RU2299331C1 - Plant for preparing shaft methane for utilization - Google Patents

Abstract

FIELD: coal industry, possible use for preparing shaft methane for utilization by various consumers.

SUBSTANCE: plant for preparing shaft methane for utilization contains vacuum-pump, moisture separator, devices for monitoring content of methane in gas mixture and pressure with mixer, devices for protection from emergency modes, gas mixture and drawn-out gas feeding pipelines and systems for monitoring methane concentration with gas analyzer and gas concentration controller, primary damping vessel, mounted in line for feeding drawn-out gas in front of mixer, secondary damping vessel, mounted after the mixer in line for feeding gas mixture to consumer, input pipeline with air intake. Plant is provided with additional gas analyzer, connected to gas concentration controller, filter for wet cleaning of gas, mounted between vacuum-pump and moisture separator, and odorant, connected to mixer and gas concentration controller by means of controlling valve. Mounted on input pipeline between air intake and mixer are pressure controller-stabilizer, additional controlling valves and cutoff valve.

EFFECT: improved quality of gas composition at output of plant by means of ensuring its stabilization, increased lifetime of equipment and increased safety of plant operation.

1 dwg

Description

The invention relates to the coal industry and can be used in the preparation of coal mine methane for disposal by various consumers.

A known degassing installation consisting of a suction gas pipeline, a vacuum pump, a water separator, electric valves, a droplet eliminator, a discharge gas pipeline, a pressure drop alarm, an overpressure valve, a shut-off valve, gas analyzers, a control system control unit, and methane-air mixture supply pipelines to a consumer (see, for example, Guidelines for the degassing of coal mines, M., Nedra, 1975, p.166).

The installation described above delivers the methane-air mixture to consumers (boiler houses) only if the methane content in the gas mixture collected from the mine is more than 30%.

In addition, the installation is devoid of devices that could ensure the constancy of the composition of the gas mixture supplied to the consumer. This reduces the efficiency of gas fuel use and safety (burning occurs either with a large excess of air, or with its lack, the flame of the burner can be extinguished).

There is also known an installation, including a vacuum pump, apparatus for drying gas, a device for monitoring the methane content in the gas mixture and pressure with a mixer, emergency protection devices, pipelines for supplying the gas mixture and trapped gas to the consumer, and a methane concentration control system with a gas analyzer (see ., for example, Airuni AT, et al. Use of Captured Methane in Coal Mines Abroad, Moscow, TsNIIEIugol, 1970, pp. 15-30).

This installation can provide a given composition of the gas mixture supplied to the consumer, but provided that the trapped gas has a constant composition, since stabilization in the mixture is based on maintaining a predetermined ratio of the consumption of trapped and natural gas (air). With a change in the composition of the trapped gas, composition changes occur at the outlet of the stabilizing station, since changes in the composition of the trapped gas can occur at an unchanged flow rate. This installation is designed to ensure that the captured mixture is pre-stabilized in composition, for example, by displacing a methane-air mixture from several mines.

The closest in technical essence and the achieved technical result is a degassing installation containing a vacuum pump, a moisture separator, a device for monitoring the methane content in the gas mixture and pressure with a mixer, emergency protection devices, gas mixture and trapped gas supply pipelines and concentration control systems methane with a gas analyzer and a gas concentration regulator, a primary damping tank installed in the feed gas line in front of the mixer, and a second hydrochloric damping capacity is arranged downstream of the mixer in the feed line to the consumer and the gas mixture inlet conduit with an air inlet (see., e.g., description in AS №767363, cl. E21F 7/00, published. 1980 YG).

The described installation is not applicable in cases where the methane content in the captured methane-air mixture is more than 40%. Reducing and stabilizing the concentration of methane with its help is impossible.

In many existing mines where degassing is underway, methane-air mixtures with a methane content of more than 40% are collected, which are not used, but are released into the atmosphere, polluting it.

The technical result expected from the use of the present invention is to improve the quality of the gas composition at the outlet of the installation by ensuring its stabilization, increasing the life of the equipment and increasing the safety of operation of the installation.

The specified technical result is achieved by the fact that the installation for preparing mine methane for disposal, containing a vacuum pump, a moisture separator, a system for monitoring methane content in the gas mixture and pressure with a mixer, an emergency protection system, pipelines for supplying the gas mixture and trapped gas and a system regulation of methane concentration with a primary gas analyzer and gas concentration regulator, a primary damping tank installed in the supply line of the trapped gas in front of the mixer, and a second a damping tank installed after the mixer in the gas mixture supply line to the consumer and an inlet pipe with an air intake, characterized in that the installation is equipped with a secondary gas analyzer connected to a gas concentration regulator, a wet gas purification filter installed between the vacuum pump and the water separator, odorizer, connected to the mixer and the gas concentration regulator by means of a control valve, while at the inlet pipe between the air intake and the mixer the regulators are installed OP-pressure stabilizer, additional control valves and shut-off valve.

The invention is illustrated in the drawing, which shows a functional diagram of the installation for the preparation of mine methane for disposal.

