RU2305770C1 - Accumulation sampling device - Google Patents

Abstract

FIELD: oil and gas industry, particularly obtaining fluid samples or testing fluids in pipelines.

SUBSTANCE: device comprises pipeline, body made as connection pipe with hollow shaft and cock. Hollow shaft is fixedly connected to pipeline in air-tight manner and is made as connection pipe with beveled end and radial orifices facing liquid flow made in shaft side opposite to that provided with beveled end. Pipeline has restriction located downstream of the shaft. Another end of connection pipe is air-tightly connected to pipeline downstream of the restriction and located in decreased pressure zone. Connection pipe section defined by cock and the second end is provided with cylindrical case with piston, which may slide in axial direction with respect to the case. The case has discharge connection pipe arranged from cock side. The piston comprises valve providing liquid flow from the cock side. The cock is made as a cylinder with electromagnet and shaft air-tightly installed in the cylinder and sliding with respect to the cylinder in axial direction by means of electromagnet. Cylinder has outlet connection pipe and is communicated with discharge connection pipe. Both connection pipes are closed with shaft. The shaft has two annular grooves. The first groove may communicate connection pipe with cylinder to seal the connection pipe as shaft moves inside the cylinder. The second groove may communicate outlet and discharge connection pipes as shaft slides inside the cylinder.

EFFECT: increased sample taking quality.

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Description

The invention relates to the extraction, collection, preparation and transport of liquid and gas products and can be used at oil and gas producing, oil and gas refining, oil transportation or other enterprises where work is carried out on sampling liquid from pipelines.

A known sampler and method for sampling liquid (RF patent No. 2157889, IPC 7 ЕВВ 49/08, G012N 1/10, publ. In bull. No. 29 from 10/20/2000), comprising a housing with a cavity for accumulating the liquid phase with a cover in the lower part, with a filtering device and a drainage device, while the body of the sampler is rigidly fixed outside the bottom of the pipeline or technological apparatus, the filtering device is installed inside the body between the cavities of the pipeline and the sampler, completely overlapping the cross section ensuring their hydrodynamic communication, and the drain device is mounted on a fitting rigidly mounted on the body of the sampler in the lower part of the cavity of the sampler.

The disadvantages of this device are:

firstly, the samples taken have a distorted composition, since the sampler body is located below and when the liquid flows through the pipeline, it delaminates, while the heavier liquid fractions located below come into the body, and the lighter liquid fractions located above pass sampler body;

secondly, when the fluid flows through the pipeline, the filter device placed inside the housing is clogged with mechanical impurities, and therefore, for sampling, it is necessary to clean it regularly, and this requires constant monitoring.

A sampling device is known (RF patent for utility model No. 40391, IPC 7 ЕВВ 49/08, F17D 3/10, published in Bulletin No. 25 dated 09/10/2004) mounted on the main pipeline and made in two sections, fixed to the main pipeline by means of flange connections, and equipped with adjustable three-way ball valves, a select valve and pressure gauge, while the three-way ball valves are connected by a shaft with a control lever with the ability to alternately cut off one of the sections, and each of the sections is made with the possibility of skipping all fluid flow, moreover, one of the sections is bypassed, and the other is a sampling (measured) with the possibility of sampling with coverage of the cross section of the fluid flow without loss.

The disadvantages of this device are:

firstly, the complexity of the design, due to the large number of nodes and parts, as well as cumbersomeness and metal consumption;

secondly, with frequent sampling, the details of the selection tap wear out and it loses its tightness, which reduces the life of the device as a whole and requires an audit of the sealing elements of the selection tap or its complete replacement.

The closest in technical essence is a sampler (RF patent for utility model No. 47971, IPC 7 ЕВВ 49/08 A, G01N 1/10 V, published in Bulletin No. 25, dated 10.09.2005), containing a pipeline, a casing in the form of a pipe welded to the pipeline, and a hollow rod with a valve, while the hollow rod is rigidly and hermetically connected to the body and is made in the form of a pipe smaller than the section with a tapered end abutting diametrically opposite side from the mount with the body, and radial holes that are placed against the flow of fluid, p and this section of the chamfered end placed on the opposite side of radial holes of the hollow rod.

