SE520399C2 - Electric power plant with means to dampen power commuting, as well as associated process, microprocessor and computer software product - Google Patents

Abstract

The invention relates to an electrical installation comprising at least one generator and at least one braking resistor. The braking resistor is adapted to damp power oscillations of the power system and/or to prevent out-of-phase situations. According to the invention, the braking resistor is in the form of a device arranged in the installation for a different purpose and suited for power consumption. The invention also relates to a microprocessor and a computer program product for use in such an installation. Further, the invention relates to a method for damping power oscillations in which, according to the invention, a device arranged in the installation for a different purpose, and suited for power consumption, is used as a braking resistor. The invention also relates to a method for rebuilding a power plant.

Description

520 399 2 is connected. The period of commuting varies mainly in the range 0.2 to 4 seconds. Commuting with increasing amplitude usually leads to relay protection tripping within a few tens of seconds, while un attenuated or slightly attenuated oscillations can last for a longer time. The amplitude of the oscillations is usually about tens of percent of the load on a line or generator. Power fluctuations and phase-out can occur spontaneously or as a result of faults and fault disconnections in the power system to which the system is connected.

It is desirable to ensure that such power oscillations and phase-outs are attenuated / prevented. Various devices and measures are previously known for achieving this. Thus, it is previously known to provide the generators with damping windings. Furthermore, it is previously known to use the Power System Stabilizers (PSS) which usually feedback the power of the generator terminals to the voltage control on the machine. It is also previously known to achieve the damping by influencing the turbine control. However, the methods described have their disadvantages and limitations. The capacity of the power supply often limits the power of the power system stabilizer, and utilization of the turbine control can be difficult as it can then have difficult-to-handle effects on the meadow / water side.

Another previously known method is to use thyristor-coupled braking resistors which are switched on and off in such a way that the power oscillations in the station are damped.

This is an effective method and where the disadvantages of the previously discussed devices discussed above are eliminated. Braking resistors are also robust and can be applied not only at unit level but also at station level. US 5,198,745 describes an example of power damping by means of braking resistors. The specification describes a dynamic braking system resistance for stabilizing a power system during disturbances in the power system and comprises a braking system for connection to a line in the power system. A control unit senses a power system parameter such as the speed of a generator in the system, which determines the control signal to a thyristor. The control unit uses the power system parameter to establish a desired modulation and produces an influence in accordance with the desired modulation. The control unit processes the affected desired modulation signal to provide the control signal to the thyristor. A thyristor valve connects the braking resistor depending on the thyristor's control signal. Although the use of braking resistors as dampers of power oscillations is effective and expedient, certain disadvantages are associated therewith. Above all, it is an expensive and space-consuming solution. A special component, the braking resistor, is added and the system must be equipped with connection devices to it. Against this background, the purpose of the present invention is to achieve damping of power commuting and / or prevent phase-out with the use of braking resistors, but where the above-mentioned disadvantages regarding high costs and bulky extra equipment are eliminated.

Description of the invention The stated object has been achieved from the first aspect of the invention in that an electric power plant of the type specified in the preamble of claim 1 has the special feature that the braking resistor consists of a power consumption arranged for another purpose in the plant. suitable device.

By braking resistor is meant in this context not a dedicated device which is used only as braking resistor, but a device which already exists in the plant for another purpose and which can be used as braking resistor. Thanks to the use of an existing device suitable for power consumption in the plant, damping by means of braking resistors can be achieved without additional cost for a special such component and without significant additional costs for its connection, especially when the device is of the type that normally receives electricity supply from the plant and is thus connected to it.

A simple, robust and inexpensive braking resistance is thus obtained which can at the same time be used in a technically efficient and expedient manner for the damping of power oscillations or the prevention of phase-out falls.

According to a preferred embodiment of the invented power plant, the device suitable for power consumption constitutes a common braking resistor for a number of generators in the plant. This takes advantage of the possibility of applying the braking resistor at station level instead of only at unit level, which leads to a cheaper design in this respect. According to a further preferred embodiment, the device suitable for power consumption is connected to the power system by means of a first line provided with a switch and a second line parallel to the first line provided with a thyristor. This offers an effective possibility to control the connection of the device suitable for power consumption depending on when it needs to be used as braking resistor.

According to a further preferred embodiment, when the switch is open, thyristors are arranged to control the power supply to the device suitable for power consumption. Thus, a direct adaptation of the braking resistor power consumption to the power oscillations of the generator can be achieved in an appropriate manner. Advantageous in order to achieve said control is then that the thyristor is triac-connected. This therefore constitutes another preferred embodiment of the invention.

