Acrel Microgrid Energy Management System EMS: System Energy Control & Electric Protection for New Energy & Grid
The Acrel-2000MG Enterprise Microgrid Energy Management System is a comprehensive monitoring and management solution. This system meets the rigorous requirements for the integration of photovoltaic systems, wind power generation, energy storage systems (ESS), and electric vehicle charging piles.
Operating 24/7, the system conducts continuous data collection and analysis, monitoring the health and operational status of all connected energy assets. It aims to optimize economic performance while ensuring safety and stability, promoting renewable energy application, and smoothing load fluctuations.
It effectively implements demand-side management, eliminating day and night peak-valley differences, improving power equipment efficiency, and reducing overall supply costs for enterprise microgrids.
Applicable Scenarios: Industrial parks, commercial microgrids, and enterprise energy systems involving PV storage and charging coordination.
Frequently Asked Questions
What assets can the Acrel-2000MG manage?
The system is designed to integrate and manage photovoltaic (PV) systems, wind power generation, energy storage systems (ESS), and electric vehicle charging piles.
Does the system support remote monitoring?
Yes, the system conducts data collection and analysis 24/7, providing real-time operation and health status monitoring for all connected components.
Which communication protocols are compatible?
It supports a wide range of standard protocols including Modbus RTU, Modbus TCP, CDT, IEC60870-5-101/103/104, and MQTT.
How does the EMS improve economic efficiency?
By implementing user-side demand management, it eliminates peak-valley differences and optimizes load distribution, which significantly reduces power supply costs.
What operating systems can run this software?
The system is compatible with Windows 10, Ubuntu 18.04, and CentOS 7, providing flexibility for different IT environments.
What is the physical structure of the system?
It adopts a hierarchical distributed structure divided into three layers: the equipment layer, the network communication layer, and the station control layer.
Irvion Charger
