RU2539411C2 - Method for main pipeline section emptying from gas and device for implementing it - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: group of inventions refers to pipeline gas transport and can be used for pipeline section emptying from gas. According to the method, removing the emptied section from the main pipeline is followed by attaching a stalk provided on the emptied section through a connection to an anchor container made of an elastic gas-proof material. The section is emptied from gas by the gas transfer into the above container. The device comprises a gas intake unit configured in the form of the container made of an elastic gas-proof material. The elastic gas-proof container is presented by a dirigible balloon or an air balloon. The device also comprises the connection of the given container to the stalk on the emptied section of the main pipeline, and an anchor for retaining the container. The connection of the container to the stalk can contain a nozzle, one end of which is connected to an air valve mounted on an output into the container, while the other end of the nozzle is connected to an air valve mounted on the stalk. The container can be provided with a differential pressure gauge.

EFFECT: simplifying the method and device and reducing the gas loss.

4 cl, 2 dwg

Description

The group of inventions relates to pipeline transport of gas and can be used to empty sections of pipelines from gas.

There is a known method of emptying pipeline sections from gas in multi-line systems of trunk pipelines, RF patent No. 2362087, IPC F17D 1/00 dated 07/20/2009. The method of emptying pipeline sections from gas in multi-line systems of trunk pipelines consists in blocking an emptied section in one of the pipeline threads. at its entrance by means of shut-off devices, the direction of the gas through the jumpers between the threads into the bypass of the emptied section along the parallel threads of the pipeline, disconnected by means of the shut-off latching devices in the bridges of the emptied section at its outlet from the parallel pipeline threads, disconnecting by means of shut-off and disconnecting devices in the bridges of all further located sections of the thread containing the emptied section, all the way from the emptied section to the gas pumping station closest to the direction of gas transport from parallel threads, the connection thereby emptied and adjacent, further located in the direction of gas transport, disconnected from the parallel threads of the sections with the input the collector of the supercharger of the closest, first in the direction of gas transport from the emptied section of the gas pumping station, overlapping the emptied section at its outlet by means of a shut-off device and removing from the emptied section of the remaining gas, and one of the pipeline threads located behind the first in the direction of gas transport from the emptied section of the gas pumping station, they are blocked by a shut-off device at the exit of a gas pumping station, disconnect this thread by means of shut-off devices in jumpers from parallel pipeline threads all the way to the next second in the direction of gas transport from the emptied section of the gas pumping station, thereby connecting this pipe thread at the outlet with the second collector in the direction transporting gas from the emptied section of the gas pumping station, disconnect the main blower of the first gas pumping station by means of shut-off devices the rest of the standard blowers and connect its input to the output section of the pipeline thread, which contains the sections to be emptied and adjacent further in the direction of gas transport, connect the output of this, disconnected from other compressor, to the input section disconnected from the parallel pipeline threads between the first and second gas pumping stations, then pump out gas with a disconnected standard supercharger from a pipeline thread, containing sections to be emptied and adjacent further, disconnected from parallel threads, in tsoedinennuyu of parallel pipe thread between the first and second gas pumping stations within the range of performance blower and its drive.

A known system for pumping gas from a section of the main pipeline, including manifolds with shut-off valves, a compressor, an ejector, the suction of which is in communication with a section of the pipeline bounded by shut-off valves, from which the gas is pumped, the ejector outlet is connected to the pipeline behind the pumped section, while a high-performance ejector is stationary at the compressor station, the ejector inlet is connected to the pipeline section behind the compressor, and the ejector outlet is connected to the pipeline behind the pumped section before the compressor litter. Utility Model Certificate of the Russian Federation No. 11588, IPC F17D 1/00, publ. 10/16/1999

A known method of emptying sections of a pipeline from gas in multi-line piping systems and a device for its implementation is a RF patent for an invention No. 2145030 dated 01/27/2000, IPC F17D 1/00, selected as prototypes. The method of emptying sections of pipelines in multi-thread piping systems, the parallel threads of which are connected by jumpers at the locations of the locking and disconnecting devices, is to shut off the emptied sections by means of locking and disconnecting devices, directing gas to the bypass of the emptied section along the parallel pipeline threads, gas ejection from emptied sections to neighboring pipelines, while also blocking the transportation of gas through an adjacent section inform it and the empty section with the inlet manifold in front of the superchargers of the gas pumping station, equalize the gas pressure in the empty and adjacent sections to the pressure level in the intake manifold, then shut off the emptied and adjacent sections, pump the gas out of the adjacent section using a standard backup gas pumping device a supercharger and its drive installed on a gas pumping station, and a mobile ejector device, located next to it, to the ejector the nozzles of which are supplied with high-pressure chilled gas, taken after the heat transfer apparatus of the gas pumping station, the inlet to the ejector is communicated with the adjacent section, and the outlet with the inlet manifold in front of the superchargers of the gas pumping station, after reaching the minimum possible pressure in the adjacent section, which is determined by the compression ratio of the mobile ejector include an additional mobile ejector device, which is located on the border of the emptied and adjacent sections, and is pumped out gas is pumped from the emptied section to the adjacent one, high-pressure gas is supplied from the opposite section of the parallel pipeline to the ejection nozzles of the additional mobile ejector device, the entrance to the ejector is communicated with the emptied section, and the outlet to the adjacent section, after reaching the minimum pressure in the emptied section determined by the compression ratio additional mobile ejector device, turn off the backup gas pumping device of the gas pumping station, the mobile ejector stroystvo and additional mobile ejector apparatus and the remainder of the gas portion fed to emptied through the candle burning.

