RU2368914C1 - Method for control of high-voltage equipment elements technical condition - Google Patents

Abstract

FIELD: power engineering.

SUBSTANCE: invention is related to methods for remote control of technical condition of electric power (EP) energised equipment. Previous experimental studies of EMI are carried out to estimate value of time interval T, at which EMI spectrum with certain accuracy may be treated as stationary accidental process. Further during interval of time, not less than T, they fix and quantitatively assess parametres of EL internal EMI spectra. From registered EMI they separate spectra of electromagnet radiation generated by partial discharges in internal insulation, including frequency ranges with stably repeated signals with amplitude of spectral lines of at least 20…40 dB. Afterwards numeral analysis of fixed spectra is used to form combination of quantitative criteria. In process of subsequent monitoring comparison with formed criteria makes it possible to estimate condition of high-voltage equipment and/or availability of defects in its separate units. Combination of numeral criteria includes maximum, minimum and average values of signal amplitudes, both at separate frequencies and in a certain range and/or its mean-square deviation, and/or value of spectrum energy, and/or value of spectrum envelope modulation frequency.

EFFECT: higher reliability of high-voltage equipment technical condition detection.

2 cl

Description

The invention relates to methods for remote monitoring of the state of external, linear and internal insulation, as well as elements of high-voltage electric power equipment (EO), such as power transformers, measuring transformers, reactors, etc., and can be used to create information-measuring complexes based on analyzers spectrum and broadband receivers having the ability to connect to a computer.

A known method of monitoring the state of high-voltage equipment (AS USSR No. 883907, 1981), including the use of electron-optical flaw detectors for recording optical radiation from corona and surface partial discharges. The optical method is used in the development and certification testing of new types of high-voltage equipment. When putting the equipment into operation with optical flaw detectors, it is possible to control the quality of installation, to identify deficiencies in design or engineering solutions. In operation, the optical method is used to detect corona defects.

The disadvantages of the method is that it allows fixing only corona and surface partial discharges of external and linear insulation, as well as structural elements, while the reliability and accuracy strongly depend on the illumination of the diagnostic object, weather conditions, the presence of background light, etc.

A known method of monitoring the state of high-voltage equipment (Khrennikov A.Yu. et al. Power plants, 2001, No. 8, p. 48-52), involving the use of thermal imagers to build a picture of the temperature distribution. The use of a thermal imager allows you to determine the state of contact connections of equipment at any time without disconnecting it.

The disadvantage of this method is that it is not possible to detect defects on indirectly overheated surfaces of equipment.

A known method of monitoring the state of high-voltage equipment (Vdoviko V.P., Ovsyannikov A.G. Energetik, 1995, No. 10, p.16-18), which involves the use of electric sensors, which are usually connected to the measuring leads of high-voltage inputs or to high-frequency current transformers worn on ground wires. Using electric sensors, the main characteristics of partial discharges in the internal insulation are determined. As is known (GOST 20074-83, a method for measuring the characteristics of partial discharges), the intensity of partial discharges is quantitatively characterized by: the apparent charge of a single partial discharge, the repetition rate of partial discharges, and the average current of partial discharges.

The main difficulty in measuring signals from partial discharges in operation is associated with a high level of interference created mainly by corona discharges on a high-voltage line. In addition, this method involves stopping the equipment for connecting sensors.

Usually, electric sensors are able to give only a very rough estimate of the location of the source of partial discharge signals, therefore, acoustic sensors are usually used to localize the defect, which have significantly lower sensitivity than electric ones but are not subject to external interference from the substation's power equipment.

An analogue of the claimed invention is a method for monitoring the state of high-voltage equipment, including recording and analyzing the spectra of its own electromagnetic radiation (EMR) (Glukhov O.A. et al. Methods for estimating the parameters of partial discharges in high-voltage insulation during relative measurements of their pulsed electromagnetic fields. Transactions 4 inter Sympos. on EMC, St. Petersburg, 2001, p.30-35). The method involves the use of antennas and specially made partial discharge intensity recorders, which allow controlling the average flow intensity (average occurrence) of pulse signals from partial discharges in internal isolation from the detection threshold and are peak detectors with a broadband input. Based on the measurement results, the dependence of the intensity of the partial discharge flow on the detection threshold is built and the following diagnostic parameters are used: the slope of the slopes of the approximating straight lines of this dependence; the number of intervals required for this approximation; quantitative values of the coordinates of the inflection points.

The disadvantage of this technical solution is the insufficient reliability of determining the technical condition of high-voltage equipment as a whole and the diagnosis of defects in insulation and individual structural elements.

