RU2667722C2 - Gas from the gas purification devices production method and device for its implementation - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: invention relates to the oil and gas production industry, in particular, to the gas cleaning units operation, and can be used in the gas production from purification devices, for example, of compressor stations. Gas from the gas purification device producing method is that the gas from the gas purification device is supplied into the gas distribution station pipeline, at that, the gas purification device is first switched off by closing the valves on both its sides, connecting the gas generation device from the gas purification devices, comprising the housing with inlet and outlet branch pipes, which is connected to the gas purification device outlet by the inlet branch pipe, and the outlet branch pipe is communicated with the environment, at that, at least one first and second shut-off valves are in series arranged in the housing, between which at least one outlet branch pipe is arranged, connected to shut-off valve by the pipeline, which is connected to the gas distribution station pipeline, opening the first shut-off valve and connected to the gas distribution station pipeline shut-off valve, closing the gas distribution station pipeline valve and, with the closed second shut-off valve, performing the gas generation from the purification device to the gas distribution station pipeline until creating the gas pressure of 0.7 MPa in the purification device, then closing the connected to the gas distribution station pipeline shut-off valve, opening the second shut-off valve and performing the gas production from the purification device until the atmospheric pressure creation therein.

EFFECT: enabling reduction in the discharged into the atmospheric air purified gas flow rate, increase in the gas production safety, preventing condensate and contaminants from entering the gas distribution station pipeline.

2 cl, 2 dwg

Description

The invention relates to the oil and gas industry, in particular to the operation of gas purification units, and can be used in the production of gas from purification devices, for example, compressor stations.

On gas pipelines as part of automated gas distribution stations (GDS), compressor stations (KS) and gas treatment points for gas turbine plants, gas treatment units are used to purify gas from mechanical impurities, droplet moisture and to separate condensate with its further removal to the condensate collection tank .

Gas purification units are manufactured on the basis of gas purification devices, for example, such as cyclone dust collectors, filter separators and filter driers.

It is known that the operation of installations of compressor stations, gas distribution stations is accompanied by emissions of natural gas and its combustion products into the atmospheric air.

Natural gas emissions into the air are carried out during routine operations during operation of its purification plants [1]:

- when bleeding natural gas from equipment during repairs, inspection of apparatus, vessels operating under pressure, emptying dust collectors;

- when purging devices and communications after an internal inspection,

- when purging dust collectors, devices with the displacement of liquids from them through condensate collection tanks, devices and communications, when putting them into operation, adjusting and setting.

Sources of gas emissions are purge candles of devices (dust collector, filters, contactors), spark plugs for starting and unloading gas pumping units, degassing candles, ventilation shafts, etc.

This leads to gas losses, environmental pollution and, therefore, affects the energy conservation, energy and environmental efficiency of the gas transportation system as a whole.

A number of measures are known [2], which provide for the optimization of the operating modes of gas pumping units of the compressor station of the gas transmission system with a decrease in the flow rate of gas discharged into the atmosphere. However, it should be borne in mind that not in all cases it is possible to achieve optimal indicators of gas transport, since there are limitations that are determined by the need for complex preventive maintenance, overhaul, maintenance and reconstruction of facilities.

In order to eliminate gas emissions into the atmosphere, it is possible to use the known method and device for purging gas purification units [3], selected as a prototype.

The method of purging gas purification units (dust collectors, filters, separators) is that high pressure purged gas is transferred from the gas purification unit (dust collector, filter, separator) through a drainage pipe to a closed condensate collector, after which gas from the condensate collector is fed through an equalization pipeline to low pressure outlet gas pipeline.

A device for purging gas purification units consists of an inlet pipeline of high-pressure gas distribution system with piping piping and taps, gas heaters, dust collectors (filters, separators) connected through drainage pipelines to a condensate collector with a candle line, and ending with gas pressure regulators with taps and piping piping, connected to the low-pressure outlet pipe starting with pressure regulators, and including a gas metering unit with piping and taps, an odorization unit aza with strapping and valves and connected to the inlet conduit through the high pressure bypass line with a valve and a valve, wherein the condensate through the equalizing pipe with a valve and a tap connected to the outlet conduit GDS low pressure.

When using the indicated method and device, the gas coming from the condenser collector in the communication after purging is not purified. Passing through the condenser collector, part of the condensate and contaminants, together with the gas, enter the low pressure pipeline of the gas distribution system, which can lead to failure and contamination of its equipment. Also, after purging, the gas in the condenser collector is under high pressure and, if the gas distribution system gets into the low pressure pipeline, it will cause water hammer, pipe destruction and damage to the main equipment.

The problem to which the invention is directed is to reduce losses during gas transportation, increase the safety of gas production from gas purification devices, and prevent condensate and contaminants from entering the pipeline of the gas distribution station and further to consumers.

The technical result is to reduce the consumption of purified gas, bleed into the atmosphere, increasing the safety of gas production from gas purification devices, preventing the ingress of condensate and contaminants into the pipeline of the gas distribution station.

