Recently, Narada Power and e-STORAGE have respectively signed energy storage project cooperation agreements in the Australian and overseas utility markets, further expanding their global business footprints.
e-STORAGE Secures a 2.5GWh Major Overseas Energy Storage Order
On March 17th, Canadian Solar Inc. announced that its energy storage solutions subsidiary, e-STORAGE, has signed a supply agreement with a major overseas utility company. Under the agreement, e-STORAGE will provide a battery energy storage system for a project with a capacity of approximately 500MW/2493MWh. This project will be used to support the rapidly growing electricity demand of data centers and enhance the resilience and reliability of the regional power grid.
According to the agreement, e-STORAGE will supply around 500 SolBank 3.0 energy storage systems for the project. The battery cells used in this energy storage system are all independently developed and manufactured by Canadian Solar. Equipment shipments are expected to begin in March 2027 and be fully delivered by July of the same year.
Narada Power Wins a 117MWh Energy Storage Project Order in Australia
Meanwhile, Narada Power also announced that it has secured a new order in the Australian large-scale energy storage market, successfully signing a 117MWh energy storage project in the Northern Territory. This further consolidates the company's position in the Australian energy storage market.
The project will utilize the Center L Plus 5MWh liquid-cooling energy storage system independently developed by Narada Power. It adopts a "3+4+5" safety design concept to establish a full-lifecycle safety guarantee from the battery cell to the final application, perfectly adapting to the specific application scenarios of the Northern Territory.
Once completed, the project will provide diversified services for the local power grid, including peak shaving and frequency regulation, emergency power supply, and load balancing. This will help enhance the local capacity for renewable energy consumption and fill the gap in the grid's power supply stability.
Source:EnergyTrend