Compensating for weaknesses
For long-term utilization
Electricity from renewable energy represents the lowest cost of electricity generation that the energy market can offer. In order to secure a sustainable and reliable future of energy supply, a reconciliation has to be reached between the growing demand on one side and less carbon pollution on the other. Energy storage is the key technology to achieving this. The energy infrastructure needs storage in order to overcome volatility and unpredictability, obstacles associated with generating electricity from renewable energy sources. Our proposed solution? A durable CellCube system, of course. Not only is it capable of meeting electricity demand, it can also store energy for significantly longer. It has a capacity of up to 24 hours.
Load shift and renewable energy
Generating electricity from renewable energy sources often takes place asynchronously to demand. The CellCube storage system is suited to distribute the electricity from renewable energy in such a way that it meets the actual demand.
Large-scale electricity purchase agreements
Generously-sized solar and wind power plants have the lowest cost of electricity generation, however they have to follow the strict rules of electricity purchasing systems which require the holding of reserves and still include operating risks. A long-term CellCube storage system on site offers flexibility, giving you access to additional sources of income and lowering potential obstacles.
“Green” peak load power plants
Peak load capacity is currently still provided by means of combustion engines with sizable CO2 emissions. A CellCube long-term storage system significantly reduces the carbon footprint. When combined with renewable energy, this marks the origin of a peak load power plant that truly earns the “green” label.
Integration of renewable energy
Renewable energy generation is increasingly exposing the challenges of energy scheduling and the technical requirements for grid connections. A long-term CellCube storage system not only ensures that the technical connection requirements are met, it also improves the feed-in strategy for multi-purpose utilization.
In designing photovoltaic areas, the load profile is often used for optimizing own use. With our storage system, we can help in this process of optimization. Own use can be increased at night, for instance, instead of feeding that energy into the grid, a strategy that can even be used for larger PV systems.
Grid stabilization with renewable energy use
Renewable energy is associated with a new set of challenges, this much is clear. But it is still certainly possible to balance the effects on the grid and to provide stability. Overcapacities also have to be managed accordingly. When it is time to integrate renewable resources without shutting down the entire grid, it is necessary to strike a balance between the development of renewable energy sources and system reliability.
The goal is always to avoid electricity outages and interruptions. A CellCube system is ideally suited to finding that balance between renewable energy fluctuations and grid stability. Even though renewable energy sources like the sun and wind are not always available, our energy storage system makes it possible to have a reliable electricity supply.
