RU2753535C1 - Gas sampling device - Google Patents

Abstract

FIELD: oil industry; gas industry; petrochemical industry.

SUBSTANCE: invention relates to a sampling technique and is intended both for indirect sampling of gas from a gas pipeline into a container for transportation to the place of analysis of the component composition of a gas sample and for direct sampling when analyzing the dew point temperature, the content of mechanical impurities, mercaptan sulfur and hydrogen sulfide and can be used in oil and gas, petrochemical and other industries. The device has a sampling unit with an inlet ball valve and a sampling probe, which is installed in a housing rigidly fixed to the gas pipeline and is connected by a sample supply line made in form of tubes with an inlet valve to a sampling container fixed in the sampling cabinet, as well as a discharge line containing a flexible metal hose, pipes, a relief ball valve, an outlet pressure gauge and an outlet valve, installed in series at the outlet of the sampling container. The sample supply line is equipped with an inlet pressure gauge. The section of the discharge line between the relief ball valve and the outlet valve is connected to the section of the sample supply line between the inlet ball valve and the inlet pressure gauge by means of a blowdown line in the form of tubes with a ball valve. The sampling probe is made in the form of a seamless tube, fixed to the gas pipeline with a weld fitting. The connection of the tubes to the inlet ball valve, ball valve, inlet valve, inlet valve of the sample container, inlet pressure gauge, outlet valve, relief ball valve, outlet pressure gauge and flexible metal hose is made with crimp fittings.

EFFECT: increased safety when performing gas sampling.

1 cl, 1 dwg

Description

The invention relates to sampling techniques and is intended both for indirect sampling of point gas samples from a gas pipeline to a container for further transportation to the place of analysis of the composition of the gas sample, and for direct sampling when analyzing the dew point temperature of natural gas, the content of mechanical impurities, mercaptan sulfur and hydrogen sulfide and can be used in oil and gas, petrochemical and other industries.

From the prior art for this type of device, a sampling system used in the filling-discharge sampling scheme is known, containing a sampling probe, a line for supplying samples to a container and a branch tube (GOST 31370-2008 "Natural gas. Guidance on sampling. Appendix D" Sampling Methodology by Fill-Release Method ”.

The prior art for this type of device can also be characterized by such objects known from publicly available sources of information as, for example, according to inventions: RF patents No. 819613, IPC G01N 30/04, publ. 04/07/1981; No. 2094610, IPC E21B 49/08, publ. 10/27/1997; No. 2126148, IPC G01N 30/04, publ. 02/10/1999; No. 2158421, IPC G01N 1/22, publ. 10/27/2000; No. 2217728, IPC G01N 1/22, publ. 11/27/2003 and utility model RF patent No. 96244, IPC G01N 1/22, publ. 20.07.2010.

In known devices, the main unit / element is a container-container made of a specific material of any specific geometric shape, equipped with outlets, necks and / or openings for filling with a gaseous medium and releasing this medium to a measuring and analyzing installation. For locking / closing the sample in the container-container during the transportation of the latter, the known devices are equipped with locking elements in the form of valves, valves, taps, clamps and the like; These devices for sampling also contain channels for inlet and outlet of the sample of the medium, made in the form of tubes, hoses or sleeves. The most characteristic disadvantage of the known devices is the need to perform a number of preliminary and / or final operations and techniques that eliminate the distortion of the composition of the sample of the gaseous medium, since its representativeness depends on the specific implementation, the state and serviceability of the channel for the supply of the gaseous medium and the shut-off elements; there is also a design flaw - the presence of so-called "parasitic" volumes, cavities and voids in the channels for the movement of the gaseous medium during the selection process.

The closest in technical essence to the claimed invention is a natural gas sampling system (RF patent No. 106745), selected as a prototype, containing a sampling unit installed on the gas pipeline at the sampling point, a sample supply line and a sampling cabinet with a sampling container installed in it samples.

The disadvantage of the prototype is the inability to purge the system, bypassing the sampling container, as well as low safety during sampling due to the fact that the release of gas from the sample supply line when dismantling the sampling container is provided by the thread by loosening the nut tightening.

The technical result of the invention is to improve safety when performing gas sampling.

The technical result is achieved by the fact that the device for gas sampling contains a sampling unit with an inlet ball valve and a sampling probe, which is installed in a housing rigidly fixed to the gas pipeline and connected by a sample supply line made in the form of tubes with an inlet valve to the sampling container , fixed in the sampling cabinet, as well as a discharge line containing a flexible metal hose, tubes and a discharge ball valve, moreover, the sample supply line is equipped with an inlet pressure gauge installed in front of the inlet valve, and the discharge line is additionally equipped with an outlet pressure gauge and an outlet valve installed in series at the outlet from the sampling container, whereby the section of the discharge line between the relief ball valve and the outlet valve is connected to the section of the sample supply line between the inlet ball valve and the inlet pressure gauge by means of a purge line made in the form of tubes with a ball valve, and the sampling probe is made in the form of a one-piece tube fixed to r gas pipe using a weld fitting. The connection of the pipes with the inlet ball valve, ball valve, inlet valve, inlet valve of the sample container, inlet pressure gauge, outlet valve, relief ball valve, outlet pressure gauge and flexible metal hose is made with crimp fittings.

