RU2314510C2 - Method and device for sampling liquid from pipeline - Google Patents

Abstract

FIELD: investigating or analyzing materials.

SUBSTANCE: method comprises setting the probe in the pipeline and sampling the liquid.

EFFECT: enhanced precision.

4 cl, 1 dwg

Description

The invention relates to technology and techniques for sampling liquid from a pipeline and can find application in oil and other industries where high accuracy is required for determining the parameters of the fluid pumped through the pipelines.

A known method of sampling liquid from a pipeline, in which a sampling device in the form of a system of 5 tubes is placed in the pipeline, the inlet openings are located along the diameter of the pipeline and are 0.2 mm apart from each other, while the inlet of the middle tube is located in the center of the pipeline, and the diameters tubes from the center to the periphery are in a ratio of 6:10:13, then sampling and combining of samples [1].

A device for implementing this method is known, in which a device for sampling in the form of a system of 5 tubes is placed in the pipeline, the inlet openings are located along the diameter of the pipeline and 0.2 mm apart from each other, while the inlet of the middle tube is located in the center of the pipeline and the diameters of the tubes from the center to the periphery are in the ratio of 6:10:13 [2].

A drawback of the known sampling techniques and technologies is that during transportation of a stratified flow stream through a pipeline, sampling by tubes that are immersed in different flow phases occurs in proportion to the viscosity of each phase. Thus, the proportionality of sampling of each tube may be different. A qualitative change in the composition of the sample occurs. The sample is characterized by the lowest representativeness - the excess of the actual content of one of the phases of the liquid that make up the flow can be 100 percent or more.

There is a known method of sampling liquid from a pipeline, in which a non-uniform flow is transported through the pipeline, a sampling device installed vertically on a horizontal section of the pipeline is placed along its diameter, sampling and transportation through an additional pipeline, manual or automatic sampling from an additional pipeline respectively through manual or automatic samplers [3].

A device for implementing this method is known, including a sampling device for sampling from an inhomogeneous stream, installed along the diameter of the main pipeline, while vertically on a horizontal section of the pipeline, which is connected in series with an additional pipeline on which manual and automatic samplers are installed [4].

A disadvantage of the known sampling technologies and techniques - when transporting a layered flow stream through a pipeline (see, for example, [5]), sampling using a sampling device from the main pipeline, which is immersed in different flow phases, is proportional to the viscosity of each of phases. As a result of such sampling, it is characterized by the lowest representativeness - the excess of the actual content of one of the phases of the liquid in the sample can exceed 100%.

The technical result of this invention is to increase the representativeness of the sample.

To achieve a technical result in a method for sampling liquid from a pipeline, which includes placing a sampling element in a pipeline, an inhomogeneous liquid stream in which changes direction, and sampling from an inhomogeneous stream after changing its direction, according to the invention, when changing direction, the flow of an inhomogeneous liquid is subjected to dispersion liquid phases in each other to form a flow with an inhomogeneous distribution of inclusions without separation into continuous phases and then select liquid sample.

The scope of the features of the claimed method, the distinguishing of which is that when the direction of the flow of heterogeneous liquid is subjected to dispersion of the liquid phases in each other to form a flow with a heterogeneous distribution of inclusions without separation into continuous phases and then carry out the sampling of the liquid, it allows to increase the representativeness of the sample, since dispersion does not have to be accompanied by a uniform distribution of inclusions in the flow throughout the entire cross section of the pipeline - sampling it can also be produced from an inhomogeneous stream after dispersing the liquid phases in each other, so long as there is no stratification of the stream into continuous phases of immiscible liquids before sampling, since it is with such a distribution of liquid phases that the hydrodynamics of sampling from the inhomogeneous stream qualitatively changes (with a change in the density of the liquid along the line placement of the sampling device), namely, with such sampling by the sampling device, each phase of the liquid in the stream from the pipeline will be represented in the sample in proportion to the flow rate in the pipeline. And this, according to the claimed method and in contrast to the prototype method [3], is achieved by sampling from an inhomogeneous liquid flow in a pipeline in a section where an inhomogeneous flow is formed without dividing it into continuous phases by dispersing the phases of the liquids in each other. Due to this, the sample taken by the claimed method will be, which is also confirmed experimentally, an order of magnitude or two more representative than the sample selected by the prototype method [3].

Thus, a sample of liquid from a pipeline taken using the proposed method will be more representative than a sample taken using the prototype method [3].

