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Access to the research platform for key technologies of energy control, scheduling and management
New energy power generation technology is the demand and trend of the development of power science and technology. Building a new energy power generation access control and energy management experimental research platform. Research in this technical field can accelerate my country’s independent innovation in the field of new energy power generation functions and enable my country The research level in related fields ranks among the international advanced ones, and at the same time, it provides a scientific basis for the optimization and adjustment of my country's energy and grid structure. At the same time, there are still many key problems in my country's new energy power generation integration system that have not been systematically resolved. The construction of a key technology research platform for access energy control, dispatch and management can fully verify the theoretical research results in this field, and is the engineering of innovative theories. Application to eliminate technical risks.
The research platform is mainly aimed at solving system-level control and energy management problems after new energy power generation is connected, and verifying the key theories of this research direction.
This platform can conduct the following research:
●Mathematical models and device-level offline simulation models of wind power generation devices and photovoltaic power generation devices·Real-time simulation models of wind power generation devices, photovoltaic power generation devices and their access systems
●Experimental verification of system mathematical model, offline simulation model and real-time simulation model
●Under the condition that the characteristics of the parallel ports remain unchanged, the dynamic equivalent processing of multiple wind turbines can be realized
●Achieve dynamic equivalence processing of multiple solar photovoltaic power generation systems under the condition that the characteristics of parallel ports remain unchanged
●Complete the credibility test of the dynamic equivalent model
●The power flow calculation method of the system after new energy power generation is connected
●Quantitative calculation method of system voltage deviation, voltage flicker and harmonic characteristics caused by new energy power generation after the connection. Short-circuit current calculation method of new energy power generation distribution system
●Analysis of power regulation capability and fault penetration capability of new energy power generation system
●New energy power generation system power angle characteristic control and its influence on power quality
●Suppression method of electromagnetic interference of new energy power generation access system
●Detection and verification method of power quality control effectiveness
●The influence of random power fluctuations on the dynamic stability of the power grid
●The influence of random power fluctuations on the transient stability of power grid
●The influence of random power fluctuations on grid voltage stability
●The influence of random power fluctuations on the stability of grid frequency
●Random power fluctuation suppression method for coordinated control of multiple energy and power
●Monitoring and control method of system status
●Access control method of new energy power generation system
●New energy power generation system optimal dispatching theory and algorithm
●Design of intelligent energy management dispatching platform for distributed new energy power generation system
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Add:Canglong Island Science and Technology Park, Jiangxia District, Wuhan City 16 LiMiao Road
