DE102007035724A1 - Method for regulating and power guidance of wind energy unit - Google Patents

Abstract

The method for regulating and power guidance of wind energy unit involves a power guidance system that limits the wind energy unit to a specific velocity (3), with the performance being reduced beyond a specific duration. Performance reduction at higher wind speed is dependent on at least one of the following parameters: the requirements of the energy provider, the wind measurement in other positions surrounding the wind energy unit and the time of year where, for example, in the summer several wind energy units are required especially if it rains.

Description

State of the art

Wind turbines are regularly shut down when a certain limit wind speed is reached, usually between 25 and 30 m / s, in order to limit the loads caused by the wind. In systems of the manufacturer Enercon they are using the patent DE 103 20 087 successively limited in their performance. Also according to the DE 195 32 409 In strong winds, there should not be a complete shutdown of the power at a limit wind speed, but a gradual reduction in power.

The Shutdown usually takes place after a few over Seconds to minutes of continuous exceeding of the limit wind speed, a shutdown in case of short overruns in a row to avoid gusts. It can be in a plant control also give several termination criteria by pairs of limit speed and exceedance duration are defined.

at the speed limit, in particular at the lower of several limit speeds, so there are still some load reserves the plant. However, these are due to material fatigue and because of the danger of a sudden increase in the burden not exploited by gusting effect, because this is not due to the low current yield of an operation in such a Borderline situation would be justified.

at switched off systems, a restart takes place only after a lower turn-on wind speed for a certain time (mostly several minutes) sustained underrun to wear through avoid frequent switching on and off of the systems.

Also Here is the control therefore a tradeoff between the Value of the electricity generated and the risks to the plant or wear.

The fact that the control of a wind turbine can basically respond to changes in the grid frequency is known, but so far not for the purpose described here. In isolated grids, an adaptation of the power generation of a wind turbine to the needs of consumers is regularly carried out. From the DE 100 22 974 It is known, for example, that the output of a wind energy plant can be purposefully reduced if a certain limit of the grid frequency is exceeded. However, this refers to operating conditions of the wind turbine within its regular specification.

In the DE 103 41 504 temporary power increases in the nominal load range are described, ie in an operation with approximately constant power output usually above the rated wind speed, but below the threshold wind speed.

According to the invention the wind turbine now also at the limit of its capacity more flexible on the requirements of the network or in the future expected wind speed react.

For the case of disturbances in network operation, for example due to the failure of large thermal power plants come, the thought is based on that then all Generating units of the network at the limit of their efficiency working, and doing so, huge economic risks threaten (for example, by a blackout several hours). In this Situation should therefore also in the management of Wind turbines took a greater risk to get more production. The risk lies here especially in that a sudden onset of gust to an additional burden and thus to a significantly increased Wear or increase material fatigue leads, in the worst case, even to an immediate one Destruction of the plant. The probability that one but gusts just during one such network event, that only a few seconds until Minutes, but is generally low, so that according to the invention a meaningful contribution for network stability can be provided.

First is intended according to the invention in situations in which the network situation suggests an increased demand for electricity, should be waived as possible shutdown, should they only take place at higher wind speeds or it should be done only when this wind speed for exceeded a greater period of time has been considered after normal shutdown criteria. Correspondingly for the restart after a strong wind period several Rules are programmed, which are activated depending on the network situation become. With high demand of the net at the energy production so would be switched back on faster, and that too Risk of early deactivation in the event that the wind soon increases again, to be accepted.

Particularly good control possibilities for the application of this method are in systems with rotor blades with adjustable angle and when the power output of the generator at variable rotor speed is possible. But just in systems with regulation by Stömungsabriß (stall control) could be a relatively cautious design of normal termination criteria can result in reserves being mobilized.

at Plants that do not shut down abruptly, but at higher levels Wind force their power gradually by down regulation could reduce the performance curve in this area the characteristic can be increased if the grid situation this suggests.

On this way can z. B: an additional "second reserve" be mobilized for network operation. From the perspective of the individual Wind turbine results in a difference only when these just in an operating point between the normal and the modified interruption criteria is located. In the sum of all Wind turbines of a region will be in strong wind conditions always some are located in these boundary operating areas. If many Wind turbines are equipped with such a scheme can So in periods with high demand coverage by wind also a second reserve can be delivered from wind energy without that plants below their optimal operating point artificial should be operated throttled.

When Criterion for the different shutdown behavior can the mains frequency serve as a drop in the mains frequency one at a time existing indicator of a power shortfall in the network represents.

The switch-off and switch-off behavior could be optimized by including indications of the expected development of the wind force in the near future. In particular, wind measurements taken in the wind direction "in front of" the system can be used, and if there is a decrease in the wind speed again, the rotor can be switched off or the restart can be brought forward With a row spacing of, for example, 600 m in certain offshore wind farms and a wind speed of, for example, 25 m / s, the air flow is generally measured there, which reaches the next row about 24 seconds later Forecast values can be achieved, for example, by wind measurements which are made over a certain distance acting from the wind turbine in the wind direction, eg wind measurements according to the lidar method (cf. DE 10 2007 011 711.8-22 ). These are to be used according to the invention for a modification of the shutdown.