The specified technical result is achieved by the fact that in the method of generating gas from gas purification devices, which consists in the fact that gas from gas purification devices is supplied to the pipeline of a gas distribution station, according to the invention, the gas purification device is first disconnected by shutting off taps on both sides of it, the device is connected gas production from gas purification devices, comprising a housing with inlet and outlet nozzles, which is connected by an inlet to the outlet of the gas purification device, and the outlet pipe is connected at the same time, at least the first and second stopcocks are installed in series in the housing, between which at least one outlet pipe is connected, connected by a pipeline to a stopcock, which is connected to the pipeline of a gas distribution station, the first stopcock is opened the valve and the stopcock connected to the pipeline of the gas distribution station, close the valve of the pipeline of the gas distribution station and, when the second shut-off valve is closed, produce (supply) ha from the purification device to the gas distribution station pipeline until the gas pressure in the purification device is created at 0.7 MPa, then the shut-off valve connected to the gas distribution station pipe is closed, the second shut-off valve is opened and gas is produced (supplied) from the purification device until atmospheric gas is created in it pressure.

The specified technical result is also achieved by the fact that the device for generating gas from gas purification devices, containing shut-off valves and a pipeline connected to the pipeline of a gas distribution station, according to the invention, comprises a housing with inlet and outlet nozzles, while at least at least one is installed in the housing in series , two shut-off valves, between which at least one outlet pipe is located, connected by a pipeline to a shut-off valve installed with the possibility of interaction with the pipe gadfly gas distribution station.

The invention is illustrated by figures. In FIG. 1 shows a device for generating gas from gas purification devices, FIG. 2 - schematically shows a compressor station with a device for generating gas from gas purification devices.

The essence of the method of generating gas from gas purification devices is as follows.

During the planned technical diagnosis or repair of gas purification devices (dust collector, separator or filter), gas is produced from it. To do this, turn off the gas purification device by shutting off the taps on both sides of it and connect the gas production device from the gas purification devices.

In this case, the installation of a gas generation device from gas purification devices comprising a housing with an inlet and outlet nozzles includes an inlet connection to the outlet of the purification device, and the outlet nozzle is connected to the environment, at least two shut-off valves are installed in series in the housing (first and second), between which at least one outlet pipe is located, connected by a pipeline to a stopcock, through which the device is connected to the gas distribution pipe th station.

The first shut-off valve is opened, and the shut-off valve connected to the pipeline of the gas distribution station is closed, the valve of the pipeline of the gas distribution station is closed, and when the second shut-off valve is closed, gas is produced from the purification device into the pipeline of the gas distribution station until the gas pressure in the purification device is 0.7 MPa, then closed a shut-off valve connected to the pipeline of the gas distribution station, open the second shut-off valve and carry out gas production from the purification device before creating I'm in it atmospheric pressure.

A device for generating gas from a gas purification device for implementing the above-described method comprises a housing with inlet and outlet nozzles, and at least two shut-off valves (first and second) in series, between which at least one outlet a pipe connected with a shut-off valve installed with the possibility of interaction with the pipeline of the gas distribution station.

The implementation of the claimed invention will be considered as an example of a method of generating gas during routine maintenance, for example, during the technical diagnosis of dust collectors of a compressor station, and a device for its implementation.

The device for generating gas from the gas purification device contains (Fig. 1) the first and second shut-off valves 1 and 2, respectively, mounted in series in the housing 3. On the one hand on the housing 3 there is an inlet pipe 4, on the other hand, an outlet pipe 5 communicating with the environment. Between the shut-off valves 1 and 2 in the housing 3 is a discharge pipe 6, connected by a pipe 7 with a shut-off valve 8, installed with the possibility of interaction with the pipeline of the gas distribution station.

Dust collectors 9, 10, 11, 12, 13, 14 are subject to technical diagnostics (Fig. 2).

During the operation of the compressor station, the gas through the inlet loop through the pipeline 15 with the open inlet taps 16, 17, 18, 19, 20, 21 enters the corresponding dust collectors 9, 10, 11, 12, 13, 14. They are cleaned and then through the pipeline with open outlet valves 22, 23, 24, 25, 26, 27 enters the output manifold 28 of the gas pumping unit. At the same time, the taps 29, 30, 31, 32, 33, 34 for removing condensate from the respective dust collectors 9, 10, 11, 12, 13, 14 installed on the pipeline connected to the condensate discharge tank 35 are closed. Gas flows from the gas pipeline 36 to the pipeline 37 of the gas distribution station with the valve 38 open.

When carrying out planned works on technical diagnostics, for example, a dust collector 9 of a compressor station, gas is produced from it.

In this case, the dust eliminator 9 is turned off. For this, the inlet valve 16, the outlet valve 22, and the condensate drain valve 29 of the dust eliminator 9 are closed. At the same time, gas is supplied to the gas distribution station via pipeline 36.

