Multi-domain electric power system load frequency control method with wind storage

Abstract

The invention relates to a multi-domain electric power system load frequency control method with wind storage. The method comprises the following steps of S1, constructing a multi-domain electric power system and establishing a mathematic model of an electric generator; S2, establishing a state model containing an uncertain item; S3, designing a sliding mode surface; S4, designing a sliding mode load frequency controller; S5, carrying out interval division on an electric power system load and providing different control strategies aiming at loads in different intervals. Compared to the prior art, by using the method of the invention, an energy storage subsystem is participated in system frequency adjusting, and the uncertain item of a parameter in an interconnection system and a control channel time delay problem of an energy storage system are considered. According to an interval of a system load disturbance change, the different control strategies are provided, and the method possesses advantages that a system frequency offset and system overshoot are low; a time terminal is adjusted and electric power system stability is high. Compared to a system with energy storage under traditional PI control, by using the method of the invention, a capacity of energy storage equipment is reduced and investments of the electric power system are decreased.

Description

technical field [0001] The invention relates to a load frequency control method of a power system, in particular to a load frequency control method of a multi-domain power system including wind storage. Background technique [0002] Frequency is one of the important indicators reflecting the safe and stable operation of the power system. Under normal operation of the power system, frequency control is mainly accomplished by adjusting the active power output of the generator. When a large disturbance occurs in the power system, that is, the power generation is seriously unbalanced, the frequency recovery of the power system needs to rely on the load frequency control to keep the frequency within the allowable range of the power industry. [0003] At present, wind energy is an inexhaustible clean and renewable energy, which has attracted the attention of scholars and experts, and the proportion of wind power generation is increasing year by year. However, wind energy is inter...

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Problems solved by technology

[0008] The document "The sliding mode load frequency control for hybrid power systembase on disturbance observe, Yang Mi, Yang Fu, Dongdong Li" designed a sliding mode controller based on the disturbance observer for single-domain power systems with wind turbines, but only limited to single-domain power system, and no energy storage system is introduced to participate in power system frequency regulation

[0009] The literature "Decentralized Sliding Mode Load Frequency Control for Multi-AreaPower systems, Yang Mi, Yang Fu, Wang Chengshan" designed a sliding mode controller for multi-domain interconnected power systems, which effectively

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