Virtual synchronous generator virtual inertia and virtual damping coefficient adaptive control method

A technology of self-adaptive control and synchronous generators, which is applied in circuit devices, AC network circuits, reducing/preventing power oscillation, etc., can solve problems such as poor compatibility of large power grids, large frequency fluctuations during load switching, and difficult control, etc., to achieve The adjustment process is smooth, the stability is improved, and the effect of external characteristics is improved

Active Publication Date: 2019-01-22
NORTHEASTERN UNIV
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Problems solved by technology

However, the increase in the penetration rate of distributed generation also has many problems: difficult control, poor compatibility with large power grids, and large frequency fluctuations during load switching
At present, it has been widely used in function optimization, neural network training, fuzzy system control and other multi-objective optimization applications. There is no method to apply particle swarm optimization to virtual synchronous generator control.

Method used

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  • Virtual synchronous generator virtual inertia and virtual damping coefficient adaptive control method
  • Virtual synchronous generator virtual inertia and virtual damping coefficient adaptive control method
  • Virtual synchronous generator virtual inertia and virtual damping coefficient adaptive control method

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Embodiment Construction

[0057] The specific implementation manners of the present invention will be further described in detail below in conjunction with the accompanying drawings and embodiments. The following examples are used to illustrate the present invention, but are not intended to limit the scope of the present invention.

[0058] In this embodiment, as figure 1 The topology structure of a typical microgrid inverter circuit is shown as an example, and the virtual inertia and virtual damping coefficient of the inverter are controlled by using the virtual synchronous generator virtual inertia and virtual damping coefficient adaptive control method of the present invention.

[0059] Virtual synchronous generator virtual inertia and virtual damping coefficient adaptive control method, such as figure 2 shown, including the following steps:

[0060] Step 1. Model the inverter based on the virtual synchronous generator to obtain the correlation between the output frequency change of the inverter ...

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Abstract

The invention provides a virtual synchronous generator virtual inertia and virtual damping coefficient adaptive control method, which relates to the technical field of smart grid and intelligent algorithms. Firstly, the inverter based on the virtual synchronous generator is modeled, and the correlation between the output frequency of the inverter and the virtual inertia J and the virtual damping coefficient D is obtained. Then the fitness function of the adaptive control method of virtual inertia J and virtual damping coefficient D based on the improved particle swarm optimization algorithm isdetermined. Finally, the improved particle swarm optimization algorithm is applied to the active power. In the frequency control part, the real-time adaptive control of virtual inertia J and virtualdamping coefficient D is realized in order to minimize the frequency deviation and stabilize the system. The invention provides a virtual synchronous generator virtual inertia and virtual damping coefficient real-time adaptive control method, which fully utilizes the characteristics of the virtual inertia and introduces the virtual damping coefficient, so that the inverter is more stable and the frequency offset is smaller.

Description

technical field [0001] The invention relates to the technical field of smart grids and smart algorithms, in particular to an adaptive control method for virtual inertia and virtual damping coefficient of a virtual synchronous generator. Background technique [0002] The traditional power grid has always been the main power supply channel and has developed rapidly with the continuous increase in power demand. However, the centralized large power grid also has many disadvantages: high cost, difficult operation, and difficult to meet the increasingly high safety and reliability requirements of users. It is easier and faster to develop distributed power than to improve security by retrofitting the grid. Distributed power generation has many advantages: most of them use secondary energy, less pollution, and high energy utilization; flexible installation locations can save power transmission and distribution resources and operating costs, and reduce line losses; they can reduce t...

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H02J3/38H02J3/24
CPCH02J3/24H02J3/38H02J2203/20
Inventor 王安娜何志国
Owner NORTHEASTERN UNIV
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