The installation comprises a vacuum pump 1, connected on the one hand to the suction pipe 2, and on the other to the discharge pipe 3, a moisture separator 4 located in the discharge pipe 3 after the vacuum pump 1, a pressure regulator 5 installed in the pipe 6 connecting the discharge a gas pipeline 3 with a “candle” 7, a regulating valve 8 on the “candle” 7, a controlled valve 9 in the injection gas pipeline 3, a pipeline 10 for supplying a stabilized mixture to the consumer, a shut-off valve 11 in the pipeline 10, a consumer of mine Tana 12, the control unit 13 of the protection system, the gas analyzer 14 of the protection system, and the pressure switch 15, connected to the pipeline 10 and transmitting information to the control unit 13 of the protection system, stabilizing station, consisting of a number of elements: inlet pipe 16 methane-air mixture connected to the gas pipeline 3 behind the controlled valve 9, the shutoff valve 17 of the stabilizing station, the primary damping tank 18, which is connected through the adjustable valve 19 to the mixer 20, the gas concentration regulator 21 and the primary m gas analyzer 22. The outlet pipe 23 connected to the secondary damping tank 24. The air intake 25, which through the inlet pipe (air pipe) 26 is connected to the mixer 20. Between the vacuum pump 1 and the moisture separator 4 is installed a filter 27 for wet gas cleaning, odor 28, connected through an additional adjustable valve 33 with a mixer 20. The primary gas analyzer 22 and the secondary gas analyzer 29 are connected to the gas concentration regulator 21. On the inlet pipe (air pipe) 26 between the air intake 25 and the mixer 20, a shut-off valve 30, a pressure regulator-stabilizer 31, and additional control valves 32, 33 are installed.

The control unit 13 of the protection system, the shut-off valve 11, the shut-off valve 17 of the stabilizing station, the odorizer 28, the shut-off valve 30, the gas analyzer 14 of the protection system, the pressure switch 15, the control valve 8, the adjustable valve 9 and the wet filter 27 are a protection system from emergency conditions.

The pressure regulator 5 and pressure regulator-stabilizer 31 is a system for monitoring the methane content in the gas mixture and pressure.

The gas concentration regulator 21, the primary gas analyzer 22 of the gas concentration regulator, the secondary gas analyzer 29 are a methane concentration control system.

Installation works as follows. The vacuum pump 1 through gas line 2 draws the methane-air mixture from the mine and delivers it to the discharge gas line 3, where coal and rock dust, as well as condensed moisture, are respectively separated in the wet filter 27 and moisture separator 4. The purified and drained gas through an open controlled valve 9 is directed to a stabilizing (gas preparation) station, in which the captured methane-air mixture enters the mixer 20 through the inlet pipe 16 through an open shutoff valve 17 of the stabilizing station, the primary damping tank 18 and an adjustable valve 19 mixing it with air coming from the atmosphere through the air intake 25, open shut-off valve 30, pressure regulator-stabilizer 31, open additional controlled air buckle 32 and the inlet duct (air duct) 26. The mixer 20 from odoratora 28 via a further regulating valve 33 enters the odorant mixture to impart specific odor methane.

After the mixer, the methane-air mixture through the pipe 23 through the secondary damping tank 24 enters the pipe 10 and then through the shut-off valve 11 is sent to the consumer of mine methane 12 (boiler furnace).

The pressure in the discharge pipe 3 is maintained within the specified limits using the pressure regulator 5 by changing the flow rate of the trapped gas through the pipe 6 into the “candle” 7 by a control valve 8.

The pressure in the inlet pipe 26, the mixer 20, the outlet pipe 23 is maintained within the specified limits using the pressure regulator-stabilizer 31.

The methane concentration in the methane-air mixture in pipelines 23 and 10 is maintained within the specified limits (not more than 45%) using the primary gas analyzer 22 of the gas concentration regulator and the secondary gas analyzer 29, the gas concentration regulator 21 and an additional control valve 32, which are correspondingly (proportional to the deviation of the actual the concentration of methane in the methane-air mixture from a given) change the air supply to the trapped methane-air mixture in the mixer 20.

When the methane concentration increases above 45% or the pressure of the set limits is turned off, the gas analyzer 14 of the protection system and the pressure signaling device 15 transmit this information to the protection system control unit 13. As a result, shut-off valves 17, 30 and 11, valves 8 and 9 are closed, the work of the stabilizing gas treatment station stops.

The primary damping tank 18 in the feed line of the captive gas to the gas mixer 20 slows down the process of changing the methane content in the captive gas in front of the mixer. Therefore, at the mixer output, the process of changing the methane content also slows down.

This allows the primary and secondary gas analyzers 22 and 29 and the gas concentration regulator 21 to timely control the control valves 19 and 32 and to provide a constant predetermined methane content at the outlet of the mixer 20.

The secondary damping tank 24 smoothes out the fluctuations in the methane content in the methane-air mixture leaving the mixer 20 in the pipeline 10 that occur during regulation, which eliminates a decrease in the methane concentration of less than 40% in the methane-air mixture supplied to the consumer, and the operation of the protection system control unit 13, which receives a signal from the gas analyzer 14 of the protection system, despite a short-term decrease in the methane content below 40% or an increase of more than 45% in the gas mixture after the mixer 20 before the secondary damping capacity 24.

To increase the safety of the installation allows the presence of an odor 28 controlled by the gas concentration regulator 21 by means of an additional control valve 33.

The presence of the filter 27 wet gas purification can improve the quality of the methane-air mixture and increase the safety of the installation, since the filter 27 wet gas purification simultaneously performs the function of a flame arrester.

Claims (1)

Installation for preparing mine methane for utilization, containing a vacuum pump, a moisture separator, a system for monitoring the methane content in the gas mixture and pressure with a mixer, an emergency protection system, pipelines for supplying the gas mixture and trapped gas and a methane concentration control system with a primary gas analyzer and gas concentration regulator, the primary damping tank installed in the feed line of the trapped gas in front of the mixer, and the secondary damping tank installed after the mixture eating in the supply line of the gas mixture to the consumer, and an inlet pipe with an air intake, characterized in that the installation is equipped with a secondary gas analyzer connected to a gas concentration regulator, a wet gas purification filter installed between the vacuum pump and the moisture separator, an odorator connected to the mixer and the concentration regulator gas by means of a regulating valve, while a pressure regulator-stabilizer is installed on the inlet pipe between the air intake and the mixer, additional regulating e gate valves and shut-off valve.