SU132299A1 - Corrector frequency in parallel operation of synchronous generators - Google Patents

Description

Known frequency correctors in parallel operation of synchronous generators usually contain a control element driven by induction wattmeter elements in the form of a Ferraris-motor for adjusting the energy carrier inlet to the prime mover, as well as the generator power sensor, the generator frequency deviation sensor and the integral frequency sensor.

Such correctors are not reliable enough in operation and do not have the necessary accuracy in work. In addition, they are completely unsuitable for DL5 $ use on ships due to their cumbersome design and the DIFFICULTY of the structure, as well as due to their unsuitability to vibrations and workmanship.

In order to improve performance, in the described corrector, the control element is designed as a spring-loaded rotary slide valve connected in parallel with the main flow slide valve of the primary engine regulator.

The proposed equalizer can be used to distribute the active load between generators operating in parallel.

FIG. 1 is a diagram of the parallel connection of the described correctors; in fig. 2 is a diagram of their sequential connection; single L; in fig. 3 and 4 - the same circuits with a single wattmeter element with a separate current winding; in fig. 5 and 6 are the same circuits with two current transformers.

The described override is used in conjunction with a hydromechanical speed controller having a flow spool. The main part of the corrector is a control element, made in the form of a rotary flow slide valve with a spring fixing it in the middle position. One or two small pockets are connected to the spool 132299

our ferraray engine W ,. The control element is mounted directly on the speed controller, while its flow spool is connected parallel to the main flow spool of the adjuster.

Each ferraris-motor is made with a voltage winding and a current winding on the stator, shifted one relative to the other by 90 el. gr. Voltage windings (power metering elements of ferraris motors are connected via compensation resistors R and voltage transformers G to the generator buses. The corrector also contains a frequency deviation sensor and an integral frequency sensor.

The frequency deviation sensor A / serves as a resonant frequency meter with a semiconductor or magnetic amplifier, giving modulated alternating current at the output. The latter is in phase (or opposite phase) with the active component of the current in the secondary winding of the current transformer T Т;

The integral frequency sensor functions as a tuning fork oscillator of a reference frequency / o, which contains an integrating element in the form of, for example, a synchronoscope, mechanically connected to a linearly rotating transformer, and an output semiconductor or magnetic amplifier. The magnitude of the output impedance of the integrated-frequency sensor amplifier should in both cases (Figs. 1 and 2) be the greatest, and its ig (p should be the same as that of the current winding.

The integral frequency sensor can be made without a linear rotary transformer. The synchrnoscope will then mechanically communicate directly with the corrector spool.

The effect of the corrector is that, under the influence of an electric pulse, the active component of the current flowing through the current winding of the power meter element (ferraray motor) changes. The torque developed by him varies accordingly, as a result of which the rotor and the flow spool rotate through an angle proportional to this change and the magnitude of the tension on the women. As a result of the pressure change in the corresponding circuit of the hydraulic speed controller, there is a change in the supply of the working substance. Further system operation depends on the nature of the pulses and on the properties of the speed regulator.

If the sensitivity coefficients of the Wgii IF watt-meter elements, we denote by С „and С ,,, then the corrector will work correctly only under the condition. As with the parallel connection (Fig. 1) and in the series (Fig. 2) connection of the correctors, the frequency is corrected on the total load of the power station and the correction of the distribution of the active load between the generators G. If the frequency is not required to be corrected by the power pulse (for example, in the case of isodromic speed regulators), then in a parallel scheme the sensitivity of both the power meter elements must be the same Cd - C, and in the sequential circuit the power meter element in the current transformer circuit must be absent (). Similarly, if it is possible to do without the correction of the distribution of loads (for example, with a large statism of speed regulators), then it should be in a parallel circuit, i.e. the corresponding power meter element should be absent, and in the sequential circuit C (, Cn, i.e. The sensitivity of the watt-meter elements is the same. Since the corrector circuit and its device are significantly simplified, it is advisable to apply only the frequency for correction

parallel circuit, and for correcting only the distribution of the active load, it is advisable to use a series circuit of correctors.

If the use of two watt-meter elements is undesirable for structural considerations, then one element with a divided current winding can be used both with parallel connection of correctors (Fig. 3) and with their serial connection (Fig. 4). In this case, it is required to introduce an isolation transformer Tp, shunted by a resistor, to compensate for the mutual induction of the current windings.

In order to reduce the dimensions of the control element of the corrector, a circuit with an unseparated winding can be used, but with two separate current transformers T ,, and 7 ", 3 both with parallel.m (Fig. 5) and with series connection of the correctors (Fig. 6 ),

Subject invention

Claims (2)

1. The frequency corrector of synchronous generators, containing a control, is an element driven by induction wattmeter elements in the form of a Ferraris engine for correcting the energy carrier inlet to the prime mover, the generator power sensor, the generator frequency deviation sensor from the set value and the integral frequency sensor differing from that, in order to increase the operational reliability and accuracy of the operation of the corrector, the control element is designed as a rotary slide valve fixed by springs; nnogo parallel flow of the main spool of the primary regulator of the engine. 2. The use of the corrector according to claim 1, to distribute the active load between the generators in parallel. - 3 - № 132299 Ohm h -lOtvc ito I V v v v Rj i