Energy storage containers and hybrid containers, as innovative energy solutions, take containers as the carrier and highly integrate various advanced energy equipment. They feature flexible deployment and efficient operation, and can effectively address complex energy supply and storage demands.
Application scenarios:
Power grid ancillary services: Participate in peak shaving, frequency regulation and voltage regulation of the power grid to enhance the stability and reliability of the power grid. Release electrical energy during peak electricity consumption periods to relieve the pressure on the power grid supply. Store electrical energy during off-peak hours to balance the load on the power grid.
Renewable energy grid connection and matching: Combined with renewable energy power generation systems such as photovoltaic and wind power, it stores unstable renewable energy power, achieving "peak shaving and valley filling", smoothing the power generation curve, increasing the consumption ratio of renewable energy, and reducing the phenomenon of wind and solar power curtailment.
In the industrial and commercial sectors, for high-energy-consuming enterprises, data centers, shopping malls, etc., energy storage containers can be utilized to charge during off-peak electricity hours and discharge during peak hours, thereby reducing electricity costs. At the same time, it provides emergency power support when the power grid is out of power to ensure the continuous operation of key equipment and business.
Off-grid and microgrid applications: In remote areas, islands, border guard posts and other regions without or with weak power grids, energy storage containers are combined with renewable energy equipment such as solar panels and small wind turbines to build an independent microgrid system, providing stable power for local residents' daily life and production.
