EA038299B1 - Infrared fiber optic sensor to determine moisture content in transformer oil - Google Patents

Abstract

The invention relates to the measuring equipment intended to determine moisture content in electromagnetic devices (oil current transformers) that operates in continuous mode as an infrared spectroscopic device in the 1.45-3.42 m range. The proposed device is an infrared fiber optic sensor used to determine moisture content in transformer oil; it includes an IR radiation source that is a chrome-nickel heater filament radiating in the 0.8 to 6.0 m range, and a fiber optic assembly consisting of two parts, transmitting and receiving, each comprised of six channels, four of those manufactured of silica fibers transparent in the 2.0 to 15.0 m range, and two others built of AgCl-AgBr silver halides transparent in the 2.0-15.0 m range, each channel containing at least 300 fibers of 100 m diameter. The assembly is optically connected with a cone of attenuated total reflection (ATR) manufactured on the basis of zinc selenide with the base diameter of 13 mm and an angle between the base and the generatrix of 45°. Radiation from the source goes to the transmitting assembly to ATR cone where deflection of optical signal and absorption of sorted peaks of water and oil takes place. Further, radiation is transmitted via the receiving assembly and optical filters to photoreceivers and is processed in the sensor signal processing unit. The proposed infrared fiber optic sensor to determine moisture content in transformer oil ensures its continuous monitoring free of sampling with an up to 0.1 vol. % and high EMI stability.

Description

The technical field to which the invention relates

The invention relates to a measuring technique designed to determine the amount of moisture in electromagnetic devices (oil-immersed current transformers) in a continuous mode, operating on the principles of infrared spectroscopy in the range of 1.45-3.42 microns.

Prior art

At present, the control of the amount of moisture in transformer or insulating oil is carried out using laboratory analytical equipment and continuous measurement devices built directly into the current transformer. Among the methods that continuously monitor the amount of moisture in transformer oil, capacitive and optical are distinguished. The disadvantage of the method based on measuring the capacity is the low resistance to electromagnetic interference and the measurement of the amount of moisture in the oil sample. Optical methods are based on the registration of absorption peaks of the detected elements, namely transformer oil and water, regardless of their state of aggregation and provide an advantage in the accuracy and speed of analysis.

Infrared spectroscopy is one of the main optical methods for determining the amount of moisture in transformer oil, since this method allows for non-destructive control of moisture content and does not complicate the further use of the medium. The presence of gas fractions and foreign impurities also does not affect the measurement accuracy due to the detection of characteristic absorption peaks of chemical bonds of the controlled substances at certain wavelengths. The use of fiber-optic channels for delivering an optical signal makes it possible to increase the noise immunity of the sensor due to the removal of electrical components from the area of strong electromagnetic interference, allows to expand the scope of the optical method and to implement industrial submersible sensors for monitoring the moisture concentration in transformer oil, which are in demand in the energy industry.

There is a known device for measuring moisture in insulating oil using infrared (IR) spectroscopy (RF patent No. 72071, application 2007144137/22 dated November 27, 2007, IPC G01N 21/81), which includes two sources of infrared radiation operating at analytical and reference wavelengths corresponding to the absorption and transmission bands of water, a cuvette for analyzing a sample of insulating oil, a photodetector of infrared radiation reflected from a cuvette with a sample to be analyzed, a photocurrent amplifier of the photodetector, analog-to-digital converters and a data processing system. The essence of the utility model consists in the use of two narrow-band sources of infrared radiation - LED19-PR-1 and LED16-PR-1, operating at a wavelength of 1930 nm (analytical) and 1650 nm (reference), respectively, the radiation of which is reflected from the cuvette with the analyzed sample insulating oil and falls on the PD24-05 infrared photodiode with a narrow directivity pattern, which is sensitive to radiation in the 1150-2320 nm range, the signal output from the photodetectors is processed by digital methods, the measurement result is displayed on a liquid crystal display. The disadvantage of this device is the need to take a sample of the insulating oil in a cuvette, as well as the use of one wavelength of water absorption of 1930 nm, which is used as an analytical one, which leads to long-term measurement of moisture concentration and low accuracy.

