RU2488837C1 - Method for measurement of corona discharge power loss in transmission line - Google Patents

Abstract

FIELD: electrical engineering.

SUBSTANCE: method for measurement of corona discharge power loss in a transmission line is characterised by the fact that one simultaneously measures active powers, voltages, wire temperatures, relative density and humidity of air at the transmission line ends and reactive power transmitted into the line; then one determines the mean values of voltage and air density and humidity across the line ends, identifies occurrence of high (over 90%) air humidity at the line ends, calculates average (mean during the period) values of corona discharge losses in good weather at high air humidity with account for variable density, losses on wires heating, active powers at the line ends, the line reactive and charge powers transmitted into the line and determines dependence of loss measurement systematic error on the line mode parameters and corona discharge losses in nasty weather.

EFFECT: enhanced accuracy of determination of corona discharge losses in good weather, determination of corona discharge losses at high air humidity.

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Description

The invention relates to the field of electrical engineering and electric power industry and can be used to measure crown losses in a three-phase high and ultra-high voltage power transmission line (LEP).

A known method of measuring power losses per crown in a power line, based on measurements of active, reactive powers and voltages at the ends of the line and determining the systematic error of loss measurement (Tamazov A.I. Korona on AC overhead wires. Sputnik +. M. 2002 )

The disadvantage of this method is that when measuring crown loss in good weather, the change in air density is not taken into account, and crown loss with high humidity is not measured at all.

A technical solution is known, which consists in determining power losses per crown, in which when determining power losses per crown in a power line, the active power at the ends of the power line is simultaneously measured, from the active power transferred to the line, the active power received at its end is subtracted for heating the wires and the systematic error, defined in good weather, as the difference of the active power transmitted to the line and received at its end, minus losses for heating the wires and losses on the core Well, measure the reactive power transmitted in the line, the charging power of the line, the period of oscillation of the active power transferred to the line, then during this period of time determine the average values of the active powers measured at the ends of the power line, the reactive power transmitted in the line, of the charging power / lines, crown loss in good weather, wire heating loss, systematic measurement error, and determine the dependence of the measurement error on the active, reactive transmitted power by linear regression awns and charging the power lines (Copyright certificate the USSR №1775676 A1, cl. G01R 21/00).

One of the drawbacks of this technical solution is that the crown loss in good weather is determined inaccurately only by line voltage without taking into account air density. Another disadvantage is that the corona losses are not determined at high humidity.

The technical result, to which the proposed technical solution is directed, is to increase the accuracy of determining the loss on the crown in good weather, taking into account the changing density, calculating the measurement error, and also determining the loss on the crown with high humidity.

A method of measuring power losses per crown in overhead power lines, which consists in simultaneously measuring the active power at the ends of the power line from the active power transmitted to the line, subtracting the active power received at its end, the loss of heating wires and the systematic error, defined in good weather as the difference of the active power transmitted to the line and received at its end, minus the losses due to heating of the wires and the losses due to the crown in good weather, measure the active power, transmit washed in the line, the charging power of the line, the period of oscillation of the active power transferred to the line, then the average values of the active powers measured at the ends of the power line, the reactive power transferred to the line, the charging power of the line, the crown loss with good weather, losses due to heating of wires, systematic measurement error and determine by linear regression the dependence of the measurement error on the active, reactive transmitted powers and charging power of the line, measure the raft air humidity and humidity at the ends of the power line, determine the average value of the measured values during the averaging time, determine the power loss per crown in good weather with changing air density and the power loss per crown with high air humidity taking into account the changing air density, determine the average value of losses per crown with increased air humidity, taking into account the changing density of air during the averaging period, and the power loss per crown is determined by comparing the losses crown in fine weather with the varying air density at high humidity with the varying air density and in bad weather and is fixed corona losses corresponding to the weather at the current time.

The essence of the proposed invention is illustrated in the drawing, which shows a device that implements a method of measuring power loss on the crown.

The device comprises a voltage meter unit 1 installed at one end of the power line, an active power meter unit 2, a reactive power meter unit 3, a wire temperature meter unit 4, a relative air density meter unit 5, a relative air humidity meter unit 6, and at the other end of the line a voltage meter unit 7, a wire temperature meter unit 8, an active power meter unit 9, a relative air humidity meter unit 10, a relative density meter are installed air springs block 11.

