Energy management control box

The Aarel-2000MG/B energy management control box for Ankerui microgrid is an intelligent platform that integrates monitoring and energy management functions. It supports the access of distributed energy devices such as photovoltaics, energy storage, and wind turbines, enabling 24/7 data collection and analysis, and real-time monitoring of system operation status and equipment health. The system aims to achieve economic optimization operation by dynamically adjusting energy allocation through intelligent algorithms, thereby maximizing the utilization rate of renewable energy. It supports peak shaving and valley filling, smoothing loads, which helps improve grid stability and equipment efficiency, and reduce power supply costs.

As a high-tech enterprise focusing on user side energy efficiency system and energy Internet, Arcrui Electric Co., Ltd. launched the Acrel-2000MG/B microgridEnergy management control boxIt is an intelligent platform that integrates monitoring and energy management functions. Relying on the company's "cloud edge end" energy Internet ecosystem, this product supports the access of distributed energy equipment such as photovoltaic, energy storage, and wind turbines. It aims to realize the economic and efficient operation of the micro grid and improve the utilization rate of renewable energy through all-weather data collection and analysis and intelligent algorithm optimization.

Core functions and technological advantages

QUAN azimuth monitoring and prediction

The system can monitor the status of photovoltaic modules, inverters, energy storage systems (PCS/BMS), charging piles and other equipment in real time, and achieve photovoltaic short-term power prediction and load analysis through big data algorithms, providing accurate basis for energy scheduling.

Intelligent optimization control

Based on the power prediction results and constraints such as time of use electricity prices and energy storage status, a deep learning algorithm is used to dynamically plan the operation strategy, supporting scenarios such as peak shaving and valley filling, anti backflow, and new energy consumption, to achieve the maximum reduction in electricity costs.

Modularity and compatibility

The product adopts a modular design and is compatible with multiple communication protocols such as IEC 61850 and MODBUS. It can flexibly adapt to the needs of microgrids of different scales and support indoor and outdoor installation environments.

System architecture and hardware configuration

Architectural Design

The system is based on the AcrelEMS 3.0 smart energy management platform, ensuring safety through vertical authentication and horizontal isolation. It is connected to terminal devices such as grid connected cabinets, power quality monitoring devices, and energy storage cabinets, forming a "monitoring analysis control" closed loop.

Product Introduction

Performance parameters and technical specifications

Application scenarios

Energy management control boxwidely applicableLight storage charging stations, high-speed service areas, and island pastoral areasWaiting for the scene.

Off grid microgrid scenario

Power supply for islands and pastoral areas: integrating photovoltaic and energy storage systems to replace traditional diesel generators, solving the problem of power shortage in areas without electricity, reducing fuel transportation costs and carbon emissions. The system supports wide temperature operation from -20 ℃ to 60 ℃, and is suitable for harsh environments such as high humidity, strong winds, and sand.

Communication tower base station: provides stable power supply for remote base stations, stabilizes power grid fluctuations through energy storage systems, and avoids communication interruptions caused by power outages. Modular design supports rapid deployment, and the outdoor IP54 protection level meets the requirements of outdoor environments.

Grid connected microgrid scenario

Photovoltaic storage charging station: Coordinate photovoltaic output, energy storage charging and discharging, and charging pile load to achieve "spontaneous self use and surplus electricity grid connection". By arbitrage of peak valley price differences, charging during low electricity price periods and discharging during peak periods can reduce operating costs while increasing the proportion of green electricity self use.

Industrial parks and commercial users: Two part electricity pricing system for large industrial electricity consumption, reducing transformer capacity electricity bills through demand control; Combining photovoltaic systems to achieve peak shaving and valley filling, storing surplus electricity generated during the day and releasing it at night to meet production needs, resulting in a direct reduction in electricity costs.

Oil fields and mining areas: In high pollution and high energy consumption scenarios, replacing some diesel power generation, stabilizing intermittent wind and solar power generation through energy storage systems, reducing grid dependence, and meeting special environmental requirements such as explosion prevention and high and low temperature resistance.