The known method of the prototype is quite difficult to implement, and in it the remainder of the gas from the emptied area is sent for burning through a candle, which is a loss of gas.

A mobile gas pumping unit for emptying before repairing a section of the main pipeline contains a supercharger with inlet and outlet nozzles, a supercharger drive and an ejector device, the drive being equipped with an aviation type gas generator operating on compressed natural gas and a free turbine, which and other units of the device are located on two vehicles, and docking units are installed on them to form a single platform for the supercharger and its drive, on one transport medium you have mounted an input device that is connected to a gas generator, a unit for supplying gas fuel to a gas generator, an oil system unit, a device control panel, a supercharger and a free turbine on a common power frame, an exhaust device for removing combustion products from the gas generator located between the free a turbine and a supercharger, while the gas generator and the free turbine are connected by a gas duct, which is equipped with an installation unit for connecting the gas duct flange and the inlet flange A free turbine kinematically connected to the supercharger rotor through an intermediate shaft, which is located in the exhaust device inside the casing, the ejector device, mainly multi-stage, is equipped with shut-off and shut-off devices for supplying gas from the emptied section of the pipeline, as well as for supplying high-pressure gas to the ejector nozzles, the outlet flange of the ejector device is in communication with the inlet flange of the supercharger, designed to communicate with the area into which gas is discharged from the empty part ka pipeline.

According to the method and apparatus of the prototype, gas is pumped from the emptied section of the pipeline to an adjacent section of the pipeline.

A disadvantage of the known device for emptying a section of a main pipeline according to the prototype is its complexity, and the remaining gas from the emptied section is burned in the atmosphere.

The technical problem of the proposed method for emptying a section of a trunk pipeline from gas and a device for its implementation is to simplify the method and device for emptying a section of a trunk pipeline from gas and eliminating gas loss.

The technical problem to be solved is a method of emptying a section of a main pipeline from gas, including disconnecting a section to be emptied from a main pipeline by means of shut-off devices, emptying a disconnected section of gas, by achieving that after disconnecting a section to be emptied from a main pipeline, a candle is available on an empty section of the main pipeline , through the connection node is connected to an anchored tank made of an elastic material not passing gas, op the gas is emptied from the gas by pumping gas into a container made of flexible material that does not allow gas to pass through.

The technical problem to be solved in a device for emptying a section of a main pipeline from gas containing a gas receiving unit is achieved by the fact that the gas receiving unit is made in the form of a gas receiving container made of elastic material that does not allow gas to pass, and the device also contains a node for connecting this container with candles available on the emptied section of the main pipeline, and an anchor to hold the tank.

The junction of the container made of elastic gas-tight material, with candles, available on the emptied section of the main pipeline, may contain a pipe, one end of which is connected to a valve designed for installation on the inlet to the container made of flexible gas-tight material and the other end of the nozzle is connected to a valve intended for installation on a candle, available on the emptied section of the main pipeline.

A container made of an elastic gas-impervious material can be equipped with a differential pressure gauge.

Figure 1 shows a device for emptying a section of a trunk pipeline from gas with a drainable section of a trunk pipeline connected to it through a candle provided on a drainable section of a trunk pipeline. A gas receiving container is a container made of a ball-shaped elastic, gas-impervious material. This device is a device for implementing the proposed method of emptying a section of the main pipeline from gas.

Figure 2 shows a device for emptying a section of a main pipeline from gas with an emptied section of a main pipeline connected to it through a candle available on an emptied section of a main pipeline. A gas receiving container is a container made of an elastic material that does not allow gas to pass through - the internal cavity of the airship. This device is a device for implementing the proposed method of emptying a section of the main pipeline from gas.

A device for emptying a section of a trunk pipeline (FIGS. 1-2) from gas with a drainable section of a trunk pipeline 7 connected to it comprises locking and disconnecting devices 1 made in the form of crane units 1, an anchor 2 for securing a container made of an elastic gas-tight material 3, the connection node 4 of the vessel 3 with candles 5, available on the emptied section 6 of the main pipeline 7. The connection node 4 of the vessel 3, made of flexible gas-impervious material, with the candles 5 available on and the emptied section 6 of the main pipeline 7 contains a valve 8, designed to be installed on the inlet to the tank 3, and the valve 8 is connected to the pipe 9, the other end of which is connected to the valve 10, intended for installation on the candle 5, available on the emptied section 6 trunk pipeline. On the candle 5 there is a crane unit 11 that overlaps the candle 5, that is, preventing gas leakage from the pipeline through the candle 5. The differential pressure gauge 12 is mounted on the container 3, so that one cavity of the pressure gauge 12 is in communication with the internal cavity of the container 3, and the other cavity of the differential pressure gauge 12 communicated with the atmosphere surrounding the tank 3. The crane units 1 are located on the emptied section 6 of the main pipeline. A differential pressure gauge 13 is mounted on the candle 5 so that one cavity of the pressure gauge 13 is in communication with the internal cavity of the emptied portion 6 of the main pipeline, and the other cavity of the differential pressure gauge 13 is in communication with the surrounding atmosphere.

