Wir sind auf der Smarter E Messe 2026 – Besuchen Sie uns! Jetzt mehr erfahren und Stand 109, Halle B2 besuchen
Wir sind auf der Smarter E Messe 2026 – Besuchen Sie uns! Jetzt mehr erfahren und Stand 109, Halle B2 besuchen
Co-location refers to the installation of battery storage systems directly at generation plants such as solar or wind farms. The electricity generated is stored locally and can be fed into the grid at a later point in time.
The combination of renewable energy plants and storage systems considerably improves the use of electricity from wind and solar power. Surplus energy does not have to be fed in immediately, but can be stored and used later. Large grid-scale battery storage systems, which reach power outputs in the megawatt range, are often used for this purpose.
By directly coupling generation and storage, battery storage systems become key building blocks of a stable energy system. They help to balance out fluctuations in renewable energy and increase the share of renewable electricity generation in the grid.
Co-location refers to the installation of a battery storage system directly at a solar or wind farm, so that the electricity generated can be stored on site and fed into the grid at a later point.
Through co-location, electricity surpluses from solar or wind farms can be stored and used at a later point in time. This increases the profitability of the plants and helps to reduce grid bottlenecks.
A battery storage system can buffer power peaks, make feed-in more flexible and enable additional revenue through electricity trading or balancing power.
Yes. Co-location is a typical application for large grid-scale battery storage systems, as they are combined directly with large generation plants.
Co-location makes it possible to shift electricity from renewable sources in time and thus balance out fluctuations in solar and wind energy.
