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Battery storage unit

As a developer and operator of sustainable residential and commercial properties, intelligent battery storage systems and local energy centers, ju:niz integrates the most important pillars of the decentralized energy transition.

As a developer and operator of sustainable residential and commercial properties, intelligent battery storage systems and local energy centers, ju:niz integrates the most important pillars of the decentralized energy transition.

SMAREG 6 with an output of 24 MW and a capacity of 25,80 MWh in Gunzenhausen.

As a developer and operator of sustainable residential and commercial properties, intelligent battery storage systems and local energy centers, ju:niz integrates the most important pillars of the decentralized energy transition.

Case study on the cooperation between ju:niz Energy and ESFORIN.

Learn how we developed a customised solution with DB 3.0 that enables us to process our data more efficiently and store it optimally for further use.

The largest battery storage unit in Europe – SMAREG 4 in Eisenach with an output of 60 MW and a capacity of 67 MWh.

The Wind & Storage innovation project has an output of 2.9 MW and a capacity of 3 MWh.

SMAREG 2 with 11 MW output and 11 MWh capacity in Breitenworbis.

The Fuchstal project has an output of 5.8 MW and a capacity of 3.4 MWh.

As a developer and operator of sustainable residential and commercial properties, intelligent battery storage systems and local energy centers, ju:niz integrates the most important pillars of the decentralized energy transition.

This large-scale battery storage system from a regional energy supplier has a capacity of 7.3 MW.

This 1.4 MWh storage system is a typical industrial storage project.

The 4.2 MWh storage system of an automotive supplier serves primarily as a peak-shaving storage system.

SMAREG 1 with an output of 11 MW and a capacity of 11 MWh in Gotha.

The research project for the integration of 2nd life batteries was launched in 2018.

The 1.2 MWh industrial storage system is used for peak load capping.

Example application for grid service (PRL) and simultaneous hybrid application.

This grid-serving storage system was installed in the basement of an industrial building in 2019….

The industrial storage facility in Petersaurach near Ansbach has a capacity of 1.3 MWh.

The industrial storage facility in Echte was designed as a peak-shaving storage facility.

The hybrid storage system consists of 65 kWh of new and 96 kWh of used battery modules.

At 1.6 MWh, this storage system serves as a buffer storage for a large PV system.

Hybrid storage facility in Kempten with an output of 16 MW and a capacity of 8.5 MWh.

We were able to demonstrate our expertise and flexibility with this storage system for Siemens Fluence.

This storage system was delivered for the system provider BayWa r.e. in 2018.

This storage facility for rapid charging stations was built as part of an innovation grant.

This PRL storage facility was built on the campus of the Technical University of Munich.

The Wartburg storage facility in Eisenach is currently one of the largest battery storage facilities in Europe.

Intelligent battery storage systems are crucial for the energy transition at a local level. They compensate for the fluctuating energy feed-in from wind and solar power plants.

Battery storage systems in the megawatt range offer new sources of revenue for municipalities.

The “Wind+Speicher” project in the Uckermark region of Brandenburg was awarded the contract in the first nationwide innovation tender by the Federal Network Agency.

Turnkey realization of Germany’s largest storage platform

The storage facility we built at VWEW in Leinau was officially inaugurated on May 25, 2022 as part of a festive ceremony.