SCU successfully provided a large stadium in Hungary with an energy storage system (GRES). This project has injected new impetus into the energy management of the stadium, especially helping the stadium to optimize the power use of high-energy-consuming equipment such as lighting. The deployment of this system not only improves the energy efficiency of the stadium but also takes an important step towards promoting local sustainable energy utilization.
Background
As an important cultural and sports facility in Hungary, the stadium hosts many events and large-scale events yearly. To ensure the smooth progress of the events, the lighting equipment in the stadium is a key high-energy load, especially at night or during large-scale events, when the demand for lighting increases sharply. The lighting system requires stable and efficient power support, while the traditional power grid is costly and vulnerable to external power fluctuations.
Faced with these challenges, the stadium decided to introduce energy storage technology to optimize power use, improve the venue’s operational efficiency, and reduce carbon emissions. With its rich experience and innovation capabilities in the field of energy storage technology, SCU provided a set of energy storage solutions specifically for the needs of the stadium.
GRES Energy Storage Solution
SCU provided the stadium with a set of GRES-225-100 to help it optimize power management. This system is mainly used to support the operation of the venue’s lighting equipment. It stores electricity during low-power periods and provides electricity for lighting equipment during peak periods when electricity prices are higher. The system not only effectively alleviates the pressure of peak electricity consumption but also helps the stadium save electricity costs through peak shaving arbitrage.
In addition, the energy storage system also has a backup power supply function to ensure that lighting equipment can continue to operate in the event of a sudden power grid failure, avoid activities being affected by power outages, and ensure the safety of the audience and the smooth progress of activities.
Advantages of the energy storage system
- Peak shaving: By utilizing electricity price fluctuations, the energy storage system helps the stadium store electricity during low-price periods and use electricity during peak periods, reducing electricity bills and improving the energy efficiency of the venue.
- Backup power supply: The energy storage system provides a stable backup power supply, which can ensure the normal operation of the lighting system even in the event of a power grid failure, ensuring that events and activities are not affected.
- Sustainable development: By combining energy storage technology, the stadium has optimized energy use and reduced carbon emissions, contributing to the sustainable development of Hungary.
Outlook
The energy storage system provided by SCU for the Hungarian Stadium not only improves the energy efficiency of the venue but also demonstrates the broad application prospects of energy storage technology in public facilities. As more stadiums and large public facilities pursue green and low-carbon development paths, SCU will continue to leverage its technological advantages to provide global customers with more intelligent and efficient energy storage solutions, and help various industries achieve sustainable transformation.