FIG. 1 shows a general view of the device for sampling gas, where 1 is a sampling probe; 2 - welding fitting; 3 - inlet ball valve; 4 - case; 5 - input manometer; 6 - container for sampling; 7 - inlet valve, 8 - sample supply line, 9 - inlet valve of the sampling container, 10 - outlet valve of the sampling container; 11 - flexible metal hose; 12 - output manometer; 13 - outlet valve; 14 - relief ball valve; 15 - ball valve; 16 - sampling cabinet, 17 - sampling unit; 18 - discharge line; 19 - purge line.

The device for gas sampling contains a sampling unit 17 installed on the gas pipeline at the sampling point, a sample supply line 8, a discharge line 18, a purge line 19, a sampling cabinet 16 with a sample collection container 6 installed in it.

The sampling unit 17 contains a sampling probe 1 installed in the housing 4 and made in the form of a seamless tube fixed to the gas pipeline using a welding fitting 2 and an inlet ball valve 3.

The sample supply line 8 connects the sampling unit 17 and the sampling container 16 and is made in the form of tubes with an inlet pressure gauge 5 and an inlet valve 7, which are sequentially installed at the inlet to the sampling container 6.

The discharge line 18 connects the sampling container 6 with the outlet to the atmosphere and contains a flexible metal hose 11, pipes, a discharge ball valve 14, an outlet pressure gauge 12 and an outlet valve 13.

The purge line 19 is made in the form of tubes with a ball valve 15 and connects a section of the discharge line between the discharge ball valve 14 and the outlet valve 13 with a section of the sample supply line between the inlet ball valve 3 and the inlet valve 7.

The gas sampling device works as follows.

Open the inlet ball valve 3 at the sampling point, then open the ball valve 15 and the discharge ball valve 14. The purge time is not less than 5 minutes. Shut off the ball valve 15 and the discharge ball valve 14. Install the sampling container 6 vertically into the bracket of the sampling cabinet 16 by connecting the sample supply line 8 to the inlet valve of the sampling container 9 and flexible metal hose 11 to the outlet valve of the sampling container 10. Slowly open the inlet valve 7 and purge the sample supply line 8 and the sampling container 6 with gas to displace the air. With the fully open inlet valve of the sample container 9 and the outlet valve of the sampling container 10 and the partially open outlet valve 13, the discharge ball valve 14 is open, the sampling container 6 is purged with at least 20 times the volume of natural gas, while the ball valve 15 is in the closed position. Close the outlet valve 13. The pressure in the system should quickly rise to operating pressure. Close the inlet valve 7 and slowly release the pressure in the sampling container 6 by opening the outlet valve 13 until it reaches atmospheric pressure.

In order to effectively release the container from air, the two previous operations are repeated several times in accordance with Appendix D of GOST 31370-2008 (the sampling container 6 is filled with gas and released from it by operating the inlet valve 7 and the outlet valve 13). After the completion of the last cycle, first shut off the outlet valve 13 and after the pressure rises to the working one, close the inlet valve 7. To prevent condensation of heavy hydrocarbons from the sample during transportation, the pressure in the container should be lower than in the source; for this, the pressure is controlled at the outlet pressure gauge 12. Close the inlet valve of the sampling container 9 and the outlet control valve for sampling 10, release the pressure from the sample supply line 8, after closing the inlet ball valve 3, opening the ball valve 15 and the discharge ball valve 14. Dismantle the sampling container 6. Check no leaks with the help of a detergent; for transportation, the sampling container 6 is equipped with plugs.

The proposed invention provides an increase in safety when performing gas sampling due to:

- adding a gas purge line bypassing the sampling container, which makes it possible to bleed gas from the device after sampling before disconnecting the sampling container, and also excludes gas bleeding through the threaded connection when the sampling container is disconnected;

- improving the design of the sampling device through the use of fitting connections, the main advantages of which are resistance to high pressure and resistance to vibration fatigue;

- use of a sampling seamless tube as a probe eliminates the potential occurrence of gas leaks at the site;

- installation of an outlet pressure gauge in the discharge line, which allows ensuring the pressure in the sampling container below the main one in accordance with the requirements of GOST 31370-2008 and, accordingly, reducing the likelihood of condensation of heavy sample components during sampling.

Claims (2)

1. A device for gas sampling, containing a sampling unit with an inlet ball valve and a sampling probe, which is installed in a housing rigidly fixed to the gas pipeline and connected by a sample supply line made in the form of tubes with an inlet valve to a sampling container fixed in the sampling cabinet, as well as a discharge line containing a flexible metal hose, tubes and a discharge ball valve, characterized in that the sample supply line is equipped with an inlet pressure gauge installed in front of the inlet valve, and the discharge line is additionally equipped with an outlet pressure gauge and an outlet valve sequentially installed at the outlet from the container sampling, and the section of the discharge line between the relief ball valve and the outlet valve is connected to the section of the sample supply line between the inlet ball valve and the inlet pressure gauge by means of a purge line made in the form of tubes with a ball valve, and the sampling probe is made in the form of a seamless tube fixed to gas pipeline using fit inga for welding. 2. The device according to claim 1, characterized in that the connection of the tubes with the inlet ball valve, ball valve, inlet valve, inlet valve of the sample container, inlet pressure gauge, outlet valve, discharge ball valve, outlet pressure gauge and flexible metal hose is made with crimp fittings.

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