Next, the compressor station is equipped with a device for generating gas from a gas purification device (hereinafter the device). The inlet pipe 4 of the housing 3 of the device is connected to the outlet of the dust collector 9, and the outlet pipe 6 with the pipeline 7 and the shut-off valve 8 - with the pipe 37 of the gas distribution station. The output pipe 5 of the housing 3 of the device communicate with the environment. Shut-off valves 1, 2 and 8 of the device are closed. Overlap the valve 38 of the pipeline 37 of the gas distribution station. Open the stopcocks 1 and 8 of the device.

After performing these steps, gas is generated from the dust collector 9, which passes through the device body 3 with the shut-off valve 1 open and the shut-off valve 2 closed, through the outlet pipe 6 and the pipeline 7, with the shut-off valve 8 open, it enters the pipeline 37 of the gas distribution station.

In this case, the gas pressure in the dust collector 9 is controlled by, for example, a pressure gauge. Gas production from the dust collector 9, for example, with a volume of 36 m ³ , is carried out until it reaches a gas pressure of 0.7 MPa for 8-12 hours at a gas flow rate of 17-150 m ³ / h through the gas distribution station. Next, close the shut-off valve 8 of the device and open the valve 38 of the pipeline 37 of the gas distribution station.

Then the shut-off valve 2 of the device is opened, gas from the dust collector 9 passes through the pipe 5 of the housing 3 of the device, and the dust collector 9 is emptied until it reaches a gas pressure equal to atmospheric.

Next on the dust collector 9 carry out a technical diagnosis.

At the end of the work on the dust collector, close the shut-off valve 1, open the taps 16, 22, 29. Further gas purification in the compressor station is carried out by passing it through the dust collector 9. In this case, gas enters the pipeline 37 of the gas distribution station with its open valve 38 from the main pipeline 36 .

In a similar way, gas is generated from the rest of the dust collectors, in which the outlet of each of the dust collectors 10, 11, 12, 13, 14 is alternately connected to the inlet pipe 4 of the device body 3, the corresponding shut-off valves are opened / closed in the same manner as described above.

It is possible to use this method to produce gas from several dust collectors simultaneously. In this case, the housing 3 of the device contains several inlet pipes 4 and shut-off valves 1 with the possibility of connection with the dust collectors to be emptied. The number of specified inlet pipes and shutoff valves corresponds to the number of dust collectors (Fig. 2, indicated by the line (----). To increase the throughput in the device casing 3, several outlet pipes 6 are installed, the number of which is determined depending on the volume of gas passing through the housing 3 and the diameter of the piping 7.

The claimed invention can also be used to produce gas from other gas purification devices - filters, separators installed in gas distribution stations, gas pumping units and gas treatment points for gas turbine plants.

The use of the claimed invention improves energy saving and environmental efficiency of the gas transmission system.

Literature

1. Technical code of established practice of TCH 17.08-09-2008. Environmental protection and nature management. Atmosphere. Emissions of pollutants into the air. Rules for calculating emissions from main gas pipelines. Ministry of Nature. Minsk.

2. E.S. Ivanov Energy conservation, energy and environmental efficiency of gas trunk transportation. Oil and gas business. 2012, Volume 10, No 3, pp. 87-91.

3. RU 2460000 C2, IPC F16L 55/07, publ. 08/27/2012.

Claims (2)

1. The method of generating gas from a gas purification device, which consists in the fact that gas from a gas purification device is supplied to a pipeline of a gas distribution station, characterized in that the gas purification device is first turned off by shutting off taps 16, 22, 29 on both sides thereof, and a device is connected gas production from gas purification devices, comprising a housing 3 with an inlet 4 and an outlet 5 nozzles, which is connected by an inlet 4 to the outlet of the gas purification device, and the outlet 5 communicates with the environment, while e 3, at least two shut-off valves 1 and 2 are installed in series, between which at least one outlet pipe 6 is located, connected by a pipe 7 to a shut-off valve 8, which is connected to a pipe 37 of a gas distribution station, the first shut-off valve 1 is opened and the shut-off valve 8 connected to the pipeline 37 of the gas distribution station, close the valve 38 of the pipeline of the gas distribution station, and when the second shut-off valve 2 is closed, gas is produced from the purification device into the gas pipeline 37 aspredelitelnoy station to create a cleaning device 0.7 MPa of gas pressure, then closed shut-off valve 8 connected to the conduit 37 of the gas distribution station opens the second shut-off valve 2 and gas production is carried out from the purification apparatus to create a pressure therein to atmospheric. 2. A device for generating gas from gas purification devices, comprising stopcocks and a pipe connected to a gas distribution station pipe, characterized in that it comprises a housing 3 with an inlet 4 and an outlet 5 nozzles, while at least at least two shut-off valves 1 and 2, between which at least one outlet pipe 6 is located, connected by a pipeline 7 to a shut-off valve 8, installed with the possibility of interaction with the pipeline 37 of the gas distribution station.

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