The disadvantages of this sampler are:

firstly, the low quality of the samples taken, since the body is welded to the pipeline from below and above the valve, a settling zone forms, where heavier components of the liquid accumulate, which displace the lighter ones, and at the moment of opening the valve (sampling) it is they that enter the container, which negatively affects the quality of the sample taken;

secondly, only an instant sampling is made, by which it is difficult to judge the component composition of the sampled liquid, since there is no constant volume of sampled.

The objective of the invention is to improve the quality of sampling with the possibility of accumulating samples of a strictly defined volume.

The technical problem is solved by the proposed accumulator sampler, comprising a pipeline, a body in the form of a pipe with a hollow stem and a valve rigidly and hermetically connected to the pipeline, while the hollow rod is made in the form of a pipe with a beveled end and radial holes that are placed against the fluid flow from the opposite cut beveled end of the side of the hollow stem.

What is new is that the pipe behind the hollow stem is equipped with a restriction in the fluid flow and the second end of the pipe is hermetically connected to the pipe for its restriction in the low pressure zone, while the pipe between the valve and the second end is equipped with a cylindrical casing with a piston made axially movable relative to the casing, which on the valve side is equipped with a drain pipe, and the piston is equipped with a valve that allows fluid to pass from the valve side, which is made in the form of a cylinder with an electromagnet and a rod tightly inserted into the cylinder with the possibility of axial movement by means of an electromagnet, while the cylinder is additionally equipped with an outlet pipe and communicated with a drain pipe, which are closed by a rod, the rod is equipped with annular grooves, the first of which is made with the possibility of communication of the hollow rod and blocking it when moving rod in the cylinder, and the second - with the possibility of communication drain and exhaust pipes when moving the rod in the cylinder.

The drawing shows the proposed sampler cumulative in longitudinal section in the initial position.

The storage sampler contains a pipe 1, a body in the form of a pipe 2 with a hollow rod 3 and a valve 4. The hollow rod 3 is rigidly and hermetically connected to the pipe 1, while the hollow rod 3 is made in the form of a pipe with a beveled end 5 and radial holes 6, which are placed against the flow of fluid from the opposite slice of the beveled end 5 of the side of the hollow rod 3.

The pipe 1 behind the hollow stem 3 is equipped with a restriction 7 in the fluid flow. The second end 8 of the pipe 2 is hermetically connected to the pipe 1 for its restriction 7 in the reduced pressure zone.

The pipe 2 between the valve 4 and the second end 8 is equipped with a cylindrical casing 9 with a piston 10, made with the possibility of axial movement relative to the cylindrical casing 9, which on the valve side 4 is equipped with a drain pipe 11.

The piston 10 is equipped with a valve 12 passing fluid from the side of the valve 4. The valve 4 is made in the form of a cylinder 13 with an electromagnet 14 and a rod 15 inserted tightly into the cylinder 13 with the possibility of axial movement using an electromagnet 14.

The cylinder 13 is additionally equipped with an outlet pipe 16 and is in communication with a drain pipe 11, which are closed by the rod 15. The rod 15 is equipped with annular grooves 17 and 18. The annular groove 17 of the rod 15 is made with the possibility of communication of the pipe 2 with the cylinder 13 and hermetic overlap of the pipe 2 when moving the rod 15 in the cylinder 13, and the annular groove 18 of the rod 15 with the possibility of communication drain 11 and outlet 16 pipes when moving the rod 15 in the cylinder 13.

In order to prevent unauthorized fluid flows on the mating surfaces of the parts, sealing rings 19 and 20 are installed.

The sampler cumulative works as follows.

The fluid flow moves only through the pipeline 1, for example, from left to right (see drawing) through the restriction 7. In the initial position, the piston 10 is located in the lower part of the cylindrical casing 9 and is rested against its stepwise selection 21 from the bottom, restricting the piston 10 from moving downward.

The fluid flow, moving through the pipeline 1 and reaching the hollow rod 3, is divided into two flows. The first flow continues to move along the main pipe 1 and moves further through the restriction 7, while a reduced pressure is created in the pipe 1 in the zone of the connection of the second end 8 of the pipe 2 to the pipe 1 behind its restriction 7.

