Wind farm reactive-power control strategy for promoting transient stability of weak power grid integrated with wind power

A transient stability and transient stability technology, applied in wind power generation, reactive power compensation, reactive power adjustment/elimination/compensation, etc. Problems such as voltage collapse

Pending Publication Date: 2018-05-04
WIND POWER TECH CENT OF GANSU ELECTRIC POWER +2
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Problems solved by technology

During the transient process of grid recovery after the fault is cleared, the wind turbine may temporarily lose control due to the large transient error of the phase-locked loop, absorbing reactive power from the grid
Moreover, during the recovery process, equipment such as transformers and squirrel cage motors will also absorb a large amount of reactive power from the grid, and the system is prone to voltage collapse due to reactive power imbalance.

Method used

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  • Wind farm reactive-power control strategy for promoting transient stability of weak power grid integrated with wind power
  • Wind farm reactive-power control strategy for promoting transient stability of weak power grid integrated with wind power
  • Wind farm reactive-power control strategy for promoting transient stability of weak power grid integrated with wind power

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Embodiment Construction

[0016] Weak power grid and strong power grid are usually defined and divided according to the short-circuit ratio (SCR). It is generally believed that the power grid when the SCR value is greater than 20-25 is a strong power grid, and the power grid when the SCR value is less than 6-10 is a weak power grid. The following formula is the calculation of SCR formula.

[0017]

[0018] S n is the rated capacity of the grid; S SC is the short-circuit capacity; U g is the wind farm outlet voltage; X Z is the line impedance; P G is the wind farm capacity.

[0019] Weak power grids generally have two characteristics:

[0020] 1. The long transmission line leads to large internal resistance of the power grid;

[0021] 2. The proportion of asynchronous power supply is high, resulting in low rotational inertia of the AC system. If any of the above points are met, it can be called a weak grid.

[0022] The grid impedance corresponding to a weak grid is usually low, the inductive...

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Abstract

The invention discloses a wind farm reactive-power control strategy for promoting the transient stability of a large-scale weak power grid integrated with wind power. The strategy is divided into twoaspects of turbines and a wind farm, wherein in the turbine aspect, reactive-power priority control is adopted; in the wind farm aspect, based on a transient energy method, a transient unbalanced energy prediction value is calculated, a transient voltage stability margin is calculated, reactive power output of the different direct-drive wind turbines is adjusted, and a reactive power adjusting instruction is transmitted to each turbine. A strategy overall used by a controller is that according to interaction of the wind farm and an electric system in a system, reactive power control to the wind farm is decomposed into additional control to each draught fan. The control strategy needs no any additional hardware, the communication ability of a centralized control system of the wind farm andthe control strategy of direct drive wind turbines themselves are made full use of, the unreasonable fluctuation of overall reactive power voltage of the wind farm is avoided, and the transient stability performance of the weak power grid integrated with the wind farm can be effectively improved.

Description

technical field [0001] The invention relates to the field of transient stability of electric power systems, in particular to a strategy for improving the transient stability performance of large-scale wind power access under weak power grid conditions. Background technique [0002] At present, the long-distance power transmission system that has been formed in Gansu Power Grid has several major characteristics: "high proportion of wind and solar power, small load at the sending end, weak power grid at the sending end, and long distance of outgoing transmission lines". Send line delivery. In the normal operation mode, the randomness and volatility of wind power have caused problems such as difficulty in controlling the reactive power and voltage of the power grid. Since some wind turbines do not have low-voltage ride-through capability, the voltage drop of individual wind farms directly causes a large number of other wind farms connected to the grid at the substation to go o...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H02J3/16H02J3/38H02J3/18
CPCH02J3/386H02J3/16H02J3/18H02J2203/20Y02E10/76Y02E40/30
Inventor 汪宁渤丁坤郝晓弘周识远郭铁锷李津张珍珍高鹏飞陈钊王定美马彦宏韩旭杉陟晶张睿骁黄蓉赵广杰
Owner WIND POWER TECH CENT OF GANSU ELECTRIC POWER
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