Micro-grid Energy Management System

CAN BE DEPLOYED ON SPRIXIN MICRO-GRID CONTROL DEVICE SP-M101-01.

The device, utilizing the ARM architecture, can be configured on the energy storage cabinet to display the real-time operation status of the microgrid. It features reliability, ease of use, low cost, and low power consumption.

Advantages:
· Multi-Business Scenarios: Flexibly applicable to various business scenarios such as photovoltaics, energy storage, and charging stations.
· Adaptive Intelligent Operation Strategy: Achieves unified management and coordinated optimization control of the microgrid, saving energy and reducing emissions, enhancing the overall economic benefits of the microgrid.
· Flexible Configuration: Can be flexibly configured with different manufacturers' equipment functional modules for various application scenarios.
· Rich Interface and Various Deployment Options: Provides a wealth of API interfaces, enabling cloud + local + mobile APP deployment methods.
· Safety Warning: Implements intrinsic safety, failure safety, and abuse safety warning functions for energy storage batteries.

Core Functions:
① Power Generation Forecast:
Based on historical and real-time data of regional sunlight intensity, angle, and temperature/humidity, combined with weather forecast data and photovoltaic power curves, to obtain photovoltaic predictions and make real-time corrections.
② Load Forecast:
Reads remote user meter data through various communication means, automatically generating electricity bill reports and curves. Meanwhile, based on historical load demand data, performs load forecasting and real-time correction.
③ Active Power Dispatching:
Fully utilizes the control capabilities of distributed energy sources, V2G, adjustable loads, energy storage systems, and diesel generators. According to long-term dispatch ahead of time, short-term dispatch within the day, and real-time control over three-time scales, the application operation of renewable energy is optimized with clear objectives and distinct levels, achieving its economy and safety.
④ Reactive Power Optimization:
The function of reactive voltage optimization is to improve the voltage distribution within the microgrid area, ensure system safety and economic operation, reduce network losses, and improve voltage quality.
⑤ Energy Storage Management:
By collecting data from energy storage batteries and BMS, it realizes the energy management and charge/discharge control functions of the storage, and has the capability of safety detection and early warning for the energy storage system.