Microgrid Management System

NegotiableUpdate on 04/04

Model

Nature of the Manufacturer: Producers

Product Category

Place of Origin

Online Consult

Overview

The microgrid energy efficiency management system is not a traditional simple power monitoring system, but a comprehensive platform that integrates data collection, intelligent analysis, optimization control, and operation management. It breaks the limitations of traditional energy management, such as "only monitoring without control" or "heavy source light load", and achieves deep integration of energy flow, information flow, and value flow through the deep collaboration of source, network, load, and storage.

Product Details

Microgrid Energy Efficiency Management System: Building Green and Smart Energy

Against the backdrop of global energy structure transformation and the drive for "dual carbon" goals, energy utilization patterns are undergoing a profound transformation. The traditional one-way and centralized energy supply model is gradually evolving towards a new energy system that is distributed, interactive, and intelligent. As a "small-scale power generation and distribution system" that integrates distributed energy, energy storage devices, loads, and monitoring and protection devices, microgrids have become a key carrier for achieving efficient energy utilization and reliable supply. However, with the widespread integration of volatile power sources such as photovoltaics and wind power, as well as the increasing complexity of user side loads, how to achieve energy supply and demand balance, optimize scheduling, and efficient management within microgrids has become an urgent challenge for the industry.The microgrid energy efficiency management system has emerged, which reshapes the energy management process with digital technology and provides a one-stop energy solution for enterprise parks, commercial complexes, industrial enterprises, and remote communities.

　　1、 Product positioning: a leap from "passive monitoring" to "active optimization"

Its core mission is to consume renewable energy, reduce energy costs for users, and improve comprehensive energy utilization efficiency while ensuring the safe and stable operation of microgrids. The system utilizes advanced algorithm models to uniformly schedule and manage various distributed resources within the microgrid, transforming previously uncontrollable fluctuating power sources into controllable high-quality power sources, and transforming rigid load demands into flexible and adjustable resources, thereby achieving dynamic balance in the ever-changing energy environment.

　　2、 Core architecture: Full chain digital empowerment

The system adopts a hierarchical architecture of "cloud edge end" collaboration, ensuring real-time data and agile decision-making.

End side perception layer: As the nerve endings of the system, smart meters, sensors, data collectors, and other devices deployed at various nodes of the microgrid collect solar power generation, wind power generation status, energy storage battery state of charge (SOC), grid interaction power, and load electricity data of each subdivision circuit around the clock. These massive amounts of data form the foundation for the precise operation of the system.

Edge computing layer: responsible for data localization preprocessing and real-time control. On a millisecond scale, edge controllers respond to local instructions and perform critical tasks such as fast power allocation, voltage and frequency regulation, and islanding protection to ensure that microgrids can still operate independently off grid in the event of network fluctuations, ensuring uninterrupted power supply for critical loads.

Cloud application layer: As the intelligent hub of the system, based on big data platforms and artificial intelligence algorithms, it conducts deep mining and panoramic display of aggregated data. Here, advanced application functions such as energy efficiency analysis, strategy optimization, report management, prediction and warning are provided to provide macro decision support for managers.

　　3、 Core Function: Reshaping Energy Value in Four Dimensions

The microgrid energy efficiency management system improves the operational level and economic benefits of microgrids through four core functional modules.

1. Panoramic visualization and real-time monitoring

The system has constructed an intuitive and dynamic microgrid digital twin model. Managers can real-time monitor the overall operation of microgrids through large screens or PC terminals, including the real-time power, voltage, current and other operating status of key nodes such as photovoltaics, wind power, energy storage, mains power, loads, as well as the on/off status of switches. The system displays the flow and distribution of energy in a graphical manner, making invisible electrical energy visible and tangible, and achieving transparent management of operating status.

2. Intelligent optimization scheduling and economic operation

This is the core 'brain' of the system. The system automatically generates operation scheduling strategies based on peak and valley electricity price periods, weather forecasts (light intensity, wind conditions), load forecasting results, and energy storage battery status.

Peak shaving and valley filling: controlling the charging of energy storage systems during periods of low electricity prices or excess renewable energy generation; During peak electricity prices or insufficient power generation, control energy storage and discharge, use price differentials for arbitrage, and reduce overall electricity costs.

Demand response: Receive power grid dispatch instructions or manage internal adjustable loads (such as air conditioning, lighting, non critical production lines) in an orderly manner based on internal system pressure, alleviate power grid supply and demand pressure, and obtain additional auxiliary service revenue.

New energy consumption: Priority will be given to dispatching green energy such as photovoltaics and wind power to meet load demand, and the shortfall will be supplemented by the municipal power supply. The surplus electricity will be connected to the grid or stored in energy storage, significantly increasing the proportion of clean energy and reducing carbon emissions.

3. Refined energy efficiency analysis and diagnosis

The system can not only view the present, but also analyze the past. By deeply mining historical data, the system provides multi-dimensional (such as region, device, and time period) energy efficiency analysis reports. It can automatically identify high energy consuming equipment and low efficiency operating periods, discover energy consumption anomalies through year-on-year and month on month analysis, and provide energy-saving diagnostic recommendations combined with algorithms. For example, identifying that a production line has idle energy consumption during non production periods, or that a transformer has been operating at a low load rate for a long time, in order to guide users to carry out technical modifications or adjust operating modes.

4. Security warning and operation management

Safety is the lifeline of microgrid operation. The system has a safety monitoring mechanism that monitors potential faults such as voltage exceeding limits, frequency abnormalities, overload, and overheating in real time. Once an abnormality is detected, it will immediately sound an alarm through sound and light, SMS, APP push, etc., and automatically record the fault waveform and sequence of events (SOE) to assist operation and maintenance personnel in quickly locating the cause of the fault. In addition, the system supports full lifecycle management of equipment, establishes electronic records of equipment, records maintenance history and health status, and realizes the transformation from "passive repair" to "preventive maintenance".

Microgrid Energy Management System Ankerui：

Ankerui Electric Co., Ltd. (code: 300286) was established in 2003, integrating research and development, production, sales, and service. It is a high-tech joint-stock enterprise that provides energy efficiency systems and electrical safety solutions for enterprises. The company's solutions cover multiple fields such as electricity, environmental protection, new energy, fire protection, data centers, smart buildings, smart campuses, smart hospitals, smart factories, smart transportation, and engineering.

The company is headquartered in Jiading, Shanghai. It is a key high-tech enterprise and software enterprise under the National Torch Plan, a national key new product, a key enterprise in Shanghai's smart grid, and a demonstration enterprise in Shanghai's power grid industry. The company has one-stop service capabilities from cloud platform software to terminal components, forming a "cloud edge end" energy Internet ecosystem. At present, more than 14000 sets of system solutions have been running all over the country, providing data services for users to use energy efficiently and safely, and for enterprises to save energy and reduce consumption and achieve energy digitization. The company has deployed sales and technical support teams in major cities across the country to quickly respond to customer needs and provide users with a good service experience.

Jiangsu Ankerui Electric Manufacturing Co., Ltd., a production base located in Jiangyin City, Wuxi, is a wholly-owned subsidiary of Ankerui Electric Co., Ltd. It is also a high-tech enterprise and a pilot enterprise for the integration of industrialization and informatization in Jiangsu Province. The company adopts an automated lead-free production process and has a product testing center certified by the National Laboratory Accreditation Service (CNAS). With the support of an information management system, it provides guarantees for the industrialization and large-scale implementation of the company's products.