SU553720A1 - The method of automatic control of the transformer coupling of the generator voltage bus with the power system - Google Patents

Description

active current generators as a function of their active TO.KOV.

The required adjustment characteristic is achieved by selecting the proportional coefficient values between the additional voltages mentioned above and the COURTS forming them.

SPOSSb regulation: the transformer connection wiring of the generator voltage buses with the Energo1S network. We can be implemented, for example, according to the scheme shown in the drawing, where / is the voltage regulator of the voltage transformer; 2 is a voltage supplying unit, and a reactive current of the generator and voltage according to the voltage supplied to the measuring organ, 3 is a unit, each suppressing voltage proportional to the active current of the generator and directed at an angle of 90 ° relative to the voltage, supplied to the measuring body of the regulator; 4- generator excitation regulator.

The automatic regulation of the transformer connection of the generator voltage buses with e, ner; S01 SYSTEM is as follows. The increase in the generator load on the peaKTHBHOiMy current is accompanied by an increase in voltage at the output of device 2, with the result that this is perceived by the regulator 1 of the communication transformer as an increase in voltage.

To accomplish this goal, the channels of the automatic voltage regulator of the transformer are switched to act in the opposite direction to normal. Consequently, the automatic controller will act in the direction of increasing the voltage on the generator wrenches. The transformer transformer ratio will decrease, the voltage on the generator buses will increase, and the generator will be unloaded as a result of its excitation controller 4. When the generator's reactive current decreases, the effect of the communication transformer / voltage will be opposite and, consequently, will restore given current generator.

As the active load of the generator increases, the voltage at the output of the device 3 increases, which is shifted relative to the main voltage at an angle of 90 °. As a result, the resultant voltage applied to the measuring element of the regulator 1 of the communication transformer increases, and the latter will act in the direction of increasing voltage on the generator buses. As a result of the voltage being restored by the excitation regulator 4, the generator will be unloaded by the reactive current. A decrease in the active current of the generator leads to the opposite result, i.e., an increase in the reactive current of the generator.

If we consider that the voltage at the output of the device 3 is rotated to the main voltage at an angle of 90 °, then the change in magnitude

The active current of the generator will lead to a change in the reactive current not in a linear, but in a quadratic interconnection.

A change in voltage at the outputs of the genrator also leads to a change in the available reactive current. It is known that as the voltage of a generator decreases, the available current increases, while the increase in this voltage

leads to a decrease in reactive current.

A decrease in the voltage applied to the measuring unit of the voltage regulator of the communication transformer leads to a decrease in

the resulting voltage supplied to the regulator's measuring unit. As a result, the regulator will act in the direction of a further reduction of the voltage on the generator terminals (it must be remembered

That channels are switched on the contrary). The voltage will be restored by the generator excitation controller, and the generator reactive current will increase.

An increase in the voltage at the generator leads leads, in turn, to an increase in the voltage on the measuring element of the transformer voltage regulator, which will further increase the voltage on the generator buses, and as a result of the generator excitation regulator current.

The method is simple to implement and does not require special equipment, since for

This product A serial automatic voltage regulator of transformers of the simplest design manufactured by domestic industry can be used. If necessary, loading the generator

can be changed and set programmatically by the action of a pa installation device of an automatic transformer ratio controller that can be used, for example, during night time

failures and weekends.

Thus, the proposed method has the following advantages: full use of the available reactive power of the generator, taking into account its load with active current; reduction of energy losses in the power grids of the power system, and the use of a serial voltage regulator for setting the load of a transformer allows it to be transferred to the voltage regulation mode when the generators are disconnected for repair or reserve.

Claims (2)

1. Author's certificate N ° 251675, M. Kl.2 N 02 J 3/46, 1968 2. Certificate of authorship No. 347857, M. Kl.2 N 02 J 3/12, 1970 Tires)) p.; Threads