KR20160054248A - Insulation gas refining apparatus and method of live wire condition - Google Patents

Abstract

The present invention relates to an apparatus and a method for refining insulation gas in a live wire state which is capable of maintaining a constant amount of insulation gas in a power device in a live wire state by discharging and injecting a constant amount of insulation gas so that the stability of a power device performing a refining operation is secured. According to the present invention, provided is an apparatus for refining insulation gas in a live wire state, which includes: a valve unit (10) connected to a power device (E) in a live wire state to control an input and output of insulation gas and a flowing passage; an analyzing unit (20) connected to the valve unit (10) to analyze the composition and temperature of insulation gas; a constant amount input/output unit (30) connected to the valve unit (10) and the analyzing unit (20) to discharge and inject a constant amount of insulation gas with reference to the temperature measured by the analyzing unit (20); and a refining unit (40) connected to the constant amount input/output unit (30) to refine the insulation gas.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an insulated gas refining apparatus and method,

The present invention relates to an apparatus and method for insulated gas purification in a live state, and more particularly, to an apparatus and method for insulated gas in a live-state power device, The present invention relates to an insulated gas purification apparatus and method in a live-line state capable of securing mechanical and electrical stability for electric power equipment during a refining process by keeping the amount of gas within a constant range.

Generally, electric power equipment such as ground transformers or ground switches installed on the ground or outdoors to supply electric power is filled with insulating gas to protect the insulated parts inside the equipment. Normally, SF ₆ (hexafluorine) It is used as gas.

However, as the insulating gas used in electric power equipment is deteriorated in purity due to the contamination of foreign substances and gases hydrolyzed from SF ₆ gas and other gases in the device over time, the insulating effect is degraded. Is limited to a device that can not purify an insulated gas which is less than the standard that can ensure the electrical stability of the power device due to a decrease in the dielectric strength and can secure the dielectric strength by replacing the insulated gas in use with a new high purity insulated gas will be.

In view of this, in some parts, the recovered gas is recycled through the process of filtering out the old insulation gas, so that the gas classified as greenhouse gas is not discharged to the outside, and a recovery device for improving the utilization of resources by recycling gas is developed Hereinafter, an example of such an apparatus for recovering insulated gas and a method of recovering the insulated gas will be briefly described.

Such a conventional insulated gas recovery apparatus generally comprises a recovery tank for filling insulation gas discharged from an electric power machine and a filter connected to the recovery tank for filtering impurities contained in the insulation gas.

However, in the conventional insulated-gas recovery apparatus, since the recovery tank for recovering the insulated gas discharged from the power equipment and the filter for filtering the impurities are separately provided, the process of recovering the insulated gas is multi- There is a problem that the overall configuration of the apparatus including the connecting line and the valve is complicated.

Also, the conventional method of reinforcing dielectric strength by such devices is controlled to recover the insulated gas to the recovery tank up to a preset pressure threshold in the power equipment because it is based on the pressure value to recover the insulated gas, There is a possibility that the pressure fluctuation of the insulated gas may be generated depending on the temperature. Therefore, the accuracy of the recovered quantity due to the insufficient amount of the insulated gas recovered from the power device may be deteriorated.

Korean Registered Patent Publication (No. 10-1315995)

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a method and apparatus for compensating for a certain amount of insulated gas discharged from an electric power equipment by a simple structure, The present invention provides an apparatus for supplying electric power to a power device, which is capable of securing the stability of an electric power device performing a refining operation in a live state by keeping the amount of insulated gas charged in a live electric device constant, Apparatus and method.

According to an aspect of the present invention, there is provided a power supply system including: a valve unit connected to a live electric power machine to control an inflow and outflow of insulated gas;

An analysis unit (20) connected to the valve unit (10) for analyzing the composition and temperature of the insulating gas;

A quantitative flow-in / out unit (30) connected to the valve unit (10) and the analysis unit (20) for quantitatively discharging and injecting a certain amount of insulating gas based on a temperature measured by the analysis unit (20);

And a purification unit (40) connected to the fixed flow-in / out unit (30) and configured to purify the insulated gas.

According to another aspect of the present invention, the quantitative flow-in / out unit 30 includes a fixed amount discharge pump 32 for supplying a predetermined amount of insulating gas discharged from the electric power unit E to the purification unit 40 side, A secondary metering pump 31 composed of a metering pump 33 for injecting an insulating gas into the power device E side in correspondence with the amount of the insulating gas discharged by the metering pump 32 in conjunction with the pump 32 The present invention also provides an insulated gas purification apparatus in a live-line state.