The prototype of the proposed sensor is a device for measuring moisture and dissolved gases SmartDGA manufactured by LumaSense Technologies [LumaSense Technologies. SmartDGA Brochure-RU Rev. 04/15/2019 (http://smartdga.ru)], which belongs to non-dispersive infrared sensors and contains a housing, inside which there is an analytical cell containing a sample of oil vapors, an infrared radiation source operating in a wide spectrum range up to 8 microns, enclosed in a shell that absorbs electromagnetic and mechanical waves, a device for directing radiation into a collimated beam passing through the cell and optical filters to infrared detectors. The essence of the invention consists in passing a collimated beam of infrared radiation through an analytical cell filled with a sample of oil vapors to radiation receivers for recording the absorption peaks of gases and moisture present in the oil. The measurement error of this device is ± 2%, the sample is taken once every 24 hours, the housing is protected up to 4 kVA. The disadvantage of this device is the high measurement error of moisture in the transformer oil, low noise immunity, which limits the use of the sensor with low-power transformers, the need for sampling, as well as the low frequency of sampling.

There are problems in measuring the amount of moisture in transformer oil associated with the need to take an oil sample, low frequency of moisture content measurement and high requirements for noise immunity of continuous monitoring systems. Oil sampling requires skilled personnel or additional equipment for automatic sampling, which increases the cost of the moisture control method. Low frequency of moisture content measurement increases the risk of transformer breakdown. High requirements for noise immunity of monitoring devices limit the use of existing measuring systems and increase the cost of analytical equipment due to the presence of additional protection elements.

The purpose of this invention is to develop a design for infrared fiber

- 1 038299 optical sensor for determining the amount of moisture in transformer oil, providing continuous monitoring of moisture content without sampling, with an accuracy of 0.1 vol.% And high resistance to electromagnetic interference.

The essence of the invention

The objective of the invention is to create a submersible spectral moisture sensor in transformer oil, which makes it possible to determine the concentration of oil and water in a continuous mode.

The technical result of the invention is to increase the sensitivity and resistance to electromagnetic interference.

The problem is solved due to the fact that in an infrared fiber-optic sensor for determining the amount of moisture in transformer oil, including a source of infrared radiation of a wide range, a fiber channel for transmitting an optical signal, optical filters and radiation receivers, characterized in that the transmission channel is made in the form fiber assembly, consisting of 6 channels, including at least 300 fibers, each with a diameter of 100 μm, a length of 80 cm, 4 of which are made on the basis of quartz glass, 2 - on the basis of crystals of silver halides of the AgCl-AgBr system, at the free end of which a cone is installed of the disturbed total internal reflection (ATR-cone), which is in direct contact with the measured medium, at the fixed end there are an IR radiation source and photodetectors with filters of appropriate frequencies, while a chromium-nickel filament operating in the range of 0 , 8-6.0 μm, as a receiver IR radiation uses photodiodes for the near and mid-infrared range Lms25PD-05 and Lms36PD-05, respectively.

The studies carried out by the authors revealed the possibility of determining the quantitative moisture content in transformer oil. The use of six optical channels made it possible to cover the used wavelength range from 1.45 to 3.42 microns, and four channels were made on the basis of quartz, transparent from 0.2 to 2.0 microns, two - on the basis of silver halides of the AgCl-AgBr system. , transparent from 2.0 to 15.0 microns. It was found that the most intense peaks of water absorption are at wavelengths of 1.45 µm, 1.95 µm, 2.94 µm, and oil - 1.73 µm, 3.24 µm. The investigations carried out by the authors have revealed the promise of using fibers based on quartz and silver halides for transmitting information about the indicated absorption peaks, since these fibers provide the required level of transparency while maintaining the durability. The data of the studies carried out indicate both the possibility of determining the quantitative moisture content in the transformer oil, and the high sensitivity of the sensor due to the use of a large number of absorption peaks.

