The agreement contributes to the development of climate technologies, or cleantech, in a first-of-a-kind project to support European energy resilience, helping stabilise the power grid and promoting decarbonisation in the energy industry.
03.07.2025 / News Press Releases
Statement on the European Commission’s guidance on renewables, grids infrastructure and network tariffs
On 2 July 2025, the European Commission published guidance on renewables, grid infrastructure and network tariffs. The communication aims to accelerate the rollout of grids, storage infrastructure and design future-proof electricity network charges. Energy storage can bring benefits that will lower system costs and consumer bills, as network charges are expected to rise across the EU.
Energy Storage Europe Association Senior Policy Officer Daniel Vig’s statement:
On energy storage’s role in the grid:
“As highlighted in the Action Plan for Affordable Energy, there is an urgent need to reinforce the electricity grid and to make better use of the existing network. Energy Storage Europe Association welcomes the Commission’s statement that energy storage provides flexibility, stability and security for the electricity system. Storage furthermore reduces the need for expensive grid development and reduces overall system costs passed on to consumers.”
On network tariff methodologies:
“As stipulated in the guidance on network tariffs, double-charging can be an obstacle to the deployment of energy storage. Energy Storage Europe Association supports the Commission’s recognition that double-charging should be avoided or designed by taking into account storage’s contribution to the grid. This is key for a robust business-case and fair deployment for storage facilities. The application of Time-of-Use tariffs and locational signals are also principles aligned with Energy Storage Europe Association's position paper on grid tariffs, published in June 2025.”
On energy storage rollout:
“The Commission’s call to Member States on the establishment of areas for grid and storage infrastructure is necessary for faster deployment of flexible assets, such as energy storage technologies. These areas allow for faster permitting procedures and exemptions from certain environmental assessments. This is particularly important, as in many Member States the rollout of storage projects is significantly delayed by such regulatory and administrative barriers.“
The agreement contributes to the development of climate technologies, or cleantech, in a first-of-a-kind project to support European energy resilience, helping stabilise the power grid and promoting decarbonisation in the energy industry.
Energy Storage Europe has prepared a reply to the European Commission's public consultation on TYNDP 2026 Identification of System Needs Methodology. The European Commission’s public consultation seeks feedback on the analytical framework used by ENTSO-E to identify cost-efficient and technically robust opportunities for the development of Europe’s electricity system, without prescribing specific investment decisions.
In 2025, the energy storage sector experienced significant growth, driven by strong market expansion and evolving EU policy developments. Europe reached the milestone of 100 GW of installed capacity, highlighting the increasing importance of storage in the energy transition.
Energy Storage Europe replies to the European Commission’s public consultation on the Battery Booster Facility. On 16 December 2025, the European Commission announced a Battery Booster Strategy, within the Automotive Action Plan. The Strategy includes a Facility of EUR 1.5 billion in the form of loans for projects in the production of battery cells in Europe.
Energy Storage Europe's position paper, "Ensuring System Stability in Europe: The Role of Energy Storage in Providing Inertia", focuses on how the EU can implement a cost-effective and technologically neutral approach to procuring inertia. It also outlines how such an approach can be firmly embedded within a harmonised European methodology for assessing and monitoring inertia needs across synchronous areas.