According to another aspect of the present invention, the valve unit 10, the analysis unit 20, the quantitative inflow / outflow unit 30 and the purification unit 40 are connected to be controlled by the control unit 50, (50) comprises an input control unit (53) for receiving data on the composition and temperature of the insulated gas analyzed or measured by the analysis unit, and an input control unit An output control unit 54 for controlling the operation of the constant flow output unit 30 according to the calculation result by the central operation unit 54, And a display unit (51) adapted to display a plurality of the insulated gas.

According to a further feature of the present invention, the purification unit (40) comprises a liquefied purification device (42) adapted to liquefy the insulated gas to separate the impurity gas contained in the insulated gas. A gas purification apparatus is provided.

According to still another aspect of the present invention, there is provided a method of controlling an electric vehicle including the steps of: (S20) measuring the composition and temperature of an insulating gas by discharging an insulating gas from a power device E in a live state;

(S30) of discharging a predetermined amount of insulating gas based on the temperature measured in the previous stage;

(S40) of purifying the insulated gas so as to remove water, sludge and impure gas from the insulated gas discharged from the previous stage;

(S50) injecting insulated gas corresponding to the amount of insulated gas discharged from the previous stage by injecting purified insulated gas in the previous stage into the power device (E) side, A purification method is provided.

As described above, according to the present invention, after the analysis of the composition and the temperature of the insulating gas by the analysis unit 20, a predetermined amount of the insulated gas is discharged and injected at a temperature reference measured by the analysis unit 20 The flow rate of the insulated gas in the electric power unit E for maintaining the live state is maintained at a predetermined amount by determining the discharge amount based on the temperature based on the real time temperature measurement of the insulating gas in the electric power unit E And it is also advantageous in that the mechanical and electrical stability of the power device E in a live state during the refining operation can be ensured.

The present invention also relates to a constant amount discharge pump 32 for discharging a predetermined amount of insulating gas from the electric power machine E and a fixed quantity injection pump 32 for interlocking with the fixed quantity discharge pump 32 and injecting an insulating gas into the electric equipment E side. And a secondary metering pump 31 which is composed of a secondary metering pump 33 and a secondary metering pump 31 capable of metering and discharging the insulated gas in a fixed amount, It is possible to increase the reliability of the operation of the metered dose discharge and the metered dose injection.

Further, the present invention is not only capable of separating the impurity gas remaining in the gaseous state by liquefying the insulating gas by the liquefying and purifying device (42) by including the purifying unit (40) including the liquefying and purifying device (42) As a result, it is possible to simplify the operation of filtering the impurity gas contained in the insulating gas and to improve the purification effect on the insulating gas.

1 is a block diagram illustrating an apparatus according to an embodiment of the present invention.
Figure 2 is a block diagram illustrating a refining sequence in accordance with one embodiment of the present invention.

The objects, features and advantages of the present invention will become more apparent from the following detailed description. Hereinafter, description will be made with reference to the accompanying drawings.

1 and 2 illustrate a preferred embodiment of the present invention. As shown in FIG. 1, the insulated gas refining apparatus of the present invention is provided with a valve unit 10 connected to an electric power machine E so that an insulated gas can flow in and out, and the valve unit 10 is provided with an insulating gas And an analysis unit 20 adapted to analyze and measure the composition and temperature of the sample.

The valve unit 10 and the analysis unit 20 are connected to a quantitative flow-in / out unit 30 for quantitatively discharging or injecting insulated gas. The constant flow-in / out unit 30 is provided with a purification unit And a control unit 50 connected to the control unit 40 for controlling the operation of the apparatus including the above-described configuration as a whole. The detailed configuration and operation will now be described.

The valve unit 10 includes an inlet and outlet three-way valve 11 for discharging an insulating gas from the electric power unit E or injecting an insulating gas into the electric power unit E, And an analysis three-way valve (12) for bypassing the insulating gas to the analysis unit (20) side. The opening and closing operations of the valve unit (10) are controlled by an electrically connected control unit Respectively.

The inlet and outlet three-way valve 11 is located on a main line composed of a discharge line R1 and an injection line R3 between which the insulating gas flows between the electric power unit E and the fixed amount discharge unit 30 , And the analysis three-way valve (12) is disposed on the bypass line (R2) branched to the main line.

The analysis unit 20 is further comprised of a gas meter 21 connected to the bypass line R2 for measuring the composition of the insulated gas and a temperature meter 22 for measuring the temperature of the insulated gas, The insulating gas that has passed through the analyzing unit 20 is discharged to the purification unit 40 through the quantitative discharge pump 32 after measuring the composition and temperature of the gas. The analysis of the composition or the measurement of the temperature is also performed when insulated gas is injected into the power device E as well as when the insulated gas is discharged from the power device E.