The device comprises a voltage meter installed at one end of the power transmission line, block 1, the output of which is connected to block 12 for determining the average voltage value at the ends of the power lines and block 13 for determining the heating losses of wires, an active power meter installed at one end of the power line, block 2, the output of which is connected to the block 13 determining losses for heating the wires and block 14 determining the average value for the average value of the active power of one end of the power line, a reactive power meter installed at one end of the power line unit 3, output to it is connected to the block 13 for determining losses on heating wires, the block 15 for determining the charging power of the line and the block 16 for determining the average reactive power of one end of the power transmission line for a period of averaging, a wire temperature meter installed at one end of the power transmission line, the output of which is connected to the determination unit 17 the average temperature of the wire installed on one end of the power line relative air density meter unit 5, the output of which is connected to the unit 18 for determining the average value of air density, are installed the relative air humidity meter at one end of the power line unit 6, the output of which is connected to the unit 19 for determining whether the measured humidity is more or less than the threshold humidity value of 90%, the voltage meter at the other end of the power line unit 7, the output of which is connected to the unit 12 determining the average value of the voltage values at the ends of the power lines installed at the other end of the power line, a wire temperature meter unit 8, the output of which is connected to the average wire temperature determination unit 17, mounted on the other end e power line active power meter unit 9, the output of which is connected to the unit 20 for determining the average active power value of the other end of the power line for the period of averaging, a relative air humidity meter installed on the other end of the power line unit 10, the output of which is connected to the unit 19 for determining whether the measured at the ends of the power lines, humidity is greater than or less than the threshold humidity value of 90%, a relative air density meter installed on the other end of the power line, block 11, the output of which is connected to the medium determination block 18 its air density values, the output of the block 12 for determining the average voltage values at the ends of the power lines is connected to the block 21 for determining the power losses per crown in good weather and the block 22 for determining power losses per crown with high humidity (more than 90%), the output of the block 17 is connected to block 13 determine the loss of power for heating wires and block 15 determine the charging power of the line, the output of block 18 is connected to block 21 to determine the loss of the crown in good weather and block 22 to determine the loss of the crown with high humidity ear, the output of block 19 is connected to the block 22 for determining the power loss per crown at high humidity, the output of the block 21 for determining the loss per crown in good weather is connected to the block 23 for determining the average value of the loss per crown in good weather, the output of block 13 for determining power losses for heating wires is connected to block 24 for determining the average value for the period of averaging of power losses for heating wires, the output of the active power meter at one end of the power transmission line is connected to block 14 for determining the average for the averaging period of the active power value, the output of the line charging power determination unit 15 is connected to the block 25 for determining the average value of the power line charging power for the averaging period, the output of the active power meter unit 9 at the other end of the power line is connected to the block 20 for determining the average active power value for the averaging period, the output of the block 22 for determining the loss per crown with high air humidity is connected to the block 26 for determining the average over the period of averaging value of the loss per crown for high humidity , the output of block 23 for determining the average over the period of averaging the value of losses per crown in good weather is connected to block 27 for accumulating the values of the error in measuring losses in the power transmission lines per day and block 28 for determining losses per crown in the power lines, and the output of block 14 for determining the average for the period of averaging the active power connected to block 29 for determining the difference of average values for the period of averaging active power values at the ends of power lines and block 30 for determining the coefficients of communication errors with the parameters of the power line mode, the output of block 24 for determining the average for the period averaging the values of power losses for heating the wires is connected to block 27 for accumulating error values for measuring losses in overhead lines per day and to block 28 for determining losses per crown in power lines, the output of block 16 for determining the average reactive power of one end of power lines for the period of averaging is connected to block 30 for determining coefficients the error is connected with the parameters of the power transmission line and block 31 for determining the measurement error according to the parameters of the power transmission line, the output of block 25 for determining the average over the period of averaging the value of the charging power of the power lines is connected to block 31 the error of measurement according to the parameters of the power transmission line, the output of block 20 for determining the average value for the period of averaging of the value of active power is connected to block 29 for determining the difference in the average for the period of averaging of the values of active powers at the ends of the power line, the output of block 26 of determining the average for the period of averaging of the value of corona losses with increased humidity is connected to the block 28 to determine the loss of the crown in the power line, the output of block 29 to determine the difference between the average values for the period of averaging active power values at the ends of the power line is connected to block 2 7 accumulation of error values for measuring losses in power transmission lines per day and to block 32 for determining average values for the period of averaging total losses in power transmission lines in bad weather, output of block 27 for accumulating error values for measuring losses in power transmission lines per day is connected to block 30 for determining error communication coefficients with parameters of power transmission lines , the output of the block 30 for determining the coupling coefficients of the error with the parameters of the power transmission line mode is connected to the block 33 for determining the analytical dependence of the error on the parameters of the power transmission line mode, the output of the block 31 for determining the error of measurement from the parameters of the mode EP is connected to block 32 for determining the average for the period of averaging the total losses in the power transmission line in bad weather, the output of block 33 for determining the analytical dependence of the error on the parameters of the power line is connected to block 31 for determining error of measurement by the parameters of the power line, the output of block 32 for determining the average for the period of averaging the full losses in the power lines in bad weather is connected to the block 28 to determine the loss of the crown in the power lines.

