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Grid-Side Virtual Power Plant Regulation and Management System

Applications

Virtual power plants focus on core functions such as panoramic monitoring, aggregation analysis, multi-level optimal dispatch, multi-application scenario control, and response effect evaluation of distributed flexible resources. Achieves integrated monitoring, collaborative optimization, and flexible control of various resources aggregated within virtual power plants, including photovoltaics, energy storage, charging piles, and adjustable loads. By providing a unified regulation and management platform to efficiently integrate scattered resources, it transforms them into competitive virtual power plant entities, enhances grid interaction capabilities, and offers innovative solutions to modern grid challenges such as volatility and peak load pressure.

System Composition

Functional Features

Panoramic Monitoring

Provide monitoring functions for flexible resource regulation scenarios, enabling panoramic monitoring of various adjustable resources such as charging piles, smart building air conditioners, distributed energy storage, and photovoltaic systems through visualization techniques.
Aggregation Analysis

Achieve aggregation of massive distributed controllable resources with dynamic topology tracking, clearly displaying adjustable capabilities in different grid topologies to meet the regulation requirements of complex grid scenarios.
Multi-Level Optimal Scheduling

Achieve cloud-edge collaborative optimal control of virtual power plants.
Multi-Application Scenario Control

Support closed-loop implementation of distributed flexible resources participating in grid peak shaving, frequency regulation, and other scenarios.
Response Effect Evaluation

Support evaluation of the response effects of distributed flexible resources, calculating and verifying indicators such as response rate, response time, and regulation accuracy.

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