The quantitative flow-in / out unit 30 supplies a certain amount controlled by the control unit 50 when supplying the insulated gas passed through the valve unit 10 and the analysis unit 20 to the purification unit 40 side At the same time, the insulated gas purified in the purification unit (40) can be injected into the power device (E) in a predetermined amount.

The dual metering pump 31 may be provided as a dual metering pump 31 that allows the flow and discharge of the insulated gas by setting the discharge amount and the injection amount of the insulated gas to be constant. A fixed amount discharge pump 32 for supplying a predetermined amount of insulated gas discharged from the device E to the purifier unit 40 side and an insulated gas discharge port 32 connected to the discharge pump 33, And a fixed amount injecting pump 33 for injecting an insulating gas into the power device E side so as to correspond to the amount of the electric power.

Specifically, the fixed displacement pump 32 and the fixed displacement pump 33 are pumps having a constant volume, and are connected to each other such as a normal cylinder or a piston, so that when a certain amount of insulating gas flows into one cylinder The amount of the insulated gas corresponding to the amount of the insulated gas discharged by the other cylinder is discharged to the outlet of the fixed amount discharge pump 32 of the dual metering pump 31. The insulated gas is supplied to the purifying unit 40 side, And the pressure of the insulated gas pressurized by the purifier unit 40 is reduced at the inlet side of the dosing pump 33 so as to stably supply the power to the power device E), as shown in Fig.

The purifier unit 40 is for purifying the insulated gas discharged from the power device E and includes a foreign matter removing device 41 for removing moisture and sludge contained in the insulating gas, A liquefied refiner 42 disposed at the rear end of the device 41 for removing the impurity gas contained in the insulated gas and an impurity gas tank 43 connected to the liquefied refiner 42 for collecting the impurity gas , An injection tank 44 for filling the insulated gas purified by the liquid refining apparatus 42 and a replenishing tank 45 connected to the injection tank 44 and adapted to compensate for the new insulated gas .

The control unit 50 may include a display unit 51, a central operation unit 52, an input control unit 53, and an output control unit 54. Specifically, the control unit 50 controls the analysis unit 20, an input control unit 53 for receiving data on the composition and the temperature of the insulated gas analyzed or measured in accordance with the composition and temperature of the insulating gas according to the input values inputted to the input control unit 53, An output control unit 54 for controlling the operation of the constant flow-in / out unit 30 in accordance with the calculation result by the central operation unit 54, (51) for displaying the specification of the gas (E) or the composition and the temperature of the insulated gas analyzed by the analysis unit (20) or displaying the calculation process, the calculation result and the like by the central calculation unit .

The purification method by the purification apparatus according to the present invention will be described with reference to FIG. As shown in FIG. 2, the refining method using the insulated gas refining apparatus of the present invention is a method of refining an insulated gas charged in an electric power machine E and purifying the purified insulated gas into the electric power machine E (S10) for connecting the device to the power device (E), a step (S20) for measuring the composition and temperature of the insulated gas discharged from the power device (E), and (S30) of discharging a certain amount of insulating gas based on the temperature measured in the previous stage; (S40) of purifying the insulating gas so as to remove moisture, sludge and impure gas contained in the insulating gas discharged from the previous stage, and injecting the insulated gas purified in the previous stage into the electric power unit E (S50) .

Specifically, in the preparation operation step S10, the apparatus is connected to the gas inlet of the electric power machine E, and the specifications such as the maximum operating pressure of the electric machine E and the charged mass of the insulating gas are checked, ), As shown in FIG.

In step 20 of measuring the composition and temperature of the insulated gas, compositions such as the purity of the insulated gas discharged from the power device E, the water content and the impurity gas mixed therein are measured by the gas measuring device 21, And the temperature of the insulating gas is measured by the temperature measuring device 22. [

At this time, part of the insulating gas is discharged by the apparatus of the present invention in the operating state (live state) of the electric power machine E, and the valve unit 10 is operated in the discharge state by the control unit 50, The dual dosing pump 31 is operated and the insulating gas is discharged from the power device E.

In addition, the control unit 50 analyzes the composition of the insulated gas measured by the gas measuring device 21, displays and records the number of refining refinements, and thereby grasps the state of the insulated gas in real time, .

The temperature of the insulated gas inside the current electric appliance E in operation is measured by the temperature of the insulated gas measured by the temperature meter 22, which is measured by the control unit 50 22), calculates and displays the maximum mass of the insulated gas according to the current temperature, and after insulated gas is purified, insulates the insulated gas to meet the temperature condition measured by the temperature meter (22) (E), and it is determined by the control unit 50 whether or not the purity of the insulated gas, the number of times of refining according to the purity and the temperature condition are satisfied, .