In this regard, the second fluid flow through the radial holes 6 enters the hollow stem 3 and through the nozzle 2 through the annular groove 17 of the rod 15 of the valve 4 enters the cylindrical casing 9, filling the inner space of the latter, since the end of the drain pipe 11 is sealed by the valve rod 15 4, while the piston 10 is stationary relative to the cylindrical casing 9.

As the inner space of the cylindrical casing 9 is filled, the fluid flow, acting on the valve 12 from above through the upper hole of the piston 10 due to the weight of the accumulated liquid in the inner space of the cylindrical casing 9 above the piston 10, pushes the valve 12 downward, while the latter opens and informs the sub-piston zones of the piston 10, in this case, first the liquid enters under the piston 10 of the cylindrical casing 9, and then through the second end 8 of the pipe 2 into the pipe 1 for narrowing 7.

Thus, the fluid moves in both directions, as noted above, in connection with which the fluid (sample) in the inner space of the cylindrical casing 9 is constantly updated. The volume of the inner space of the cylindrical casing 9 is selected in advance depending on the required sample volume and is set by the overall dimensions of the cylindrical casing 9.

To take the sample, voltage is applied to the poles of the electromagnet 14 of the valve 4, which draws the rod 15 through itself, that is, the rod 15 moves to the right relative to the cylinder 13. The rod 15 retracts the electromagnet 14 until the annular groove 18 of the rod 15 creates a hydraulic communication between the drain 11 and the outlet 16 nozzles, while the nozzle 2 is hermetically closed by the valve stem 15 of the valve 4, that is, the annular groove 17 of the rod 15 will move to the right, as a result of which the flow of liquid from water supply pipe 1 through pipe 2 into the inner space of the cylindrical casing 9.

Since the lower end of the exhaust pipe 16 is connected with the atmosphere, atmospheric pressure is generated above the piston 10 in the cylindrical casing 9 and a pressure equal to the pressure of the liquid in the pipe 1 under the piston 10, and due to the pressure difference above and below the piston 10, the latter begins to move up displacing the accumulated sample from the inner space of the cylindrical casing 9 above the piston 10, while the accumulated sample through the drain channel 11 through the annular groove 18 and the outlet pipe 16 is discharged into a special container 22.

At the end of the discharge of the accumulated sample, the piston 10 returns to its original position (see drawing), after which a reverse voltage is applied to the poles of the electromagnet 14, as a result of which the rod 15 moves backward (to the left) relative to the cylinder 13 and the rod 15 occupies the initial position, i.e., an annular the groove 18 of the rod 15 is hermetically closed by the cylinder 13 of the valve 4, and the annular groove 17 hydraulically communicates the pipe 1 through the pipe 2 with the inner space of the cylindrical casing 9.

In this case, the fluid flow rushes into the inner space of the cylindrical casing 9 above the piston 10 and moves the latter all the way to the stepped selection 21 of the cylindrical casing 9.

Thus, the accumulative sampler occupies the initial position and is ready for reuse.

The proposed accumulative sampler can improve the quality of sampling due to the absence of settling zones and constant updating of the sample due to the movement of the sampled fluid stream, and the possibility of accumulating a sample of a strictly defined volume gives a more objective assessment of the component composition of the sampled sample.

Claims (1)

A storage sampler containing a pipeline, a housing in the form of a nozzle with a hollow stem and a valve rigidly and hermetically connected to the pipeline, the hollow stem being made in the form of a nozzle with a beveled end and radial holes that are placed against the fluid flow from the opposite cut of the beveled end of the hollow side rod, characterized in that the pipeline behind the hollow rod is equipped with a restriction in the fluid flow, and the second end of the pipe is hermetically connected to the pipeline for its narrowing in the zone of reduced pressure, In this case, the nozzle between the valve and the second end is equipped with a cylindrical casing with a piston axially movable relative to the casing, which is provided with a drain pipe on the valve side, and the piston is equipped with a valve passing liquid through the valve, which is made in the form of a cylinder with an electromagnet and a rod tightly inserted into the cylinder with the possibility of axial movement by means of an electromagnet, while the cylinder is additionally equipped with an outlet pipe and is in communication with a drain pipe, which They are overlapped by the rod, and the rod is equipped with annular grooves, the first of which is capable of communicating the hollow rod and blocking it when the rod moves in the cylinder, and the second - with the possibility of communicating the drain and outlet nozzles when moving the rod in the cylinder.