List of figures

The drawing shows an optical diagram of an infrared fiber optic sensor for determining the amount of moisture in transformer oil, where 1 is an infrared radiation source, 2 is a fiber assembly that transmits IR radiation to an ATR cone, 3 is an ATR cone, 4 is a fiber assembly that receives IR radiation from the ATR cone, 5 - optical filters, 6 - IR radiation receivers, 7 - signal processing and information output unit.

Information confirming the possibility of carrying out the invention

IR radiation, the source of which is a chromium-nickel filament operating in the range from 0.8 to 6.0 μm (1) is directed into a transmitting fiber assembly (2), consisting of 6 channels, 4 of which are made of quartz fibers, 2 - from fibers based on silver halides of the AgCl-AgBr system, each channel consists of at least 300 fibers, each with a diameter of 100 μm, from where it enters the ATR cone (3), made on the basis of zinc selenide - ZnSe with an angle between the generatrix and the base 45 °, transparent in the range from 0.5-22.0 microns. After multiple disturbed total internal reflection in the ATR cone, the IR spectrum changes due to the absorption of radiation by water at wavelengths 1.45, 1.95, 2.95 μm and transformer oil at wavelengths 1.73 and 3.42 μm. Absorption at the indicated wavelengths is compared to a reference wavelength of 1.6 μm; the obtained spectrum is transmitted to the receiving fiber assembly (4) from where it comes through optical filters (5) of the corresponding wavelengths to the radiation receivers (6) Lms25PD-05 and Lms36PD-05, and the photodetectors of the first type correspond to IR radiation up to 2 μm, the second - more than 2 microns. The millivolt signal output from the photodetectors is amplified in the processing unit (7) to volt values and, after passing through the ADC, is mathematically recalculated into the values of the water content in the transformer oil with an accuracy of 0.1 vol.%.

The technical result of the invention is achieved by measuring the amount of moisture in the oil using a submersible fiber-optic channel, which allows the signal processing unit to be removed outside the area of exposure to strong electromagnetic interference of the transformer. The use of infrared spectroscopy in the wavelength range from 1.45 to 3.42 μm is possible due to the combination of silica-based fibers, transparent from 0.2 to 2.0 μm, and based on silver halides, transparent from 2.0 to 15, 0 microns. The presence of a larger number of peaks of water and oil absorption than in the prototype allows increasing the measurement accuracy to 0.1 vol.%. Fiber optic assembly and ATR cone made of

- 2,038,299 dielectric materials that do not react to high currents and / or transformer voltages. In addition, in comparison with the prototype, the fiber-optic sensor for determining the amount of moisture does not require taking a sample into the measuring cell due to the presence of an ATR-cone immersion element, which allows continuous monitoring of the moisture content, limited only by the frequency of signal processing.

Claims (1)

CLAIM Infrared fiber-optic sensor in the 1.45-3.42 μm range for determining the amount of moisture in transformer oil, including a broad-range IR source, optical filters that emit characteristic water absorption peaks, IR photodetectors, and a signal processing and output unit information on the content of the amount of moisture in oil, characterized by the use of a fiber-optic assembly made in the form of transmitting and receiving assemblies, each of which contains six channels, containing in each channel at least 300 fibers with a diameter of 100 microns, four of which are made of fibers based on quartz, transparent in the range from 0.2 to 2.0 microns, two - on the basis of silver halides of the AgCl-AgBr system, transparent from 2.0 to 15.0 microns, and a cone of disturbed total internal reflection, brought into direct contact with the measured medium and made of zinc selenide, with a base diameter of 13 mm and an angle between the base and the generatrix of 45 °, at than the specified cone is installed on the free ends of the transmitting and receiving assemblies.