Our ESS solutions help balance the supply and demand of electricity in an efficient and sustainable manner. We provide cutting-edge Energy Storage Systems using LTO technology that are specifically designed to meet all types of energy storage requirements.
The software can analyze energy usage patterns and predict future energy demand. This allows the ESS to be proactive in storing and releasing energy, ensuring that energy is available when needed. It can also optimize by taking into account variables such as energy prices, peak demand periods, and weather patterns. This ensures that energy is stored and used in the most efficient and cost-effective way possible.
LTO batteries used in our ESS system have a higher resistance to thermal runaway and are more resistant to fire and explosion compared to other battery technologies. Also, our ESS incorporates robust safety features, such as thermal management systems and fire suppression systems, to ensure safe operation and protect personnel and equipment.
LTO batteries used in our ESS system have a high power density, which means they can deliver more power in a shorter amount of time compared to other battery technologies. Our ESS can be charged and discharged quickly, providing rapid-response energy storage for emergencies and peak demand periods.
The longer lifespan and safer performance of LTO batteries reduce the need for frequent replacements, further reducing the environmental impact of our ESS system.
Our ESS is designed to be easily scalable, so it can be expanded or reduced to meet changing energy needs and budgets. LTO batteries used in our ESS system are designed to be easily scalable. This means that as energy needs and budgets change, our ESS system can be expanded or reduced to meet those changing demands. The use of LTO batteries ensures that the scalability of our ESS system is achieved without compromising on performance or reliability.
Ensure critical systems remain operational during power outages or emergencies, minimizing downtime and reducing the risk of data loss or equipment damage. The enhanced safety features of LTO batteries reduce the risk of accidents and damage to personnel and equipment during emergencies, providing a safer backup power solution.
The 10 kWh battery pack is designed with modularity in mind, allowing multiple units to be stacked together in various configurations. This flexibility enables users to customise their energy storage needs to fit specific applications. With a compact form factor and scalable capacity, these battery packs are ideal for both residential and commercial use. Furthermore, the modular design makes it easy to replace individual units if needed, reducing maintenance costs and downtime.
Admiral Series 10kWh
Max Power Output
1215 x 470 x 390 mm
No of Cells
LTO batteries used in our ESS system enable efficient energy management by storing excess energy during low demand periods and using it during high demand periods. This reduces the need for expensive peak power generation and lowers energy costs.
ESS can help stabilise the grid by storing excess energy generated from renewable sources during peak production hours, such as sunny days with high solar energy production, and releasing it during peak demand hours when energy consumption is high, such as evenings when people return home from work. This helps balance the grid and ensures a consistent and reliable energy supply.
ESS can be used to shave off peaks in energy demand, which occur when there is a sudden surge in energy consumption. By using stored energy from ESS during these periods, the overall demand on the grid is reduced, which can help prevent power outages and reduce the need for expensive infrastructure upgrades to accommodate peak demand.
ESS can provide backup power in the event of a power outage, ensuring continuity of critical operations, such as hospitals, data centers, and emergency services. This is particularly important in areas prone to extreme weather events or where power outages are common.
ESS can be used as a battery in electric vehicles, allowing them to operate without the need for frequent recharging. This helps increase the range of electric vehicles and reduces the need for large-scale charging infrastructure, making electric vehicles more practical and accessible.
ESS can be used in micro-grids to store and distribute energy locally, providing reliable and resilient power supply to communities. In areas with limited access to the main grid, micro-grids can provide a sustainable and cost-effective alternative to traditional power sources, and ESS plays a crucial role in storing excess energy and ensuring a consistent supply of power.