NEW POWER SYSTEM & MICRO-GRID
Novel power system&Microgrid
Real-Time Simulation Solution
Novel power system&Microgrid
The spatial and temporal distribution of electricity in our country is extremely uneven, and the generation output of new energy sources is characterized by randomness and volatility. This has led to unprecedented security challenges for the large-scale integration of new energy into the power system. The novel power systems have higher requirements for flexible regulation and secure stability support, necessitating coordination among multiple technologies, industries, and systems. Real-time simulation technology, as an advanced and core testing method in the research of novel power systems, can accurately simulate and model system topologies at different levels, providing secure, efficient, and comprehensive experimental coverage. It has been validated through closed-loop verification by numerous well-known scientific research institutions, making it the preferred platform for research on novel power systems and microgrids.
Solution Class
Microgrid Research
Microgrid Research
Microgrid Research
Microgrid Research

Due to the flexible structure and diversified composition of microgrids, the traditional way of building a small power physical system has been greatly tested in terms of its safety, economy and flexibility of scientific research. The microgrid research platform based on real-time simulation has the flexibility of model construction and real-time simulation, and the authenticity of closed-loop operation with corresponding physical signals, and at the same time, it has the incomparable advantages of the traditional low-power system for the complex working conditions, hazardous experiments, and testing of new system structure.

Digital Physical Hybrid Simulation
Digital Physical Hybrid Simulation
Digital Physical Hybrid Simulation
Digital Physical Hybrid Simulation

New energy is the development trend of future energy, and it is of great significance to study the safe, efficient, green and environmentally friendly utilisation of energy from all aspects of development and utilisation, transmission, distribution and consumption. In order to deeply promote the research on key technologies of energy management, break through bottlenecks, produce high-level scientific research results, and substantially improve the level of development of the discipline, it is necessary to build smart energy laboratories and research platforms.

New Energy Station Simulation
New Energy Station Simulation
New Energy Station Simulation
New Energy Station Simulation

At present, in view of the problems of high voltage level, large scale structure and high difficulty of testing working conditions in new energy stations, it is necessary and feasible to use real-time simulation technology to study the working conditions of new energy stations connected to the grid.

Green Hydrogen Microgrid Real-time Simulation
Green Hydrogen Microgrid Real-time Simulation
Green Hydrogen Microgrid Real-time Simulation
Green Hydrogen Microgrid Real-time Simulation

The green hydrogen microgrid system consists of photovoltaic distributed power supply, lithium battery storage system, hydrogen fuel cell, electrolysis tank, hydrogen storage tank and loads, creating a light hydrogen storage microgrid energy supply system in the park, and constructing a green, low-carbon and environmentally friendly application scenario for the park in the new era. The electrolysis tank generates hydrogen to be stored in the hydrogen storage tank; the loads include fixed loads, dynamic loads and charging piles.

概览1
System Schemes
概览1
  • 01

    Research on the underlying core control of inverter level based on Hardware-in-the-Loop (HIL) real-time simulator.

  • 02

    Simulation of large-scale renewable energy power plants based on a novel power supercomputing platform.

  • 03

    Energy management of microgrid master control algorithm based on RCP.

  • 04

    Subsystem control of microgrids based on RCP.

Highlights
Cover most research directions of microgrids for users.
Cover most research directions of microgrids for users.
Adopting semi-physical simulation research methods allows researchers to focus on energy dispatch. It accelerates the development progress by conducting research on various aspects such as control algorithms for inverters and system stability.
It can achieve large-scale station-level simulation.
It can achieve large-scale station-level simulation.
The ability for devices to perform multi-machine parallel simulation and CPU to perform multi-core parallel simulation makes it possible to simulate large-scale station-level scenarios. This capability assists in studying the impact of integrating new energy stations into regional power grids.
Support popular industrial communication protocols.
Support popular industrial communication protocols.
Support Modbus, CAN, and serial communication. This facilitates the simulation of data communication processes between different devices in real-world applications.
Cover most research directions of microgrids for users.
It can achieve large-scale station-level simulation.
Support popular industrial communication protocols.
Related Customers
University Users
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