Prime-mover dynamo plants – Electric control – Fluid-current motors
Reexamination Certificate
2000-07-19
2004-08-31
Ponomarenko, Nicholas (Department: 2834)
Prime-mover dynamo plants
Electric control
Fluid-current motors
C290S055000
Reexamination Certificate
active
06784564
ABSTRACT:
BACKGROUND OF THE INVENTION
The present invention concerns a method of operating a wind power installation comprising an electric generator drivable by a rotor for outputting electrical power to an electrical consumer, in particular an electrical network.
The invention further concerns a wind power installation comprising a rotor and an electric generator coupled to the rotor for outputting electric power to an electrical consumer, in particular an electrical network.
In the known wind power installations for generating electrical energy from wind the generator is operated in parallel relationship with the electrical consumer, frequently an electrical network. During operation of the wind power installation the electric power produced by the generator varies in dependence on the prevailing wind speed and thus the wired power. The consequence of this is that the electrical generator voltage is also variable in dependence on the wind power. That gives rise to the following problems:
In the event of the electrical power generated being fed into an electrical network, for example a public power supply network, there is an increase in the network voltage at a connecting point or network junction point at which the electrical generator power is fed into the network. Particularly in the event of severe changes in the generator voltage, There are severe unwanted changes in the network voltage.
Under particular circumstances it can happen that the network voltage in the supply network rises to an undesirably high value. That is the case in particular when the power taken on the part of the consumers is very low while a high level of electrical power is being fed into the supply network. Such situations can occur for example at night when the electrical consumption in households is fairly low while with a strong wind, a wind power converter provides the power supply network with a correspondingly high level of electrical power. If the voltage in the supply network or at the network connection point of the wind power installation rises above a predetermined value, the wind power installation or the generator thereof has to be disconnected from the network and the wind power installation would have to be completely shut down from the network because it is no longer possible to take any power. A shut-down procedure of that kind results in an interruption in the feed of electrical power, which is unwanted equally From the point of view of the operator of the wind power installation and the operator of the network.
It is generally known from German patent specification No 368 799, DE-OS No 44 28 085 and DE-OS No 30 23 195 that, in installations such as wind power installations or solar generators, the power produced by the generator fluctuates, which gives rise to the above-described problems in terms of the feed of power into the network.
OBJECTS AND SUMMARY OF THE INVENTION
The object of the present invention is to provide a method of operating a wind power installation, and a wind power installation, which avoid the disadvantages of the state of the art and in particular avoid voltage over-fluctuations at the consumer, in particular an electrical network, and unwanted shut-down of the wind power installation.
In a method of the kind set forth in the opening part of this specification, that object is attained by the invention in that the power supplied to the network by the wind power generator is regulated in dependence on the applied network voltage of the power supply network.
In an apparatus of the kind set forth in the opening part of this specification, the object of the invention is attained by a regulating device having a voltage sensor for sensing an electrical voltage applied at the consumer, for example network voltage, so that the power supplied to the consumer by the generator can be regulated in dependence on the voltage sensed by the voltage sensor.
As described, in the case of energy generation, there can be a fluctuation in the energy which can be generatec, which in the case of wind power installations is governed by natural conditions in dependence on wind strength. Those fluctuations however are not the basic starting point of the invention. On the contrary, the invention is concerned with the problem that fluctuations in power consumption also occur on the consumer side, which has an effect in the form of a fluctuating network voltage. It is known that such network voltages are critical because electrical equipment—in particular computers—are frequently only inadequately safeguarded against critical voltage fluctuations. The invention therefore provides that not just the fluctuation in energy generation on the generator side but also the fluctuation on the consumer side is taken into consideration in regard to the feed of energy into the system so that the electrical voltage produced is regulated at the feed-in point to the desired reference value.
The invention avoids unwanted fluctuations in the voltage apolied at the consumer, in particular the electrical voltage in a network, insofar as the electrical power delivered by the generator is regulated in dependence on the voltage of the consumer or the network. That also avoids unwanted voltage fluctuations which can arise out of changes in wind power.
A further advantage of the invention is that, even with very substantial changes in wind power, the wind power installation does not need to be shut down in order to avoid fluctuations in the network system. In accordance with the invention, even with considerable changes in wind power, the wind power installation continues to be operated without changes in network voltage occurring. For that purpose the regulating device according to the invention is equipped with voltage sensors for sensing the voltage at the consumer or the network.
In addition, with a constant wind power, it is possible by means of the invention to compensate for network fluctuations as regularly occur in electrical networks for energy power supply as some consumers connected to the network from time to time draw large amounts of power from the network, and that can result in a reduction in voltage. In the case of such a reduction in voltage the wind power installation according to the invention can feed an increased amount of electrical power into the network and in that way it can compensate for voltage fluctuations. For that purpose the feed-in voltage is raised at the interface between the wind power installation and the network, for example on the basis of the network voltage value which is sensed in accordance with the invention.
In accordance with a preferred embodiment of the method according to the invention the power supplied is regulated by the electrical voltage produced being regulated to a desired reference value. In this case network voltage compensation can be implemented in a particularly simple manner, which—as described hereinbefore—can occur when a consumer connected to the network requires a large amount of power.
In accordance with a further preferred embodiment of the invention the electrical voltage is produced in the form of ac voltage at a predeterminable frequency. In that way the power fed into the system can be adapted to the conditions in the network and the network frequency can be influenced thereby. The predeterminable frequency desirably corresponds to the network frequency.
A further development of the wind power installation according to the invention advantageously involves a regulating device having a microprocessor as digital regulation can be implemented in that way.
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“Industrial Process Control” by S.G.Lloyd and G.D.Anderson. Fisher Controls, 1971.*
“Switchgear and Control Handbook” by Robert W. Smeaton. McGraw Hill, 1977.*
European Search Repor
Gottlieb Rackman & Reisman P.C.
Ponomarenko Nicholas
LandOfFree
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