SU1575263A1 - Method of determining characteristics of corona power losses in control of voltage of power system - Google Patents

Abstract

This invention relates to the field of electrical engineering. The purpose of the invention is to improve the quality of the voltage control of the power grid networks. The invention makes it possible to take into account the characteristics of the power loss per corona discharge in automatic voltage control systems supplying power grid networks based on data from the operational information complex. For this purpose, information on the power measured at the beginning and at the end of the line is used, the power losses in the line are determined according to the measurement data of the mode parameters of one end of the line, the measurement results are corrected by the amount of error depending on the mode, the power losses are determined the corona from the combination of loss values obtained from the corrected measurements and calculated on the model line for good weather, and from them, the voltage factors determine the coefficients of the polynomial characterizing the dependence of the losses on the corona on the voltage no. 1 il.

Description

The invention relates to electrical engineering, in particular to voltage regulation in supply networks of a power system.

The purpose of the invention is to increase the quality of the voltage control of the power grids of power systems.

The drawing shows a structural scheme that implements this method.

The scheme contains a block 1 of storing information about line parameters, gauges 2-5 at the beginning of the line (voltage, reactive power, temperature, active power, respectively), active power meter 6 at the end of the line, block 7 — a model for determining active power at the end of the line , block 8 of determining the load component of the line loss according to the power measurement data at the beginning of the line and the results of the power output at its end, bgk 9 is determined by

dividing line losses by measuring power at the beginning and end of the line, block 10 for determining the difference between loss by measurement and load component of losses, threshold element 11, switch 12, block 13 for calculating the error value, block 14 for storing the error values for specific the values of the power at the beginning of the line, the unit 15 for determining the total power losses in the line, the unit 16 for determining the corona loss, the unit 17 for determining the coefficients of the polynomial characterizing the dependence of the corona loss on the voltage.

At the output of block 7, the active power at the end of the line is determined from the measurement results of blocks 2-5 and the line parameters from block 1. This value simultaneously with the measured active power at the beginning of the line from block 2 enters block 8, where by subtracting the second value from the first the load component of the losses arriving at the second input of block 10 is calculated. In the block, the amount of losses based on the measurements at the beginning of the line is determined by subtracting the measured active power at the end of the line from the measured active power block 10. In block 10, the subtraction of the value at the second input from the value at the first input determines the difference arriving at the input of the switch 12 and the pore element 11.

In the initial static state in good weather, the value at the input of the threshold element 11 does not exceed a predetermined value, the signal at the output of element 11 is absent, and the switch 12 is in the closed state. The magnitude of the difference from the output of the block 10 through the switch 12 enters the input of the block 13, where by subtracting the value of the power loss per corona from good weather, the magnitude of the error is determined. The power losses per corona in good weather are calculated in block 13 by the magnitude of the voltage measured in block 2 and the known characteristics of corona losses in good weather. The magnitude of the error arrives at the first input of the storage unit 14, the second input of which receives the value of active power measured in unit 5 in

s

0 5 Q

0 5 Q

five

the beginning of the line. As a result, in memory unit 14, the dependence of the error on the power at the beginning of the line is formed and stored.

In the event of bad weather, which is accompanied by increased losses for a crown with unknown characteristics, the magnitude of the difference determined in block 10 exceeds the value specified by threshold element 11, and a signal appears at the output of the latter, resulting in switch 12 going to open the state and signal to the input of the memory unit 14 is not received.

From the output of the storage unit 14 in both the good and bad weather modes, the second input of the unit 15 receives the magnitude of the error corresponding to the power measured at the moment 5 at the beginning of the line. The first input of block 15 receives the loss value according to measurement data from block 9, and the output of block 15 by subtracting the value at the second input from the value at the first input determines the value of the total loss in the line arriving at the first input of block 16 to the second input which receives the magnitude of the load loss from block 8, and the output determines the magnitude of the power loss on the corona. The magnitude of the power loss to the corona from block 16 and the voltage value measured in block 2 are transferred to block 17, where the polynomial coefficients are determined by predetermined dependencies

7 a0 + a, 11 + a2U2 +. .. + characterizing the dependence of the losses on the crown on the voltage and used in the control process, i

The use of power supply grids in the power management system of the power system automatically, at the pace of the process, of the determined characteristics of the active power losses per corona allows maintaining optimal modes, which gives an economic effect by reducing the total losses of the active power.

Claims (1)

Invention Formula A method for determining the power loss characteristics of an oron when controlling a stressed power system, according to which the active