Known RF patent for the invention No. 2311652 dated 04/10/2006 (G01R 31/00, 2006.01) "Method for monitoring the technical condition of electric power equipment". The technical condition (TS) of the EO, under operating voltage, is determined by the EMP of this equipment, and it is assumed that the radiation occurs with antennas, which are taken as the outer vertical parts of the EO inputs, isolated from a grounded metal case. Vehicle assessment is carried out in the following sequence:

- calculate the resonant frequencies of the radiation of the antennas;

- calculate informative frequency bands of radiation associated with the values of the resonant frequencies;

- fix under equivalent conditions the integrated powers of quasi-harmonic electromagnetic oscillations in the informative frequency bands of the energy spectra of vertical polarized radiation from the same type of controlled and reference electric power equipment;

- conclusions about TS EO are made on the basis of comparisons of the above integrated powers of quasi-harmonic electromagnetic oscillations in informative frequency bands recorded in equivalent conditions for the same type of controlled and reference electric power equipment.

The specified method for monitoring the technical condition of electric power equipment is the closest to the claimed invention and is accepted by us as a prototype.

The application of the claimed method has several limitations. So, there is a drawback associated with the limited possibility of its use, since it is understood that the EMP is emitted exclusively by the external vertical parts of the bushings isolated from the grounded metal case of the controlled EO. At the same time, on the one hand, for example, such a design feature of high-voltage bushings (at least EO of voltage class 110 kV and higher) is not taken into account as conductive equalization gaskets (having a cylindrical shape and isolated from each other). On the other hand, not all EOs are connected to the circuit by explicit inputs (for example, current transformers).

In addition, the method does not take into account such an important feature of real EMP emission spectra as their dependence on time.

In view of the noted disadvantages, the known prototype does not have sufficient reliability and reliability of diagnosing a wide class of EO.

The problem to which the claimed invention is directed is expressed in increasing the reliability of determining the technical condition of high-voltage equipment in general and diagnosing defects in insulation and individual structural elements.

The technical result obtained by solving the problem is expressed in the fact that the analysis of the spectra of their own electromagnetic radiation of high-voltage equipment allows us to obtain information that determines the intensity of the discharge processes that occur in isolation, structural elements of high-voltage equipment without interfering with the technological process. The relationship between discharge processes (sources of electromagnetic radiation) and the state of the equipment has been studied quite well by now. Moreover, the method is implemented without shutting down the working equipment.

To solve this problem, a method for monitoring the state of high-voltage equipment, including recording and analyzing the spectra of its own electromagnetic radiation, is characterized in that:

- near the element of high-voltage equipment, preliminary experimental studies of EMR are carried out to estimate the value of the time interval T, on which the EMR spectrum with sufficient reliability can be considered a stationary random process;

- subsequently, over a time interval of at least T, the parameters of the spectra of intrinsic EMR EO are recorded and quantified;

- spectra of electromagnetic radiation generated by partial discharges in the internal insulation, which include frequency ranges with stably repeated signals with an amplitude of spectral lines of at least 20 ... 40 dB, are isolated from registered EMPs;

- after which a numerical analysis of the recorded spectra of electromagnetic radiation generated by partial discharges in the internal insulation forms a set of quantitative criteria, a comparison with which of the similar parameters obtained during subsequent monitoring of the spectra of the own electromagnetic radiation of high-voltage equipment allows us to judge the general technical condition of high-voltage equipment and / or the presence of defects in its individual nodes.

In addition, the set of quantitative criteria includes the maximum, minimum and average values of the amplitudes of the signals both at individual frequencies and in a certain range, and / or its standard deviation, and / or the energy of the spectrum, and / or the frequency of the modulation of the envelope of the spectrum.

A comparative analysis of the features of the claimed solution with the features of the prototype and analogues indicates the conformity of the claimed solution to the criterion of "novelty."

The features of the characterizing part of the claims provide the solution to the following functional problems.

The sign "... an estimate of the time interval T, on which the EMR spectrum can be considered as a stationary random process with sufficient reliability ..." provides the necessary observation time, which subsequently allows the correct and effective use of mathematical methods of signal processing.

The sign "... near the high-voltage equipment, the spectra of its own electromagnetic radiation are recorded and quantitatively evaluated ..." provides a measurement of the spectra of signals from all sources of electromagnetic radiation located both on the substation and outside it, which allows for total control of the entire complex of high-voltage equipment available in substation and subject to control.

The sign "... from which the spectra of electromagnetic radiation generated by partial discharges in the internal isolation, including the frequency ranges, with stably repeated signals with the amplitude of the spectral lines of at least 20 ... 40 dB, are distinguished" allows you to create a set of quantitative criteria, a comparison with which similar parameters obtained with subsequent monitoring of the spectra of the own electromagnetic radiation of high-voltage equipment, allows you to reliably judge the general technical condition of high volt equipment.

The sign "... by numerical analysis of the recorded spectra of electromagnetic radiation generated by partial discharges in the internal insulation, form a set of quantitative criteria, a comparison with which of the similar parameters obtained during subsequent monitoring of the spectra of the own electromagnetic radiation of high-voltage equipment", allows us to judge the general technical condition of high-voltage equipment and / or the presence of defects in its individual nodes, allows you to form a criteria base, I allow to quantitatively evaluate the technical condition of high-voltage equipment and / or its individual components at a given moment of time compared to its initial guaranteed operational state, evaluate the dynamics of changes in the equipment state and replace (or repair) potentially dangerous components in advance (before an emergency).

