DE102005052011A1 - Wind energy plant operating method, involves dynamically changing electrical active power during exceeding main frequency threshold value by specific hertz depending on current main frequency in accordance with specific relationship - Google Patents

Abstract

The method involves connecting an electrical generator with a power line for delivering electrical active power to a main connection point. The power line operates in a preset main frequency band limited by lower and upper main frequencies in a trouble-free condition. The active power is controlled depending on a current main frequency during exceeding a main frequency threshold value. The active power is dynamically changed during exceeding the main frequency threshold value by 50.2 hertz depending on the current main frequency in accordance with a specific relationship. An independent claim is also included for a wind energy plant comprising an electrical generator that is driven by a rotor.

Description

The The invention relates to a method for operating a wind energy plant According to the preamble of claim 1. It further relates to a wind turbine according to the preamble of claim 6.

The This invention relates generally to the field of production and transportation of electricity. For generating electric power can several Wind turbines combined into a so-called "wind farm" and at a common Network connection point to be connected to a network. The net is going on a given voltage level, z. B. 110 kV, 220 kV or 380 kV, operated. It can over Transformers be connected to other networks, which on one be operated at different voltage level. Such a network is kept at a mains frequency of, for example, 50 Hz.

As a result of disturbances, For example, line shutdowns or Teilnetzabtrennungen can it an unwanted change the mains frequency come. To counteract this is in the conventional Power plants provided a so-called primary control reserve, with which has a frequency deviation of max. 200 mHz with insensitivity of ≥ 10 mHz can be adjusted. But the primary control reserve has one Disadvantage that the reaction time of the control in the range of several Seconds.

To stabilize the network operation with unwanted frequency fluctuations, it is from the DE 100 22 974 C2 It is known to reduce the power fed into the grid by a generator of a wind turbine when the grid frequency exceeds a predetermined grid frequency value greater than 3 ‰ above its set point. Further, there is proposed that the wind turbine does not deliver electrical power to the grid when the grid frequency exceeds its setpoint by a predetermined value of 2% of the setpoint. For this purpose, a frequency converter is provided with which a reactive power factor cosφ can be changed depending on the measured mains frequency. The generator remains physically connected to the network. That can u. U. contribute to further destabilization of the network. From the DE 100 22 974 C2 There are no indications about the control behavior of the regulator proposed therein.

task The invention is to the disadvantages of the prior art remove. In particular, a method is to be specified, with the improved stability of a network at an impermissible frequency increase be guaranteed can. Furthermore, a suitable for carrying out the method Wind turbine to be provided.

These The object is solved by the features of claims 1 and 7. Advantageous embodiments The invention will become apparent from the features of claims 2 to 6 and 8 to 12.

ΔP

die Verringerung der Wirkleistung P in %,

P_M

die momentan ans Netz abgegebene Wirkleistung P und

f_Netz

die momentane Netzfrequenz ist.

According to the method of the invention, it is provided that the active power P delivered to the network is dynamically changed when the grid frequency limit value exceeds 50.2 Hz as a function of a current _network frequency f _{network in} accordance with the following relationship: ΔP = 20 P M [(50,2 Hz - f network )] / 50 Hz, in which

.DELTA.P

the reduction of the active power P in%,

P _M

the active power P and currently delivered to the network

f _network

the current network frequency is.

To the invention proposed Relationship becomes a currently available active power P from one Mains frequency of 50.2 Hz with a gradient of 40% of the momentary available Active power P of the generator per Hz of the mains frequency lowered. If the mains frequency falls below a value of 50.2 Hz, then the wind turbine unrestricted active power P to the grid issued. This will result in destabilization of the network dangerous Frequency increase over 200 mHz effectively counteracted.