Due to the use of the proposed method, flow analysis using analytical tools for a sample of liquid taken from the pipeline using the proposed method will be more accurate than for a sample taken using the prototype method [3].

To achieve a technical result in the implementation of the proposed method, a device is used that contains a pipeline with a section on it for changing the direction of the fluid flow and a device for sampling liquid from the pipeline, which is placed along the diameter of the pipeline, and in the horizontal section of the pipeline, vertically, according to the invention, a section to change the direction of flow of an inhomogeneous liquid, it is possible to disperse one of the phases of the liquid that make up the flow into another, and devices for sampling fluid samples from the pipe is placed after this portion. Moreover, to quickly change the direction of flow from horizontal to vertical or from vertical to horizontal, a L-shaped section of the pipeline can be used. In this case, the sampling hole can be proportionally increased in width or height to ensure the required sample flow rate.

If the inhomogeneous flow in the pipeline is stratified into phases of the liquid, it is problematic to take a sample from each phase in proportion to the flow rate - under the influence of the pressure drop created on the sampling device, parts of the sample from each phase of the flow are taken in proportion to its viscosity. The viscosity of the phases of the fluids that make up the flow, generally speaking, is not the same - the difference can be several orders of magnitude. As a result, the proportionality of sampling parts for each phase will not correspond to the flow rate in the pipeline - the content of one of the liquid phases in the sample can exceed the actual by more than 100%. In order for the phase ratio in the sample to be brought into line with the flow rate, a qualitative change in the flow state is necessary. In the inventive device, an element is used to disperse one of the phases of the liquid, released into the free during transportation of the multicomponent liquid, into another, in which the distribution of inclusions after dispersion could be considered relatively uniform at each sampling level. That is, dispersion does not have to be accompanied by a uniform distribution of inclusions in the cross section of the pipeline - sampling can also be carried out from an inhomogeneous stream after dispersing one of the phases of the liquids into another, so long as there is no stratification of the stream into continuous phases of immiscible liquids before sampling. It is the inventive device that takes samples from a stream in an appropriately prepared pipeline using a dispersing device. In sections of the pipeline where the flow separated into continuous phases of the liquid flows, this device can be an element of the pipeline itself, as in the experiments below, or a specially made dispersing device for forming an inhomogeneous flow in the pipeline — a flow with an inhomogeneous distribution of inclusions without the formation of a continuous second phase in flow. For example, to quickly change the direction of flow at which phase dispersion occurs, a L-shaped section of the pipeline can be used. A proportional change in the parameters of the sampling hole, for example, for the device [6] or [7] will allow us to provide regulatory requirements for sampling, see [8], in terms of simultaneously ensuring the sampling speed, the sample and ensuring its required flow rate through quality analyzers. Due to the listed features of the claimed device, in contrast to the prototype [4], the phase ratio in the sample taken is qualitatively changed - the hydrodynamic conditions are eliminated, under which the relative error in determining one of the components of the flow in the pipeline phases is more than 100% and, thus, the sample becomes representative.

Specifically, the claimed method and device can be used in the oil industry, for example, at metering stations for crude oil, when the water content in oil can be up to 100%, and the oil is transported together with free water.

The inventive method of sampling fluid from a pipeline is as follows.

In the pipeline, the fluid flow in which changes direction, a device is installed for sampling from an inhomogeneous flow, when the direction of the flow of heterogeneous fluid is subjected to dispersion of the liquid phases in each other to form a flow with an inhomogeneous distribution of inclusions without separation into continuous phases, then a sample is taken, which sent for analysis.

The invention is illustrated in the drawing.

The device for sampling includes a sampling device in the form of a tube 1 (hereinafter referred to as tube 1) mounted vertically along the diameter of pipeline 2, behind the L-shaped descending section 3 of pipeline 2 without changing direction in the horizontal plane. The inlet (sampling hole) 4 of the tube 1 is oriented towards the flow in the pipeline 2.

L-shaped section 3 of the pipeline 2 serves as a device for dispersing the phases of immiscible liquids that make up the flow in the pipeline 2. Tube 1 with a valve 5 serves for sampling from an inhomogeneous stream in the pipeline 2 through the inlet 4.

A device for sampling a liquid from a pipeline 2 operates as follows.