According to a further preferred embodiment of the invention, the plant comprises a microprocessor which is arranged to receive input signals which are indicative of power oscillations of the generator. The microprocessor is further arranged to supply control signals to the thyristor in dependence on these input signals. The microprocessor has a program with an algorithm for this control.

Thanks to the fact that the thyristor control in this way is based on a programmed algorithm, it is ensured that the power supply to the braking resistor is adequate for size and timing so that the damping is optimally adapted to the need.

Suitably the microprocessor is also arranged to provide control signals for the opening and closing of the switch. This therefore constitutes another preferred embodiment of the invention.

According to a further preferred embodiment of the invention, the device suitable for power consumption consists of an intake gate or ice gate. The intake or ice gate can, for example, be an electrically heated ice gate of the type normally found in hydro plants or an ordinary intake grille, which is not normally power-consuming, but which can be provided with connecting means which enable connection for power consumption. Utilization of an intake gate such as braking resistance has the advantage that this is a component that is generally present in power plants and which is well suited as braking resistance. From the second aspect of the invention, the object set out has been achieved by providing a microprocessor which is designed to be usable in the invented electrical plant. The microprocessor thus comprises signal receiving means arranged to receive input signals which are indicative of power oscillations of the power system. The microprocessor is arranged to deliver control signals to a thyristor and has a program with an algorithm for this control. The algorithm includes instructions for how the thyristor, depending on the input signals, delivers power to a device suitable for power consumption.

With the invented microprocessor it is possible to realize the preferred embodiment of the invented plant where a microprocessor is included and as described above. The invented microprocessor thus entails the advantages associated with said embodiment of the plant.

From the third aspect of the invention, the object set forth has been achieved by providing a computer program product for use in the invention of the microprocessor. Thereby, the advantages that come with the use of such a microprocessor in a plant of the invented type are shown.

From the fourth aspect of the invention, the stated object has been achieved in that a method of the type stated in the preamble of claim 11 comprises using a device suitable for other purposes in the plant arranged for power consumption as braking resistance.

Through this procedure, advantages of the corresponding kind described above are achieved with respect to the invented plant.

Preferred embodiments of the invented method comprise measures of a kind corresponding to what can be achieved with the above-described preferred embodiments of the invented plant. The preferred embodiments of the invented method entail corresponding types of advantages described above with respect to the preferred embodiments of the invented plant.

From the fifth aspect of the invention, the object set has been achieved in that a method for rebuilding a power plant of the type specified in the preamble of claim 19 comprises that the device suitable for power consumption is connected to the power system in connection with the power station in such a way that it The device suitable for power consumption acts as a braking resistor for the generator. This method means that with small means and limited efforts, the plant is rebuilt in a simple manner so that it will have a design of the same kind as the invented plant. Thus, benefits of the corresponding kind are described as described above.

In preferred embodiments of the invented conversion method, it is carried out in such a way that the plant is designed in accordance with one of the preferred embodiments of the invented power plant, whereby the advantages associated with these embodiments and described above are gained.

The invention is explained in more detail in connection with the following detailed description of advantageous embodiments of the invention and with reference to the accompanying figures.

Brief description of the drawing figures Figure 1 is a diagram of an embodiment of an electrical system according to the invention.

Description of an advantageous embodiment of the invention Figure 1 shows a diagram of an electric power plant according to an embodiment of the invention. The plant shown may, for example, be a hydropower plant. The power system of the plant, in the form of generators 6, 7, is connected via a transformer 1 to an ice gate 3. An ice gate of this kind is normally connected to a generator in a hydropower plant, via a switch 2. The gate is heated with current from the generators 6 , 7 and its power is typically about 1% of the rated power of the plant. In accordance with the invention, a triac-connected thyristor 4 is shunt-connected to the switch 2. The branch line with the thyristor 4 is connected in the figure to a cross iron 5 of the ice gate, but may alternatively be connected to its ordinary connection.

A microprocessor 9 is arranged in the plant. This is connected to the signal line 10, 11 to each generator 6, 7 for receiving input signals from them. Furthermore, the signal lines 12, 13 are arranged for connecting the microprocessor 9 to the thyristor 12 and the switch 2. The signal lines 12, 13 transmit control signals from the microprocessor to the thyristor 4 and to the switch 2.

The microprocessor comprises a computer program with an algorithm which determines the control signals in dependence on the input signals. 15 520 399 7 Denoted by 8 is the supply line from the plant. When a fault occurs somewhere in the power system to which the supply line supplies power, power fluctuations and / or phase drops can occur in the generators 6, 7.

This is reflected in the fact that the rotor of a generator will rotate at varying speeds.