According to an advantageous embodiment of the invention, the active power P is changed or regulated only in the range of 50.2 Hz ≤ f _network ≤ 51.5 Hz. Outside this range, no regulation takes place.

advantageously, is when the lower and / or an exceedance is exceeded the upper mains frequency the generator automatically disconnected from the mains. The term "separating" is a understood physical separation. This can not happen that a generator is physically connected to the network when the grid frequency changes to values, which outside of the frequency band are located. It can be particularly effective a destabilization of the network in case of unwanted frequency fluctuations be counteracted.

In the case of a mains frequency of 50 Hz, the lower mains frequency may suitably 47.5 Hz and the upper mains frequency 51.5 Hz. The upper network frequency advantageously forms simultaneously the upper limit of the range in which a regulation of the active power P is provided. In contrast, in a wider range between the lower mains frequency, here 47.5 Hz, and the lower limit of the range, namely 50.2 Hz, the delivery of the full active power P is possible. The proposed limits allow a particularly stable network operation.

To A further embodiment of the invention provides that the change the active power P by a change the angle of attack of rotor blades of the rotor is effected to the wind. To change the active power P according to the invention predetermined Gradient can be on a conventional Pitch control of the rotor blades resorted become. The inventively proposed Procedure leaves in practice without much effort implement.

With Wind turbines are in contrast to conventional power plants possible, with a short reaction time to an unwanted increase in line frequency to react. In this case, the active power P within a reaction time changed by less than 1 second become. At a frequency increase above the value of 50.2 Hz is in the network due to the short reaction time of the wind turbines First, the active power P of the wind turbines lowered. Subsequently, will the grid frequency dynamically through the primary control reserve of the conventional Power plants regulated.

ΔP

die Verringerung der Wirkleistung P in %,

P_M

die momentan ans Netz abgegebene Wirkleistung P und

f_Netz

die momentane Netzfrequenz ist.

According to another aspect of the invention, in a wind power plant, in particular for carrying out the method according to the invention, it is provided that the active power P can be changed dynamically with the means for regulating if the grid frequency limit of 50.2 Hz is exceeded according to the following relationship: ΔP = 20 P M [(50,2 Hz - f network )] / 50 Hz, in which

.DELTA.P

the reduction of the active power P in%,

P _M

the active power P and currently delivered to the network

f _network

the current network frequency is.

Because of the further proposed according to the invention Regulatory and / or Separation parameter is based on the aforementioned embodiments directed. The features described there are also mutatis mutandis the device for regulation in the proposed wind turbine applicable.

following is an embodiment of Invention explained in more detail with reference to the drawings. Show it:

1 a connection diagram of a wind farm to the grid and

2 the reduction of the active power P of a wind turbine and the reduction of the active power P of a conventional power plant over time.

1 shows a connection diagram for a connection of several combined to a wind farm WP wind turbines W1, W2 to a network N. The network N is at a network connection point NP via a first circuit breaker 1 with a mains connection transformer 2 connected to the wind farm WP.

Each of the wind turbines W1, W2 has a rotor 3 which is connected to a generator (not shown). An angle of attack of the rotor blades of the rotor 3 relative to the wind is adjustable to control the output to the network N active power P. For this purpose, a (not shown here in detail) pitch control is provided.

The generator is via a second circuit breaker 4 with a downstream transformer 5 connected. The Trans formator 5 is in turn connected to the grid connection transformer 2 with interposition of one or more third circuit breakers 6 connected.

2 shows the reduction of the active power P of a wind turbine and the reduction of the active power P of a conventional power plant K over time. In a time indicated by the broken line t = 0, there is a dangerous frequency increase in the network N over a value of 50.2 Hz, for example 50.7 Hz. The wind turbine W1, W2 controls with a short reaction time of less than 1 Second by a change in the angle of attack of the rotor blades, the output to the network N active power P with a gradient of 40% of the instantaneous active power P per Hertz down. At the same time, the primary control reserve of conventional power plants K counteracts the increase in grid frequency. However, the primary control reserve only responds after a reaction time Δt of 5 to 12 seconds, in the example shown of 6 seconds. As a result, the output of conventional power plants K active power P is reduced, thus regulating the grid frequency to the nominal network frequency of 50 Hz. At the same time, the effective power P output by the wind energy plants W1, W2 increases again to the value of the original one instantaneous active power P on.