The signs of the second paragraph of the formula reveal the concept of a set of quantitative criteria, a comparison with which of the similar parameters obtained during subsequent monitoring of the spectra of the own electromagnetic radiation of high-voltage equipment allows us to judge the general technical condition of high-voltage equipment and / or the presence of defects in its individual nodes.

To implement the method, a set of equipment is used, including well-known means of contactless recording of electromagnetic radiation, which can be used as well-known sets of modern highly sensitive measuring equipment, including spectrum analyzers, broadband receivers, oscilloscopes. The sensitivity of modern measuring equipment makes it possible to reliably record signals in the range from 10 kHz to 3 GHz, so that it is possible to record electromagnetic radiation spectra from sources such as corona, surface partial and partial discharges, high-frequency communications, broadcasting stations, etc.

The aforementioned means of non-contact registration of electromagnetic radiation must be made with the possibility of connecting to a computer, which provides an operational analysis of the measurement information and the issuance of control decisions in accordance with a set of quantitative criteria.

The claimed method is implemented as follows.

1. Using the mentioned sets of measuring equipment, the stationarity time T of the amplitude-frequency EMR spectra near the high-voltage equipment in the substation in the high-frequency range is preliminarily evaluated.

2. The EMR spectra are recorded near the high-voltage equipment in the substation in the high-frequency range for a time not less than T.

3. Remove (zero) those spectral lines (or ranges) that correspond to sources external to the high-voltage equipment (thereby purifying the measured spectrum from spectral lines, the sources of which are broadcasting stations, high-frequency communication signals, etc. This the procedure does not cause much difficulty, since the frequencies at which information is received and transmitted are either known, or they are simply determined using measuring instruments).

4. The resulting spectrum is limited in amplitude from above and below, as well as in frequency ranges, and sets of spectra corresponding to the intrinsic electromagnetic radiation of high-voltage equipment are formed (that is, ensembles of spectra that carry information only about the intrinsic electromagnetic radiation of high-voltage equipment and only from partial discharges in internal isolation). This is achieved by:

- removal of signals corresponding to the intrinsic noise of the measuring equipment (lower limit);

- limits of the amplitude of the spectral lines at the level of 5 dB from the maximum value to exclude random emissions (upper limit);

- allocation of frequency ranges in which stably repeated signals are observed with an amplitude of spectral lines of at least 20-40 dB and corresponding only to signals from partial discharges in internal isolation.

5. Using the obtained spectra of intrinsic electromagnetic radiation, numerical values of the criteria are determined, the magnitude of which later draws conclusions about the general technical condition of high-voltage equipment and / or the presence of defects in individual nodes. Moreover, the set of quantitative criteria includes the maximum, minimum and average values of the amplitudes of the signals both at individual frequencies and in a certain range, and / or its standard deviation, and / or the energy of the spectrum, and / or the frequency of the modulation of the envelope of the spectrum. These values individually and in various combinations are the criteria for assessing the state of high-voltage equipment.

To date, experimentally proven the possibility of frequency selection of signals from partial discharges in the internal isolation and the correlation of the above criteria with specific defects of high-voltage equipment.

The described set of works and calculations is repeated with a given frequency during the operation of the controlled equipment and the results are compared with the previous ones taking into account their dynamics towards critical values preceding the failure of the controlled high-voltage equipment and / or its individual components, which allows us to judge their general technical condition and if necessary, in advance, promptly and optimally (i.e. with minimal damage from the point of view of the customers served), take appropriate organizations tionally-management solutions to restore the operability of nodes, potentially dangerous accident.

This work was partially supported by the RFBR grant 06-08-00508-a.

Claims (2)

1. A method of monitoring the technical condition of the elements of high-voltage equipment, including recording and analyzing the spectra of its own electromagnetic radiation, characterized in that preliminary experimental studies of EMR are carried out to estimate the time interval T, on which the EMR spectrum can be considered a stationary random process with sufficient reliability; the parameters of the spectra of intrinsic EMR EO are recorded and quantified for a time interval not less than T; extract from the registered EMR spectra of electromagnetic radiation generated by partial discharges in the internal insulation, including frequency ranges with stably repeated signals with an amplitude of spectral lines of at least 20–40 dB; after which a numerical analysis of the recorded spectra of electromagnetic radiation generated by partial discharges in the internal insulation forms a set of quantitative criteria, a comparison with which of the similar parameters obtained during subsequent monitoring of the spectra of the own electromagnetic radiation of high-voltage equipment allows us to judge the general technical condition of high-voltage equipment and / or the presence of defects in its individual nodes. 2. The method according to claim 1, characterized in that the set of quantitative criteria includes the maximum, minimum and average values of the amplitudes of the signals both at individual frequencies and in a certain range, and / or its standard deviation, and / or the energy of the spectrum, and / or the values of the frequency modulation of the envelope of the spectrum.