SU1096729A1 - Device for determining coefficient of rate of change of frequency response of power pool - Google Patents

Abstract

DEVICE FOR DETERMINING THE RATIO steepness STATIC frequency characteristics of power systems, comprising: frequency meters and balance exchange capacity multiple power systems, the output of each of which is connected to the bandpass filter and the divider and sglazhivaioschie blocks, characterized in that, in order to increase the accuracy of the device is provided with a quad and serially connected by a switch and a correlator, and the output of the bandpass filter connected to the frequency meter is connected to the second input of the corrector The outputs of the switch are connected to the input of the quad, the output of which is connected to the input of the second smoothing unit, the outputs of the correlator and the second smoothing unit are connected respectively to the first and second inputs. divider, the output of which is connected to the input of the first smoothing unit of the block on the device exit.

Description

The invention relates to a technique for identifying the evaluation of power system parameters and can be used in real-time systems such as operational information systems, automatic frequency and power controllers, etc. The coefficient of the steepness of the static frequency response is necessary in the systems of regulating the frequency of energy interconnection, limiting power flows through intersystem transmission lines and a number of others. The energy ratio slope is most often evaluated during system testing 1, when the power imbalance / 5P and the frequency of DG determined by the value of the DG frequency found in the DG frequency find the coefficient of slope K in the form of K ,,,/Ivt / Hz. is the need to conduct costly system tests. In addition, a large unbalance in the power of the YR can lead to an emergency when synchronous operation of several power systems, and a small one does not allow to determine K with sufficient accuracy. It is also known a device for determining the statistibility coefficients of power systems connected by an intersystem power line (LEP) 23. A disadvantage of this device is the need for information about the power ratio of the power systems associated with intersystem power transmission lines. In addition, the accuracy of the estimates of K is relatively small. In practice, there is often no information about the ratio of the capacities of the associated power systems. Closest to the invention is a device for determining the steepness coefficient of the static frequency response of a power interconnect, which contains frequency and balance meters for the exchange power of several power systems, each of which is connected to a bandpass filter, as well as a divider and first and second smoothing units 3. However, the known the device does not accurately determine the coefficient of steepness, since it is based on the assumption that the conditional expectations of random fluctuations of unbalances STI, as well as on the assumption that at each time the power flow on the interconnection transmission line caused by the occurrence of a disturbance in one of the interconnected systems. The purpose of the invention is the accuracy of determining the coefficient of steepness. The goal is achieved by the fact that the device for determining the coefficient of the steepness of the static frequency response of the power interconnection, containing frequency meters and the balance of the exchange power of several power systems, the output of each of which is connected to a bandpass filter, and the divider and smoothing blocks are equipped with a quad and a series-connected switch and correlator torus, the output of the bandpass filter connected to the frequency meter is connected to the second input of the correlator, and the outputs of the bandpass filters connected The exchangeable power balances are connected to the inputs of the switch, the output of which is connected to the quad input, the output of which is connected to the input of the second smoothing block, the outputs of the correlator and the second smoothing block are connected to the first and second inputs of the divider respectively, the output of which is connected to the input of the first smoothing block at the output of the device. The drawing shows a block diagram of the proposed device. The device consists of a 1.1 frequency meter and 1.2, 1.3, .. meters. , 1. N + 1 balance of exchange ms value. The outputs of blocks 1.1, ..., 1.N + 1 are connected to bandpass filters 2.1, 2.2, ... 2.s + 1, respectively. The outputs of the bandpass filters connected to the meters 1.2, ...,. N + 1 balance the exchange power, are connected to the input of the series-connected blocks of the switch 3, the correlator 4, the divider 5 and the first smoothing unit. The output of the switch is connected to the series-connected square 7 and the second smoothing unit 8, the output of which is connected to the second input of the divider 5. The output of the band-pass filter 2.1 is connected to the input of the correlator 4. To determine the coefficient of steepness of the static frequency response of the power interconnection, we write down the relationship between the slow oscillations of unbalances of power of individual power systems (ES and frequency f of power interconnection. Kf (1 Consider unbalances of power of individual EMF uncorrelated, from (11 we get, (2), 2 ,. ..H (G) In (2) and (3) the bar above means averaging operation. The estimate obtained in (3) for the steepness coefficient of the static frequency response can be refined as a result of secondary averaging ° .-. Jj-L Such averaging allows It is difficult to reduce the error in estimating K by a factor of A.Y. Obtaining realizations of unbalance of power of individual ES, as a rule, is difficult. However, if the power of an individual ES is small compared to the power of the total energy connection, then the value of unbalance of power is close to the value of the exchange balance power This circumstance, as well as relations (21 and (3), is used in the proposed device to determine the coefficient of steepness of the static frequency characteristic of the power supply. The device works as follows. It is assumed that for operation of the device one frequency and N values of the balance of the exchange power of N power systems are measured. Using the 1.1 - 1.N + meters, information is obtained about the oscillations of the frequency of the meter 1.1) and the balance of the exchange power for the N energy system (meters 1.2 - 1.N4-1I. The output signals of the meters pass through the corresponding filtering blocks and band-pass filters 2.1 - 2 .N) whose passbands lie within the limit of minute oscillations (with a period of 10 10 mi). The thus-obtained random oscillations of the frequency f and the balance of the exchange power p „, (, 2 ... N) are received for further processing. Thus, the oscillations of the frequency f are fed to the second input of the correlator 4, and the oscillations of the balance of exchange power p through the switch 3 are alternately fed to the first input of the correlator 4. At the output of the correlator 4, the value p is generated. where the bar at the top means the mean. The output of the switch p, (, 2 ... N) in quad 7 is squared (i.e., p is formed). In the second smoothing block 8, an estimate of the variance p is found. In divider 5, the ratio of the values of f- and p is formed. The obtained estimate K by the i-th balance of the exchange power goes to the first smoothing unit 6, where it is averaged with similar estimates for all, 2 ..-. N. Thus, at the output of the first smoothing block b, the current average value of the steepness coefficient of the static frequency response of the energy coupling, which is found from the frequency fluctuations and the balance of the exchange power of all the ES included in the energy coupling, is formed. Technical and economic efficiency from the implementation of the proposed device is determined by more precise adjustment of such frequency control tasks and active power, such as frequency control, manual power correction, etc.

Claims (1)

DEVICE FOR DETERMINING THE STEEL FREQUENCY STATIC FACTOR CHARACTERISTIC OF POWER UNION, containing frequency and balance indicators of the exchange power of several power systems, the output of each of which is connected to a band-pass filter, as well as a divider and smoothing units, which are designed to increase the accuracy of it is equipped with a quadrator and connected in series with the switch and the correlator, and the output of the bandpass filter connected to the frequency meter is connected to the second input of the correlator, and the outputs of the bandpass filters connected to the meters of the balance of the exchange power are connected to the inputs of the switch, the output of which is connected to the input of the quadrator, the output of which is connected to the input of the second smoothing unit, the outputs of the correlator and the second smoothing unit are connected respectively to the first and second inputs of the divider, the output of which is connected with the input of the first smoothing block at the output of the device. , SU „1096729