Project Brief

In the scenic province of Gelderland, Netherlands, where homeowners are increasingly prioritizing green energy and carbon neutrality, this large-scale residential installation sets a new standard for home power management. The project features a robust energy reservoir consisting of four units of 51.2V 205Ah (10kWh each) wall-mounted batteries, creating a total capacity of 40kWh. Designed to integrate seamlessly with the household’s solar array, this configuration provides an ultra-reliable, high-capacity solution for maximum self-consumption and long-term energy security in the Dutch climate.

With the gradual phasing out of net metering (Salderingsregeling) in the Netherlands, homeowners in Gelderland are looking for efficient ways to store their own solar energy rather than feeding it back to the grid. This client required a high-capacity storage system to power their large household through the evening and night, significantly reducing their reliance on expensive grid electricity and increasing their environmental contribution.

Project Highlights

• Massive 40kWh Scalable Capacity: By parallel-connecting four 10kWh units, the system provides a combined 40kWh of storage. This is ideal for large families or homes with high energy loads (such as EV charging or heat pumps), ensuring power is available 24/7.

• High-Performance 205Ah LFP Cells: Each battery is equipped with premium 205Ah LiFePO4 (Lithium Iron Phosphate) cells, known for their exceptional safety, thermal stability, and a long cycle life exceeding 6,000 cycles.

• Sophisticated Wall-Mounted Design: Despite the large total capacity, the wall-mounted form factor optimizes floor space in the utility room. The sleek, modern aesthetic of the Dawnice units perfectly complements the clean and organized design typical of Dutch homes.

• Smart Energy Management: The 51.2V system architecture ensures high compatibility with leading European inverter brands, allowing for intelligent monitoring and optimized charging/discharging cycles based on real-time household demand.