RU2670815C9 - Installation for intensification of the gas flow of metro-coal wells - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: invention relates to the field of production of methane from coal seams, in particular to installations for the intensification of gas inflow. Installation includes a vacuum water ring pump installed on the gas pipeline, a gas separator, a monovacuummeter, a flow meter, ball valves and an adjustable choke. Using monovacuummeter control the pressure of the incoming gas. Water piping is connected to the inlet of the vacuum ring pump. Water is supplied to a water-cooled vacuum pump from a metro-coal well through water pipelines. Flow meter and a pressure gauge are installed on one water pipeline, and a flow meter, pressure gauge and ball valves are installed on the other. Water pipeline is connected to the outlet of the gas separator, through which water from the gas separator enters the barn.

EFFECT: technical result of the claimed invention is to simplify the design of the installation for the intensification of gas inflow in metro-coal wells, as well as to increase the production rate of the methanol-coal well.

1 cl, 1 dwg

Description

The invention relates to the field of methane production from coal seams, in particular to installations for intensifying the flow of gas.

Closest to the technical nature of the claimed invention is a unit for the preparation of a methane-air mixture (patent No. 67181 U1, IPC E21F 7/00, C09C 1/50, publ. 10.10.2007, bull. 28). The MVS is selected from the surface mine pipeline using several vacuum liquid ring pumps (BBH), which are able to forcibly pump the methane-air mixture from the surface mine pipeline, and then direct it to the gas separator under some excess pressure. The gas separator has an inlet and two outlet branches: the upper one for gas, the lower one for condensate. Before the inlet outlet of the gas separator, a locking unit and a manometer are installed. The upper outlet tap of the gas separator is connected to the output manifold via a locking unit.

The disadvantage of the installation is the presence in its composition of a large number of complex devices.

The technical result of the claimed utility model is to simplify the design of the installation for intensifying the gas inflow of methanol wells, as well as increasing the production rate of the methane coal well.

The specified technical result is achieved by the fact that in the installation for intensifying the gas inflow of methanol wells, including a gas pipeline, with a vacuum liquid ring pump and a gas separator installed on it with a water pipe connected to it, according to the invention, a water pipe connected from the coal angle is connected to the vacuum liquid ring pump wells and providing a constant temperature water supply for continuous operation and cooling of the vacuum ring pump, and to one a water pipeline is connected from the exits of the gas separator through which water is discharged into the barn.

The invention is illustrated by the drawing, which shows the technological scheme of the installation for the intensification of gas inflow of methanol wells.

The installation for intensifying the gas inflow of coal wells includes a vacuum ring pump 2, a gas separator 3, a monovacuum meter 4, a flowmeter 5, ball valves 6, 7 and an adjustable choke 8 installed on the gas pipeline 1. Using the monovacuum meter 4, the pressure of the incoming gas is monitored. A water pipeline 9 is connected to the inlet of the vacuum ring pump 2. Water is supplied to the vacuum ring pump 2 from a methane hole through a water pipe 9, 10. A flow meter 11 and a pressure gauge 12 are installed on the water pipeline 9, and a flow meter 13 is installed on the water pipe 10, a pressure gauge 14 and ball valves 15, 16, 17. A water pipe 18 is connected to the outlet of the gas separator 3, through which water from the gas separator 3 enters the water pipe 9 and then into the barn.

Installation works as follows.

When using the installation for intensifying the flow of gas from methane wells, ball valves 15, 17, 7, 6 are opened, while the ball valve 16 is partially closed to ensure the required flow rate and pressure in the water pipeline 9. The vacuum ring pump 2 pumps gas from the methane coal well, which passes through the pipeline gas 1 enters the vacuum ring pump 2. Simultaneously with this process, constant temperature water is supplied to the vacuum liquid ring pump 2 through water pipelines 9, 10 to ensure operation and cooling vacuum vacuum ring pump 2. After that, the gas-liquid mixture under excess pressure exceeding the linear pressure in the gas pipeline going to the gas pre-treatment unit (UPPG) is sent to the gas separator 3, where the gas and water are separated, while the gas through the flow meter 5 enters through gas pipeline 1 to UPPG, and water through water pipelines 18, 10 is sent to the barn.

Due to the creation of a vacuum with the help of a vacuum ring pump, the depression on the coal seam increases and the gas production rate of a methane-coal well increases, and due to the constant supply of water of the required temperature, the vacuum ring pump is continuously operated and cooled.

Thus, the design is simplified by eliminating complex devices and increasing the production rate of a methane-coal well by creating a vacuum using a vacuum ring pump.

Claims (1)

Installation for intensifying gas inflow of methane-gas wells, including a gas pipeline with a vacuum ring pump and a gas separator installed in series on it, characterized in that the pump contains two inlets, one of which is connected to a gas pipeline passing from a methane-gas well, and to the second - a pipeline water, also coming from a methane-coal well and providing constant-temperature water for continuous operation and cooling of a vacuum ring pump, you the pump stroke is connected by a pipeline to a gas separator, which contains two outlets, one of which is connected to a gas pipeline for supplying gas to a gas pre-treatment unit (UPPG), and the second outlet is connected to a water pipeline to discharge it into the barn.

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