RU177199U1 - OIL TRANSFORMER COOLING UNIT WITH ELECTRIC CLEANING FILTER - Google Patents

Abstract

The utility model relates to the field of electrical engineering and energy and is intended for cooling power oil transformers with subsequent purification of SF6 in the electric filter. The objective of the utility model is to increase the efficiency of cleaning SF6 from oil in power oil transformers. Installation for cooling an oil transformer with an electric cleaning filter, containing a series-connected tank filled with SF6 gas, a compressor connected to an electric energy source, a tank with mineral oil, tubes with distributor valves evenly located on them, located at the bottom of the tank, an expansion tank , an electric filter connected to an electric energy source, an absorber, a refrigerator, a temperature sensor located directly in the zone of the transformer winding, a block control, the input of which is connected to the output of the temperature sensor, and the outputs are connected to the control inputs of the compressor and the refrigerator, while at the input of the electric filter there is a one-way valve and an oil pan.

Description

The utility model relates to the field of electrical engineering and energy and is intended for cooling power oil transformers with subsequent purification of SF6 in the electric filter.

An installation for cooling an oil transformer [Khismatullin AS, Bashirov MG, Khusnutdinova IG The use of bubbling in the cooling system of power transformers // Transport and storage of petroleum products and hydrocarbons, 2014, No. 3, p. 29-32 URL: http://elibrary.ru/item.asp?id=22660330]. This installation contains a tank filled with SF6 gas, a compressor, an electric energy source, a supplying compressor, tubes with distributing valves evenly located on them located in the lower part of the tank, an expansion tank, and fine and coarse filters. To cool the oil in the transformer, SF6 sparging is used.

Closest to the claimed technical solution is the installation for cooling the oil transformer (patent No. 167206, publ. 12/27/2016). The installation for cooling an oil transformer contains in series a tube filled with SF6 gas, a compressor connected to an electric energy source, a tank with mineral oil, tubes with distributor valves evenly spaced on them, an expansion tank, coarse and fine filters, and a refrigerator (thermoelectric module), a temperature sensor located directly in the area of the transformer winding, a control unit, the input of which is connected to the output of the temperature sensor, and the outputs are connected to the control inputs of the compressor and the refrigerator.

The disadvantages of this technical solution are the low degree of purification of SF6 from oil in the coarse filter, as well as the rapid contamination of the filters, which leads to a stop of the transformer due to the need to change the filters.

The objective of the utility model is to develop a new installation for cooling an oil transformer with an electric filter for cleaning SF6 gas with the achievement of the following technical result: increasing the efficiency of cleaning SF6 from oil in power oil transformers, while there is no need for a constant filter change.

The solution to this problem is an installation for cooling an oil transformer, containing a series-connected tank filled with SF6 gas, a compressor connected to an electric energy source, a tank with mineral oil, tubes with distributor valves evenly located on them, located in the lower part of the tank, an expansion tank , an electric filter connected to an electric energy source, an absorber, a refrigerator connected to a control unit, a temperature sensor located directly but in the transformer winding zone, a control unit having an input connected to the output of the temperature sensor, and outputs connected to control inputs of the compressor and the refrigerator, thus to input of the electric filter are located one-way valve and the oil pan.

The electric filter is a corona electrode system in the form of a thin plate in the form of a dome, inside which are located the precipitation electrodes made in the form of thin wires. At the inlet of the electrostatic precipitator there is an oil pan having the shape of a cut cone.

The essence of the utility model is presented in the figure.

The installation for cooling the oil transformer contains series-connected tubes 1 filled with SF6 gas, a compressor 2 connected to an electric energy source, a tank 3 with mineral oil 4, tubes with distributor valves 5 evenly spaced on them, an expansion tank 6, an electric filter 7 , absorber 8, refrigerator 9, temperature sensor 10, located directly in the area of the transformer winding 11, a control unit 12, the input of which is connected to the output of the temperature sensor 10, and the outputs under connected to the control inputs of the compressor 2 and the refrigerator 9. In this case, the electric filter consists of a corona electrode 14 and precipitation electrodes 15, at the input of the electric filter there is a one-way valve 13 and an oil pan 16.

From the tank 1, SF6 gas is supplied to the tank 3 by distributor valves 5. A transformer oil with circulating SF6 gas carries out heat removal from the windings of the transformer 11. SF6 gas bubbles floating up in the transformer oil 4 carry particles of oil that are sequentially separated from the SF6 gas the expansion tank 6, in the electric filter 7 and in the absorber 8, the remaining oil is absorbed by absorbents. Then the SF6 gas is cooled in the refrigerator 9 and goes back to the tank 1 with SF6 gas. A temperature sensor 10 is installed directly in the location zone of the transformer winding 11, the output of which is connected to the input of the control unit 12. When the transformer windings 11 are heated above the set value, the control unit 12 provides activation signals to the control inputs of the compressor 2 and the refrigerator 9, when the temperature of the transformer windings 11 decreases below the set value, the control unit 12 provides shutdown signals to the control inputs of the compressor 2 and the refrigerator 9. The cleaning of the gas in the electrostatic precipitator occurs as follows at once. SF6 gas bubbles with droplets of oil enter the electrostatic precipitator 7 through a one-way valve 13. Drops of oil, striking the negative corona-shaped dome-shaped electrode 14, receive a negative charge, settle on positively charged precipitation electrodes 15, flow into the oil sump 16 under the influence of gravity and then back to the tank 3 .

This cooling system makes it possible to improve the purification of the exhaust gas due to the electric filter.

Claims (3)

1. Installation for cooling an oil transformer with an electric cleaning filter, containing a series-connected tank filled with SF6 gas, a compressor connected to an electric energy source, a tank with mineral oil, tubes with distributor valves evenly located on them, located in the lower part of the tank, tank - expander, an electric filter connected to an electric energy source, an absorber, a refrigerator connected to a control unit, a temperature sensor located directly zone of the transformer, a control unit having an input connected to the output of the temperature sensor, and outputs connected to control inputs of the compressor and the refrigerator, thus to input of the electric filter are located one-way valve and the oil pan. 2. Installation according to claim 1, characterized in that the corona electrode is made in the form of a thin plate having the shape of a dome; 3. Installation according to claim 1, characterized in that the oil pan located in the electric filter has the shape of a cut cone.

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