In the subsequent step S30 of discharging the insulating gas, a certain amount of insulating gas is discharged from the electric power unit E by the fixed amount discharge pump 32 of the dual metering pump 31, Here, the discharge amount of the insulating gas corresponds to an extra amount excluding the insulated gas that can maintain the operating state of the electric power unit E, and in the present invention, the amount of discharged insulated gas by the dual dosing pump 31 Means that the mass (volume or volume) of the insulated gas is calculated and discharged in the temperature condition inside the electric power unit E in the operating state measured by the temperature measuring unit 22 in real time.

In the step S40 of purifying the insulating gas to remove moisture, sludge and impurities contained in the insulating gas discharged from the previous stage, the insulating gas supplied from the quantitative discharge pump 32 is passed through the dirt removing device 41 The moisture contained in the insulating gas, sludge and the like are primarily removed and supplied to the liquefied refinery 42 located at the rear end.

There is the return of impurity gas in the liquefied-purification unit 42 has impurity gas tank 43 to the impurity gas contained therein using a separated by the gas phase according to Sikkim liquefying the SF ₆ and the insulating gas by which SF ₆ (CF ₄ ) or sulfur dioxide (SO ₂ ) hydrolyzed from SF ₆ as compared with an insulated gas such as nitrogen or oxygen.

The purified insulated gas in the liquefied refiner 42 is charged into an injection tank 44 connected thereto and circulated for refining so as to maintain a purity level higher than a certain level under the control of the control unit 50, The insulated gas reaching the purity is injected into the power device E.

In step S50 of inserting the insulated gas purified in the previous stage into the electric power unit E, the insulated gas collected in the injection tank 44 is supplied to the inside of the electric power unit E under the control of the control unit 50 . At this time, a certain amount of insulating gas is injected by the dosing pump 33 of the dual dosing pump 31. The operation of injecting the insulating gas quantitatively by the dosing pump 33 is performed by the dosing pump 32 (E) according to the setting of the control unit (50) in a state in which the amount corresponding to the discharge amount of the metering pump (32) is sucked into the pump, 44 is less than the injection amount, the insolation gas is supplemented by the compensation tank 45 connected to the injection tank 44, so that the injection is performed.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventions. It will be apparent to those of ordinary skill in the art.

Claims (5)

A valve unit (10) connected to the live electric machine (E) to control the flow of the insulated gas and the flow path thereof;
An analysis unit (20) connected to the valve unit (10) for analyzing the composition and temperature of the insulating gas;
A quantitative flow-in / out unit (30) connected to the valve unit (10) and the analysis unit (20) for quantitatively discharging and injecting a certain amount of insulating gas based on a temperature measured by the analysis unit (20);
And a purification unit (40) connected to the constant flow-in / out unit (30) and configured to purify the insulated gas.
The apparatus according to claim 1, wherein the quantitative flow-in / out unit (30) includes a fixed amount discharge pump (32) for supplying a certain amount of insulating gas discharged from the electric power unit (E) to the purification unit (40) And a fixed amount injecting pump 33 for injecting an insulating gas into the electric power unit E side in correspondence with the amount of insulating gas discharged by the fixed amount discharging pump 32, Wherein the insulated gas is supplied to the insulated gas supply unit.
The control unit (50) according to any one of claims 1 to 3, wherein the valve unit (10), the analysis unit (20), the quantitative inflow / outflow unit (30) and the purification unit (40) The unit 50 includes an input control unit 53 for receiving data on the composition and the temperature of the insulated gas analyzed or measured by the analysis unit 53 and a control unit 53 for controlling the input control unit 53 in a quantitative manner An output control unit 54 for controlling the operation of the constant flow output unit 30 according to the result of the calculation by the central operation unit 54, And a display unit (51) adapted to display a result of the determination.
3. A method according to claim 1 or 2, characterized in that the purifying unit (40) comprises a liquefied refiner (42) adapted to liquefy the insulating gas to separate the impure gas contained in the insulated gas Insulated gas purifier.
(S20) of discharging the insulating gas from the power device (E) in a live state to measure the composition and temperature of the insulating gas;
(S30) of discharging a predetermined amount of insulating gas based on the temperature measured in the previous stage;
(S40) of purifying the insulated gas so as to remove water, sludge and impure gas from the insulated gas discharged from the previous stage;
(S50) injecting insulated gas corresponding to the amount of insulated gas discharged from the previous stage by injecting purified insulated gas in the previous stage into the power device (E) side, Refining method.

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