The increase the active power P of the wind turbines W1, W2 takes place again by a change the angle of attack of the rotor blades with the pitch control provided for wind turbines W1, W2.

The inventive method Can be easily realized by the conventional wind turbines W1, W2 provided pitch control by means of a frequency measuring device according to the proposed Relationship is regulated. This can quickly and easily in a cost-effective manner and effectively dangerous Frequency increases in the network N are counteracted. The network stability can with it elevated become.

1

first breakers

2

Power supply transformer

3

rotor

4

second breakers

5

transformer

6

third breakers

K

power plant

N

network

NP

Grid connection point

W1, W2

Wind turbine

WP

wind farm

Claims (12)

Method for operating a wind turbine (W1, W2), with one of a rotor ( 3 ), wherein the generator for delivering active electrical power P at a network connection point (NP) with a network (N) is connected, and wherein the network (N) in the interference-free state in a predetermined, bounded by a lower and an upper network frequency Mains frequency band operated and delivered to the network (N) active power P is controlled when exceeding a power frequency limit as a function of a current power frequency f _network , characterized in that the network (N) output active power P when exceeding a power frequency limit of 50.2 Hz depending on a current _network frequency f _{network is} changed dynamically according to the following relationship: ΔP = 20 P M [(50,2 Hz - f network )] / 50 Hz, where ΔP is the reduction of the active power P in%, P _{M is} the active power P currently being delivered to the network and f is the current _network frequency. The method of claim 1, wherein the active power P is controlled in the range 50.2 Hz ≤ f _network ≤ 51.5 Hz. Method according to one of the preceding claims, wherein if it falls below the lower and / or an excess the upper mains frequency the generator automatically disconnected from the mains (N) becomes. Method according to one of the preceding claims, wherein the lower mains frequency 47.5 Hz and the upper mains frequency 51.5 Hz is. Method according to one of the preceding claims, wherein the change of the active power P by a change of an angle of attack of rotor blades of the rotor ( 3 ) is effected to the wind. Method according to one of the preceding claims, wherein the active power P within a reaction time of less than 1 second is changed. Wind energy plant (W1, W2), in particular for carrying out the method according to one of the preceding claims, with one of a rotor ( 3 ), wherein the generator for delivering active electrical power P at a network connection point (NP) with a network (N) is connected, wherein the network (N) in the fault-free state in a predetermined, limited by a lower and an upper network frequency network frequency band is operated, and wherein a device for controlling the output to the network (N) active power P is provided as a function of a current _network frequency f _network , characterized in that the means for regulating the active power P when exceeding a power frequency limit of 50.2 Hz is dynamically changeable according to the following relationship: ΔP = 20 P M [(50,2 Hz - f network )] / 50 Hz, where ΔP is the reduction of the active power P in%, P _{M is} the active power P currently being delivered to the network and f is the current _network frequency. Wind energy plant (W1, W2) according to claim 7, wherein the active power P in the range 50.2 Hz ≤ f _network ≤ 51.5 Hz is controlled. Wind turbine (W1, W2) according to one of claims 7 or 8, wherein a device ( 1 . 4 . 6 ) for the automatic disconnection of the generator from the network (N) when the lower net and / or an upper Netfreeflow is exceeded is provided. Wind energy plant (W1, W2) according to one of claims 7 to 9, where the lower grid frequency is 47.5 Hz and the upper grid frequency 51.5 Hz. Wind energy plant (W1, W2) according to one of claims 7 to 10, wherein for changing the active power P means for changing an angle of incidence of rotor blades of the rotor ( 3 ) is provided to the wind. Wind energy plant (W1, W2) according to one of claims 7 to 11, wherein the active power P with the means for regulation within a response time of less than 1 second is changeable.