Project Background

The Martin family, residing in a detached house built in 1990 near Paris, France, faced rising electricity prices in France (up 12% by 2024) and the pressure of peak winter electricity demand. They decided to install an energy storage system to optimize energy use. The family already had a rooftop solar photovoltaic system, but lacked effective energy storage, resulting in significant underutilization of solar energy.

Project Description

The project utilizes the Dawnice 16kWh residential energy storage solution, equipped with a smart energy management system. The system comprises the following core components:

High-performance lithium iron phosphate battery pack with a cycle life exceeding 8000 cycles

Intelligent hybrid inverter supporting multi-energy synergy from photovoltaics, the grid, and batteries

Wall-mounted installation design, seamlessly integrating into home garage spaces

Intelligent monitoring platform supporting real-time viewing from multiple terminals

System operational advantages:

Photovoltaic efficiency enhancement: Increases solar energy self-consumption rate to over 90%

Emergency backup: Switches within 0.1 seconds in the event of a grid outage, ensuring continuous operation of critical equipment

Remote management: Real-time monitoring via mobile application, allowing for adjustments to energy consumption strategies at any time

User Feedback

"After installing the Dawnice energy storage system, our electricity bills have significantly decreased. The system operates very quietly. Especially during peak winter electricity consumption periods, the system effectively balances household electricity demand, ensuring basic living electricity needs even during power outages. Even more surprisingly, we can also earn additional income by selling electricity back to the grid."