Applications
Agricultural
Energy storage in agriculture can be used to power irrigation systems during off-peak hours, optimizing energy costs. By storing energy from renewable sources like solar during the day, farms can ensure efficient water management while reducing reliance on grid power and minimizing operational expenses.
Shopping Malls
Energy storage in shopping malls can reduce peak demand charges by storing energy during off-peak hours and releasing it during high-demand periods. It also provides backup power for critical operations during outages, enhances energy efficiency, and supports EV charging stations, creating a more resilient and sustainable facility.
Community Solar
In community solar, energy storage can store excess solar power generated during peak sunlight hours, providing clean energy to members even when solar production is low. This maximizes solar utilization, reduces dependency on the grid, and offers consistent renewable energy access to the community, even during evenings or cloudy days.
Logistics Park
In logistics parks, energy storage systems can store excess solar power generated on-site and release it during peak hours, lowering energy costs and demand charges. This ensures reliable power for warehouses and charging stations, reducing dependence on the grid and enabling uninterrupted operations during outages or high-demand periods.
Retail Centers
In retail centers, energy storage reduces peak demand charges by storing low-cost energy for use during high-demand periods. It ensures reliable backup power during outages, supports EV charging stations, and can optimize energy costs, providing both operational savings and enhanced resilience for retailers and shoppers alike
Coal-Fired Power Plants
Energy storage enhances coal-fired power stations by enabling load shifting, improving grid stability through frequency regulation, and supporting renewable integration. It helps reduce operational costs, minimizes emissions by optimizing coal usage, and provides backup power during outages, ensuring reliability while transitioning to a more sustainable energy mix.
Natural Gas Peaker Plants
Energy storage can replace traditional peaker plants by providing fast-response power during peak demand periods, reducing operational costs and emissions. It enhances grid reliability, facilitates renewable integration, and eliminates the need for expensive infrastructure investments, making it a more sustainable and economically viable solution for peak demand management.
Utility Substations
Energy storage in utility substations enhances grid reliability by enabling load shifting, frequency regulation, and backup power during outages. It optimizes renewable integration, reduces transmission congestion, and provides essential ancillary services, ultimately leading to cost savings and improved system resilience. This supports a more sustainable and efficient energy infrastructure.
Utility Scale Solar and Wind
Utility-scale energy storage enhances the reliability of solar and wind by storing excess energy during peak production and releasing it during low-generation periods. This optimizes grid stability, facilitates renewable integration, reduces curtailment, and supports load balancing, ultimately improving the economic viability and sustainability of renewable energy projects.
Virtual Power Plant, VPP Solution
Energy storage in a virtual power plant enables load balancing, enhances renewable energy integration, and provides grid stability. It allows for efficient demand response, reduces peak demand costs, and delivers ancillary services, ultimately improving reliability and reducing emissions while optimizing energy usage across distributed resources.
Remote Island Power
Energy storage in remote islands stabilizes power supply by storing excess energy from renewable sources like solar and wind. It ensures continuous electricity during low production periods, reduces reliance on expensive diesel imports, enhances energy independence, and supports sustainable development by lowering carbon emissions and costs.
Data Centers
Energy storage in data centers ensures reliable backup power, stabilizes energy costs by shifting usage during peak hours, enhances energy efficiency, supports renewable integration, and provides resilience against outages. This leads to improved operational continuity, reduced energy expenses, and a smaller carbon footprint, making it a strategic investment for sustainability.
Residential Energy Storage
Energy storage in the residential market justifies itself by providing homeowners with backup power during outages, reducing electricity bills through load shifting, enabling greater use of solar energy, and increasing energy independence. It enhances grid reliability and can be a cost-effective solution for managing energy consumption and peak demand.
Electric Vehicle Charging Stations
Energy storage at electric vehicle charging stations enhances grid stability by managing peak demand, optimizes charging costs during off-peak hours, and enables faster charging with high power availability. It also supports renewable energy integration, reducing reliance on fossil fuels and providing backup power during outages.
Mobile EV Chargers/Power Stations
Battery-buffered mobile EV chargers and power stations offer rapid charging, flexibility in location, reduced grid strain, and enhanced energy security. They enable off-grid charging solutions, support renewable energy integration, and provide backup power during outages, making them a sustainable choice for electric vehicle infrastructure and emergency power needs.