The DE 198 44 258 describes some concrete embodiments of the reduction of power (continuous, stage, fixed fraction), which are analogously applicable to the control according to the invention.

The control can by influencing the rotor blade angle (see. DE 103 007 33 ) be effective. As a rule, regulation of the power output by electronic devices will also take place with the regulation of the rotor blades according to the invention, in particular by controlling the rotor circuit of a double-fed asynchronous generator and its slip or control of a synchronous generator.

at The wind turbine can be a single wind turbine or act around a wind farm with multiple wind turbines. For several wind turbines the regulation can be centralized, decentralized or preferably one Mix of central parts for the entire wind farm and decentralized regulations per wind turbine.

Description of the drawing

1 shows as a curvy line a course of wind speed 1 over time 2 , When exceeding the limit wind speed 3 A shutdown of the system took place at the time 4 , In the normal operating state, restarting takes place only when a switch-on wind speed 5 at least over the period of time 6 was fallen short of. In the example, the wind speed has risen again until then, so that the system would remain out of service.

If there is an urgent need for network technology, a different control behavior applies: then reclosing takes place after the (higher) closing wind speed has been undercut 7 for a (shorter) period of time 8th , At the time 9 the second condition has already been fulfilled for a few seconds. So it turns out at this time 9 a fault elsewhere in the supply network, which requires the activation of all reserves, so the wind turbine is immediately put into operation. Goods the fault in the rest of the supply network already before or shortly after the time 4 occurred, the plant would not immediately with the disturbance, but after the shorter waiting time at the time 10 back in operation.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - DE 10320087 [0001]
• - DE 19532409 [0001]
• - DE 10022974 [0006]
• - DE 10341504 [0007]
• - DE 102007011711 [0015]
• - DE 19844258 [0016]
• - DE 10300733 [0017]

Claims (8)

Method for controlling and operating a wind turbine, comprising a rotor drivable by the wind, a directly or indirectly connected to the rotor generator for generating electrical energy, wherein the operation management system, the operation of the wind turbine from a certain limit or Abschaltwindgeschwindigkeit ( 3 ), possibly after a certain duration of this speed, reduced or switched off in the power and resumes operation at a fall in wind speed or reinforced again, possibly after a certain period ( 6 . 8th ) the falling below a Einschaltwindgeschwindigkeit, characterized in that the power reduction, at too high a wind speed in dependence on at least one of the parameters - demand of the power grid or the energy consumer - wind measurements at other locations in the vicinity of the wind turbine - power fluctuations of the sum of several wind turbines different takes place, in particular by changing the rules for the beginning and end of shutdowns. Method according to claim 1, characterized in that that the regulation of the wind turbine a shutdown or reduction the power characteristic at wind speed in proximity the limit wind speed omits, retards, mitigates or abbreviates if in operation of the power supply network There is a network-technical situation, which is particularly high Demand for the power output of the wind turbine has resulted. Method according to Claim 2, in which the control of Wind turbine with a reduction of the mains frequency or the Mains voltage below a setpoint for an increased Needs of the energy supply network. Method according to claim 1, characterized in that that the wind turbine a shutdown or reduction of the performance curve at wind speed near the limit wind speed, delayed, mitigated or abbreviated, if by approximately upstream wind detection the wind strength, preferably by or on upstream Wind turbines, or by remote wind measurements of the Wind turbine from evidence that there is a short-term increase in wind speed will act. Method according to claim 1, characterized in that that a wind turbine a shutdown or reduction the power characteristic at wind speed in proximity the limit wind speed omits, delays, mitigates or abridges or lengthens, if promptly in other wind turbines of the same wind farm Shutdown or a reduction of the power characteristic occurred had, or canceled such a shutdown or reduction was, and in the sum of these wind turbines a special rapid reduction or faster recovery of power output of the wind farm. Method according to one of the preceding claims, characterized in that, in the case of a wind energy plant, which is due to exceeding a switch-off wind speed ( 3 ) was switched off, after falling below a lower switch-on wind speed ( 5 ) the waiting period ( 2 ), after the wind turbine is turned on again, is selected or influenced in dependence on at least one of the parameters specified in claim 1. Method according to one of the preceding claims, characterized in that in a wind turbine, which has been switched off due to exceeding a Abschaltwindgeschwindigkeit, the turn-on wind speed ( 3 ), if exceeded for the duration of a waiting period ( 4 ) the wind turbine is switched on again, is selected or influenced in dependence on at least one of the parameters specified in claim 1. Method according to one of the preceding claims, characterized in that, in the case of a wind energy plant, the switch-off wind speed, when exceeded, for the duration of a waiting period ( 4 ) the wind turbine is switched off, is selected or influenced in dependence on at least one of the parameters specified in claim 1.