SU508855A1 - Method of automatic frequency unloading and frequency automatic repetition - Google Patents

Description

the magnitude of the frequency fo at which the rate of change of frequency is measured. Taking into account that the other two parameters (K., Tj) depend on the power system and have deviations from the measured or calculated ones, it is necessary to increase the speed setpoint by about three times the calculated deficit given expression. This prevents the complex effect of AChR-S and virtually eliminates the excessive deviation of consumers.

When an unbalance of active power occurs and the frequency of the frequency response is reduced. In the case of small power deficiencies, the rate of decrease in the frequency of the power system is, as a rule, less than the smallest setpoint of speed, and AHR-C does not work.

The unloading is carried out in the usual way - by the action of ACHR-1 or ACHR-2. At some values of deficiencies, some of the devices of AChR-C disconnects consumers at a frequency / o, as which 49.5-49.0 Hz can be taken. At the same time, at the beginning of the transient process, the initial deficit decreases due to the effect of AChR-S, and the frequency decreases with a flatter characteristic. When the frequency decreases to the settings of the AChR-1 queues that are not turned off by the action of AChR-C, due to the smoother nature of frequency reduction, the AChR-1 operation occurs in more favorable (than without AChR-C) conditions. This leads, on the one hand, to a reduction in the excessive disconnection of consumers, and on the other hand to a reduction in the frequency below 45 Hz, which is especially important for large and very large deficits.

The combination of 1; the action of unloading on the rate of reduction of frequency (АЧР-С) and high-speed АЧР-1 ensures the avoidance of a deep failure at any power shortages and the rapid cessation of its decrease.

The rise of the frequency after this is provided by the action of the steps with aging time (AChR-2). In a typical ACHR-2 version, the time interval between the end of the frequency reduction and the first-stage ACH-2 action is the longer, the greater the initial deficit. Since the rate of decrease in frequency depends on the magnitude of the deficit, it is advisable to use this factor to accelerate the effect of ARP-2 queues by reducing time delays. This reduces the time needed to restore the frequency of the power system.

When the frequency of the power system is restored to a value close to the nominal, the CHAPV comes into effect and with a time delay it switches back the disconnected load. Obviously, with a high rate of increase in frequency, the action of CHAPV should be expedited. This can be done by changing the CHAPV settings in frequency and time. The specified acceleration of CHAPV should correspond to the speed of the frequency rise.

Combining the functions of monitoring the rate of decrease in frequency and the rate of increase in frequency in one device is not a problem, especially since both measurements can be made at the same frequency / o, close to the nominal (49.5-49.0 Hz).

Claims (1)

Invention Formula The method of automatic frequency unloading and frequency automatic reclosing by disconnecting the load queues and re-activating them upon changing the frequency and speed of its decrease, which is different, in order to increase speed and reliability, the time of the second queues is reduced in proportion to the speed reduction rate and automatic reclosing is reduced in inverse proportion to the rate of rise of the frequency.