SU1275645A1 - Method of automatic control of voltage of electric power station - Google Patents

Abstract

This invention relates to the field of electrical engineering. The purpose of the invention is to increase the limit of the dynamic stability of a power plant. If the voltage on the busbars of a power station containing synchronous and asynchronized synchronous generators is greater than the specified value, first change the excitation to the direction Less than asynchronized synchronous generators, and after exhausting the adjustment ranges of the specified generators change the excitation to the direction Less synchronous generators. 1 il. (L

Description

The invention relates to methods and devices for automatic voltage control - power plants. The purpose of the invention is to increase the limit of the dynamic stability of a power plant. The drawing shows a schematic diagram of a device for regulating voltage at a power station containing synchronous (SG) and asynchronized synchronous generators (ASG). The device contains a two-channel secondary regulator .1 voltage, one output channel 2 of which operates in the direction More, and the second 3 - in Smaller direction, block 4 of distribution of reactive loads between generators acts according to the principle of equalization, one channel 5 of which acts in the direction More than J and the second 6 - in the direction Less, logical elements NOT 7 -10 logical elements OR 11 and 12, logical elements AND 13-16, control channel 17, actions in the More direction, control channel 18 acting in the Less direction, limiter 19 of the upper excitation limit, limiter 20 of the lower limit of the excitation, logical elements And 21 and 22, the output channel 23 of the limiters of the lower excitation limit of the AHL, Block 4 of the distribution of reactive loads is common for SG and AHL and ensures a uniform distribution of the reactive load between the generators involved in regulating the voltage Yeni. The device works as follows. Usually, a second voltage regulator is in operation, one of whose output channels 2 acts in the More direction, and the second 3 - in the Less direction. The secondary regulator in Channel 2 operates unhindered on all generators (for ASG, as well as SG) provided that the action does not come: the limiter of either the upper excitation limit 19 or the lower limit of excitation, value 20 "The action of the secondary regulator according to KsiHal 3 freely passes only on the ASH, provided that do not come into action limiters 20 of the lower excitation limit of these generators. In this case, the output of the channel of the limiters 20 ASG signals is not, therefore, at the output of the blade elements NOT 10 there are signals that ensure the uninterrupted passage of signals from the output channel 3 of the secondary controller I, and the output of the logic element 22 does not have a signal, which blocks logic element 21 and the action of the secondary controller 1 on. synchronous generators. In this case, using block 4, a uniform decrease in the reactive load of all the VSS is provided. Reactive load SG in this case is stable and corresponds to the magnitude of the previous mode. When the channel of limiter 20 of one of the LRA is triggered, a signal appears at the input of the logical element HE 10 and I 22, therefore, at the output of element 10, the signal disappears, thus blocking the action of the secondary controller on the given LRA, and the output of element 22 does not. There is still no lock on the action of the secondary regulator 1 on the SG. After the operation of the limiters 20 of all ASGs at the output of the logic element And 22, a signal appears that removes blocking from the SG (at the output of the element 21 a signal appears), which ensures the uninterrupted passage of the signals of the output channel 3 of the secondary regulator 1 to the synchronous generators. In this case, the action of the secondary regulator 1 on the AHL is blocked. Thus, in this case, only synchronous generators are involved in voltage regulation and block 4 ensures their uniform reactive load. In this case, the reactive load of the ASG is stable and corresponds to the value of the permissible power consumption for a given active load. Formulas; The method of automatic voltage regulation at power plants containing synchronous and asynchronized synchronous generators by means of. change of excitation of parallel generators in the direction of More, if the voltage on the station tires is less than the specified value, and in the direction Less, if the voltage on the station tires is more than specified

Claims (1)

Claim A method for automatically controlling the voltage at a power plant containing synchronous and asynchronous synchronous generators by influencing the change in the excitation of parallel running generators in the 55 direction, More if the voltage on the busbars of the station is less than the specified, and to the direction Less, if the voltage on the busbars of the station is more than specified. n, characterized in that “in order to increase the dynamic stability limit in the event that the voltage on the buses is greater than the specified one, the excitation is first changed to the direction of Less asynchronized synchronous generators, and the excitation of synchronous generators to the Less” direction is changed after the exhaustion of the regulation ranges of 5 asynchronized synchronous generators.