These power oscillations of one or more of the generators 6, 7 are sensed and signals indicating these oscillations are transmitted to the microprocessor 9. When the oscillation occurs, a signal from the microprocessor controls the switch 2 to open so that the power supply to the ice gate 3 instead takes place through the thyristor 4. provided management. A second control signal from the microprocessor 9 controls the thyristor so that the power delivered to the ice gate 3 is controlled in dependence on the power oscillation in the generators 6,7. the ice gate 3 will then function as a braking resistor and dampen the power oscillations in the generators.

In another embodiment, the ice gate 3 is replaced by an ordinary intake grille, provided with coupling means for connection to the transformer 1 and the thyristor 4.

Claims (20)

30 520 399 SE 0101061-0 8 PATENT REQUIREMENTS An electric power plant comprising at least one generator (6 7), a supply line (8) connected to the generator (6, 7) for supplying current supplied by the generator (6, 7) to an electric power system and at least one braking resistor (3). arranged to dampen power oscillations of the generator and / or prevent phase-out, characterized in that the braking resistor (3) consists of a device (3) arranged for other purposes in the system, suitable for power consumption. Electric power plant according to Claim 1, characterized in that the device (3) suitable for power consumption constitutes a common braking resistor for a plurality of generators (6, 7). Electric power plant according to Claim 1 or 2, characterized in that the device (3) suitable for power consumption is connected to the power plant by means of a line provided with a thyristor (4). Electric power plant according to Claim 3, characterized in that the thyristor (4) is arranged to control the power supply to the device (3) suitable for power consumption. Electric power plant according to Claim 4, characterized in that the thyristor (4) is triac-connected. Electric power plant according to claim 4 or 5, characterized in that it comprises a microprocessor (9) arranged to receive input signals which are indicative of power oscillations of the power system, and arranged to supply control signals to the thyristor (4) depending on the input signals, which microprocessor (9) comprises a program with algorithm for said control. Electric power plant according to Claim 6, characterized in that the microprocessor (9) is arranged to also control the opening and closing of a switch (2) parallel to the thyristor (4). 20 30 520 399§ @ f¿q¿f <~ -.>. 1.-, sE 0101061-0 9 Electric power plant according to one of Claims 1 to 7, characterized in that the device (3) suitable for power consumption is an intake or ignition device. A microprocessor (9) for use in an electric power plant according to any one of claims 1-8, and comprising signal receiving means arranged to receive input signals indicative of power oscillations of the power system, and to supply control signals arranged to control a thyristor (4) and which microprocessor comprises a program with an algorithm for said control, characterized in that the algorithm comprises instructions for how the thyristor (4), depending on the input signals, supplies power to a device suitable for power consumption of a kind where the power is utilized. 10. know 9 and comprising an algorithm arranged to process input signals for delivering Computer program product for use in a microprocessor according to patent control signals in dependence on input signals, characterized in that the input signals consist of signals indicative of power oscillations of the power system and that the control signals consists of signals that control the power supply to a power-consuming device arranged in connection with the power plant (3). A method for attenuating power oscillations in an electric power plant comprising at least one generator arranged for supplying power to an electric power system and / or for preventing phase failure in such an installation, in which method the power oscillations are attenuated with a braking resistor, characterized in that a device suitable for other purposes in the plant arranged for power consumption is used as braking resistor. Method according to Claim 11, characterized in that the device suitable for power consumption is used as a common braking resistor for a plurality of generators. 20 30 520 399š% ¿ï ¥OB ': w se 0101061-0 10 Method according to Claim 11 or 12, characterized in that the device suitable for power consumption is connected to the generator by means of a line provided with a thyristor. Method according to Claim 13, characterized in that a switch parallel to the thyristor is opened and in that the thyristor, when the switch is open, controls the power supply to the device suitable for power consumption. Method according to Claim 14, characterized in that the thyristor is triac-coupled. Method according to claim 14 or 15, characterized in that signals are supplied to a microprocessor which are indicative of power oscillations of the power system and in that the microprocessor delivers control signals to the thyristor depending on the input signals. Method according to Claim 16, characterized in that the microprocessor also supplies control signals for opening and closing a switch parallel to the thyristor. Method according to one of Claims 11 to 17, characterized in that the device suitable for power consumption is an intake or ice gate. Method for converting an electric power plant comprising at least one generator arranged for the supply of electricity to an electric power system and a device suitable for power consumption, characterized in that the device suitable for power consumption is connected to the power plant in such a way that the power consumption suitable the device acts as a braking resistor for the generator. Method according to claim 19, characterized in that the electric power plant is rebuilt so that an electric power plant according to any one of claims 2-8 is provided.