The liquid transported through pipeline 2 enters the L-shaped section 3. The phases of the liquid undergo a rapid change in the direction angle from horizontal to vertical and again to horizontal, and disperse one into the other so that one of them becomes dispersed in the L-shaped section 3 , and strive for a uniform distribution at each level of sampling using tube 1. The sample is taken, setting the isokinetic speed at the inlet 4 using a valve 5. Next, the selected sample is sent for analysis.

For testing, a device was manufactured that represented:

- sampling tube 1 with one hole 4, made in accordance with the patent [6];

- the diameter of the pipeline is 2-114 mm with a wall thickness of 4 mm;

- The L-shaped section 3 of pipeline 2 consisted of two bends, 114 mm in diameter and a wall thickness of 5 mm, joined together by the letter “G”, with a change in the direction angle for pipeline 2 by 90 ° [9] from horizontal to vertical.

As a sampling tube 1 for the prototype device [4], such a tube 1 was used with the same parameters as for the inventive device. It was installed on the pipeline along the flow in front of the L-shaped section of the pipeline 2, that is, before the phase dispersion section of the liquids that make up the flow in the pipeline 2.

The fluid in the pipeline 4 was a water-oil emulsion with a water content of from 3.5% to 5.1% vol. flow in the pipe 4 and the fluid flow rate in the pipeline was 0.34-0.43 m / s.

The data of comparative tests of the proposed method and device for sampling liquid from the pipeline and prototypes of the sampling method [3] and sampling device [4], which limited themselves to sampling manually (the sample was taken when the tap 5 was opened), are summarized in the table.

Table

Experiment number The flow velocity in the pipeline 2, m / s Water cut,% The water content of the stream,% obv., Determined by the sample for the drawing claimed prototype one 0.34 3,5 3.4 7.8 2 0.38 4.2 4.3 9.2 3 0.43 5.1 5.2 12.7

The quality of the sample obtained by the known sampling technique [3-4] is more than 100% lower than the quality for the claimed technology. This suggests that a sample taken from an inhomogeneous stream with exactly the same sampling devices 1 before and after the section of transformation of water from a continuous to a dispersed phase undergoes a qualitative change. That is, talking about the selection of high-quality samples is possible only for the claimed technology and sampling technique.

Thus, the data of comparative tests of the table confirm that sampling from the stream according to the claimed method and device, in contrast to sampling according to the prototype [3-4], provides better sampling.

The inventive method of sampling and a device for its implementation are industrially applicable - for the implementation of the claimed technology, it is necessary to use elements produced by domestic industry, and their assembly in accordance with the claimed technique can be carried out by forces serving the pipelines.

Information sources

1. The method of sampling fluid from the pipeline. GOST 2517-85, clause 2.13.1.8.

2. A device for sampling fluid from a pipeline. GOST 2517-85, clause 2.13.1.8.

3. The method of sampling fluid from the pipeline. GOST 2517-85, Fig. 18.

4. A device for sampling fluid from a pipeline. GOST 2517-85, Fig. 18.

5. V.P. Tronov. Oil field preparation. M .: Nedra, 1977, pp. 64-71.

6. Patent for invention RU 2141105, IPC G01N 1-10.

7. Device for sampling liquid from the pipeline Fig. 15a) - 15b), “GOST 2517-85. Change No. 1 ".

8. GOST 2517-85, clauses 2.13.1.3 and 2.13.4.1.

9. Seamless welded tubing details of carbon low alloy steel. Bends. Design according to GOST 30753-2001 (ISO 3419-81) table 2.

Claims (4)

1. The method of sampling liquid from a pipeline, which includes placing a sampling element in the pipeline, a non-uniform fluid flow in which changes direction, and sampling from a non-uniform flow after changing its direction, characterized in that when changing the direction, the non-uniform fluid flow is subjected to dispersion of the liquid phases each other to form a flow with an inhomogeneous distribution of inclusions without separation into continuous phases and then carry out a liquid sampling. 2. A device for sampling fluid from a pipeline, comprising a pipeline with a portion made thereon for changing the direction of fluid flow and a device for sampling fluid from a pipeline, which is placed along the diameter of the pipeline, and vertically in a horizontal portion of the pipeline, characterized in that the portion for changing the direction of flow of the inhomogeneous fluid is configured to disperse one of the phases of the fluid constituting the flow into another to form a heterogeneous flow. 3. The device according to claim 2, characterized in that the phase dispersion element when changing the flow direction from horizontal to vertical, from vertical to horizontal is the L-shaped section of the pipeline. 4. The device according to claim 2, characterized in that the input on the sampling element can be proportionally increased in width or height.