Energy Storage System Project In Abroad

Under the wave of sustainable energy development, energy storage system projects have achieved great success in overseas applications and played an important role in promoting sustainable energy transformation.

The energy storage inverter developed by Deming Power applies DSP full digital control technology to ensure reliable and stable operation; Standard sine wave output can be realized in off-grid mode to ensure high quality power consumption of electrical equipment; Overload, short circuit real-time monitoring, for electrical equipment can be provided reliable protection. More than 30 rigorous tests are carried out to ensure that every product is of high quality, from raw material arrival to product production.

Below are real case applications in Vietnam, the Philippines, and Pakistan.

▲In Southeast Asia, Africa and other countries, the product can meet customer demand for electricity:
1. During the day, when the power grid fails, the solar energy can continue to generate electricity and continue to supply power to the load in off-grid mode.
2. At night, when the power grid fails, the battery can discharge continuously and continue to supply power to the load in off-grid mode.

▲In Europe, the product meets customers' electricity needs:

1. When the time-of-use price is low, choose battery charging priority, at this time PV and the grid can charge the battery at the same time to store electric energy for personal use or high price grid connection.

2. When the TOU price is high, choose the battery discharge priority, at this time PV and battery can be prioritized to ensure the use of off-grid load, saving high electricity costs.

3. When the grid-connected price is high, under the premise of ensuring the use of off-grid load, grid-connected operation can also be selected to achieve the highest return.

▲ Achieve peak shaving to optimize power grid configuration:
1. When the grid load is low, the electricity of photovoltaic power generation can be stored with batteries; Release the stored electrical energy during peak load, reducing the pressure on the grid.
2. Integrated use of advanced technology to connect a large number of distributed collection devices, distributed energy storage devices and various types of load composed of new power network nodes, in order to achieve two-way energy flow of energy reciprocal exchange and sharing network.

These projects play an important role in achieving global energy supply sustainability and reducing carbon emissions targets.