By comprehensively applying the complementary advantages of energy storage, wind power, photovoltaics and diesel power generation, we can achieve optimal energy allocation, enhance regional energy self-sufficiency, reduce the construction and maintenance costs of traditional distribution systems, and provide efficient and reliable energy solutions for scenarios such as island power generation, mines and oil plants, construction sites, and communities/farms. This will enhance the stability and flexibility of the power grid and improve the overall operating efficiency and reliability of the power system.
▶ Multiple benefits: peak-to-valley interest arbitrage, dynamic capacity increase, demand management, demand-side response, increase green power utilization rate
▶ Efficient integration: intelligent algorithm, extended life, 98% charge and discharge efficiency, high space utilization with small area
▶ Modular design, convenient installation and debugging
▶ Bus connection, easy to expand and manage
▶ Access-friendly, flexible and diverse methods
▶ Seamless switching between on-grid and off-grid to ensure power consumption for key loads
▶ Comprehensive cloud monitoring, rapid fault alarming
▶ AI intelligent management to improve thermal management capabilities
▶ Multi-level protection, fast fault isolation
▶ Improve power quality and assist power supply when the grid is unstable
Integrate multiple energy forms to achieve complementary energy advantages;
Intelligent algorithms analyze energy supply and demand in real time and dynamically adjust energy distribution;
Improve the utilization rate of renewable energy, reduce carbon emissions, and be environmentally friendly.
Modular design supports flexible capacity expansion and capacity modification of the system;
Customization of multiple scenario solutions to meet diverse energy needs;
Seamless switching of on-grid/off-grid operation modes to ensure energy continuity and stability.
Balance power supply and demand and improve energy utilization;
Reduce dependence on traditional distribution systems and reduce the cost of grid construction and maintenance;
Customized energy management strategies to optimize and control energy costs and improve economic benefits.
Fault self-inspection and intelligent early warning to quickly eliminate potential problems;
Big data models drive operation strategy optimization to reduce operating costs;
The smart energy management platform monitors system status in real time, assists users in decision-making, and improves operational efficiency.
