle life of stationary energy storage batteries is increased to 15,000 cycles or 30 years; the charge-discharge rate reaches 8C/8C; the self-discharge rate reaches 0.1% state-of-charge/month; the discharge duration exceeds 10 hours . Budget: 50 million euros. (2) Technologies, methods and tools to improve the safety of stationary energy storage systems. This subject research will solve the safety issues related to the size and installation of stationary energy storage battery systems, such as enhancing safety through component and system design, or performing operational monitoring through advanced modeling to achieve active fault prevention and prediction. Key performance indicators: operating costs of safety-related system maintenance and operation are reduced by 20%; failure reports are reduced by 90%; a set of regulatory frameworks and technical standards are established. Budget: 50 million euros. (3) Open and interoperable advanced battery management system. The subject research will develop an open-access battery management system and standardize data and formats, which will help to reliably predict battery life and evaluate the second life cycle. At the same time, it will promote the system through an interoperable advanced battery management system Integration. Key performance indicators: cycle life is greater than 15,000 times; promote the large-scale deployment of batteries, the reuse of new batteries; cost reduction by 30%. Budget: 30 million euros. (4) Interoperability, digital twin and multi-service model. This subject research will reduce battery costs by enhancing interoperability, realize more effective machine-to-machine collaboration, conduct simulations through digital twins to incorporate battery energy storage systems and hybrid energy storage systems into grid planning, and develop energy storage systems. Multiple services. Key performance indicators: By 2024, interoperability will reach level 3; by 2030, the levelized energy storage cost (under deep discharge cycle) will be less than 0.01 Euro/kWh/cycle. Budget: 50 million euros. (5) The sustainability of electric vehicle batteries and their secondary application to stationary energy storage. This theme will address the durability and performance of secondary battery reuse and safety risks caused by aging, demonstrate effective business models, and develop low-cost technologies and eco-designs for battery disassembly and adjustment. Key performance indicators: By 2030, the proportion of batteries that can be used twice will reach 20%; the recycling efficiency of all types of batteries will be improved. Budget: 50 million euros. (6) Medium and long-term energy storage. This theme will develop cost-effective systems and technologies for medium-term (greater than 5 hours) to long-term (weeks to months) energy storage to achieve backup power, market arbitrage and the transfer of renewable energy power. Key performance indicators: medium-term energy storage self-discharge rate is less than 2%/month; long-term energy storage self-discharge rate is less than 0.5%/month; cycle life is greater than 15,000 times; levelized energy storage cost is less than 0.01 euro/month by 2030 KWh/cycle. Budget: 60 million euros.