The definition of crown loss is as follows.

After 1 or 5 s for every 10 minutes, for example, measurements are taken at the ends of the voltage line in blocks 1 and 7, active power in blocks 2 and 9, the temperature of the wires in blocks 4 and 8, reactive power at one end of the line in block 3 , relative air densities at the ends of the line in blocks 5 and 11, relative air humidity in blocks 6 and 10. In blocks 12, 17, 18, the voltage, wire temperature, air densities are averaged, and unit 1 is formed in unit 1, if the relative humidity more than 90% at both ends of power lines, and 0.5, e if the relative humidity is more than 90% at only one end of the power line. If the relative humidity of the air at both ends of the power transmission lines is less than 90%, then 0 is formed in block 19. Corona losses in good weather are determined in the blocks taking into account air density 21, losses in wires from load currents 13, losses from reactive power 15, losses on crown with high humidity taking into account air density 22.

In blocks 23, 14, 24, 16, 25, 20, and 26, every 10 min, instantaneous values of the corresponding quantities are accumulated and averaged. In block 29, the difference between the average values of the active powers measured at the ends of the transmission is determined, which is the sum of the losses due to heating of the wires, the losses due to the crown, and the measurement errors. At the output of block 32, average total losses in the power transmission line are formed over the averaging period. In block 28, the average over the period of averaging the total losses in the power lines are subtracted from the average for the period of averaging the heating losses of the wires of the power lines, as a result of which losses on the corona in bad weather are formed. In block 28, a comparison is made of crown losses in bad weather, in good weather, and in high humidity. If the loss on the crown in bad weather is greater than the loss on the crown in good weather and in high humidity, then at the output of block 28, the loss on the crown is formed in bad weather. If the loss on the corona in bad weather is less than the loss on the corona with high humidity, then at the output of block 28, losses on the corona with high humidity are formed; if the crown loss at high humidity is zero, then the output of the block 28 records the crown loss in good weather.

Thus, the introduction of a relative air density meter not only clarifies the amount of loss per crown in good weather, but also the introduction of a relative air humidity meter makes it possible to determine the loss per crown with increased air humidity taking into account relative air humidity.

Claims (1)

A method of measuring power losses per crown in overhead power lines, which consists in simultaneously measuring the active power at the ends of the power line from the active power transmitted to the line, subtracting the active power received at its end, the loss of heating wires and the systematic error, defined in good weather as the difference of the active power transmitted to the line and received at its end, minus the losses due to heating of the wires and the losses due to the crown in good weather, measure the active power, transmit washed in the line, the charging power of the line, the period of oscillation of the active power transferred to the line, then the average values of the active powers measured at the ends of the power line, the reactive power transferred to the line, the charging power of the line, the crown loss with good weather, losses due to heating of wires, systematic measurement error, and determine by linear regression the dependence of the measurement error on the active, reactive transmitted powers and charging power of the line, which differs the fact that they measure the density and humidity of the air at the ends of the power line, determine the average value of the measured values during the averaging time, determine the power loss on the crown in good weather with changing air density and the power loss on the crown with high humidity, taking into account the changing air density, determine the average value of losses per crown with increased air humidity taking into account the changing density of air during the averaging period, and power losses per crown are determined by comparing the values of the corona losses in good weather, taking into account the changing air density, with increased humidity, taking into account the changing air density and in bad weather, and fix the corona losses corresponding to the weather at the current time.