The tank 3, made of an elastic gas-tight material, is made in sufficient volume to empty the pipe section and the gas flow from the pipe to the tank.

Shut-off and disconnecting devices 1 are made in the form of crane units 1 according to the standard of OAO Gazprom - STO Gazprom 2-3.5-454-2010, Moscow, 2010

Consider the implementation of the method of emptying a section of the main pipeline from gas using the devices depicted in figure 1 and figure 2.

The method of emptying a section of the main pipeline 7 from gas is that the emptied section 6 is disconnected at its inlet and outlet from the main pipeline 7 by means of shut-off and shut-off devices - by means of crane units 1, the valves of the linear shut-off valves are moved to the closed position, then the container 3 is fixed to the anchor 2 via a cable, the candle 5, which is available on the emptied section 6 of the main pipeline 7, is connected to the anchored vessel 3 through the connection unit 4, the valve is opened 8, connecting the nozzle 9 with the capacity of 3, open the valve 10 connecting the candle 5 with the nozzle 9, open the crane unit 11 on the candle 5, the discharge of section 6 from gas is carried out by naturally pumping gas into the container 3, since the pressure in the emptied section 6 is higher than the pressure in the internal cavity of the vessel 3. The differential pressure gauge 12 mounted on the vessel 3 is designed to control the pressure inside the vessel 3 so that the shell of the vessel 3 does not break. Since the vessel 3 is made in sufficient volume to provide pressure in it is less than the pressure in the emptied section 6 during the whole time of pumping gas, then the gas in it will transfer from the emptied section 6 to the tank 3. The specific gravity of the gas pumped from the emptied section 6 to the tank 3 is less than the specific gravity of the air of the atmosphere, therefore the tank 3 will rise above the ground and will be held by a cable and an anchor 2. Using a differential pressure gauge 13, the pressure in the emptied section 6 is controlled, which should not decrease below one atmosphere. As the gas pressure in the emptied section 6 of the main pipeline 7 approaches the atmosphere, close the valve assembly 11, close the valve 8 and valve 10, and stop pumping gas from the emptied section 6 to the tank 3. The gas that is pumped from the emptied section 6 of the main pipeline 7 97% consists of methane, which in terms of specific gravity is lighter than the specific gravity of air.

As an elastic container that does not allow gas to pass through, an airship or a balloon can be used (FIGS. 1-2).

With the diameter of the pipe emptying the section of the main pipeline equal to 1400 mm, with the length of the pipe equal to 20 km, with a gas pressure inside the pipe of 10 atm, a capacity of 307720 m ^{3 is} required to completely empty the emptied section of the main pipeline.

The material from which the container 3 can be made can be lightweight cloth-film materials for aeronautical engineering with aluminized rubber coating. As a sealing layer, a polyethylene terephthalate film of a thickness of 12 μm or thick thermally barrier gas-tight chemically neutral coatings is used.

The technical problem to be solved of the proposed method for emptying a section of a main pipeline from gas and a device for its implementation is achieved by emptying the gas into a container, which simplifies the method and device and eliminates gas loss. With such an emptying of the emptied area, complex devices are not required.

Claims (4)

1. The method of emptying a section of the main pipeline from gas, including disconnecting the emptied section from the main pipeline by means of shut-off devices, emptying the section from gas, characterized in that after disconnecting the emptied section from the main pipeline, a candle is available on the emptied section of the main pipeline through the connection node is connected to an anchored tank made of an elastic material that does not allow gas to pass; the area is emptied from gas lyayut by pumping gas into this container. 2. A device for emptying a section of a main pipeline from gas, comprising a gas receiving unit, characterized in that the gas receiving unit is made in the form of a gas receiving container made of elastic material that does not allow gas to pass, and the device also contains a node for connecting this container to the candles, which is available on the emptied section of the main pipeline, and an anchor to hold the tank. 3. The device according to claim 2, characterized in that the junction of the container, made of flexible gas-tight material, with candles, available on the emptied section of the main pipeline, contains a pipe, one end of which is connected to a valve designed for installation at the inlet in this container, and the other end of the pipe is connected to a valve designed for installation on a candle, available on the emptied section of the main pipeline. 4. The device according to claim 2, characterized in that the container made of an elastic gas-impervious material is equipped with a differential pressure gauge.

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