RU106745U1 - NATURAL GAS SAMPLING SYSTEM (OPTIONS) - Google Patents

Abstract

 1. A natural gas sampling system comprising a sampling unit with a sampling probe installed on an existing gas pipeline and connected to the sample container by a sample supply line made in the form of tubes, hoses or hoses, characterized in that it is equipped with a sampling cabinet with a container holding system for samples, while the sampling unit, the sample supply line and the sampling cabinet are thermally insulated and heated. ! 2. The sampling system according to claim 1, characterized in that the sampling assembly comprises a sampling probe mounted in a housing or mounting sleeve rigidly fixed to the gas pipeline, a nut, a gasket, ball valve, fitting, needle valve, tee, nipple, nut union, manometer and adapter. ! 3. The sampling system according to claim 1, characterized in that the sample supply line comprises a stainless steel tube with a self-regulating electric heating tape, thermal insulation sections and a protective flexible metal hose. ! 4. The sampling system according to claim 1, characterized in that the sampling cabinet is in the form of a direct parallelepiped with a door, double walls and thermal insulation installed between the latter, equipped with a mounting system for the sampling container, a gas discharge system, a heater, a power supply system and a thermometer bimetallic. ! 5. A natural gas sampling system containing a sampling unit with a sampling probe installed on an existing gas pipeline and connected to the sample container with a sample supply line made in the form of tubes, hoses or hoses, characterized in that it is equipped with a sampling cabinet with a fastening system

Description

The group of utility models relates to the sampling technique, is intended for indirect sampling of gas samples from the gas pipeline to the container for further transportation to the place of analysis of the component composition of the gas sample and can be used in oil and gas, petrochemical and other industries.

From the prior art, for this type of device, the sampling system used in the sampling scheme using the fill-out method is known, which contains a sampling probe, a line for supplying samples to the container and an outlet pipe (see, for example, GOST 31370-2008 “Natural gas. Sampling guidance Appendix D “Sampling Methods by the Fill-Release Method.” M .: Standartinform, 2009.

The prior art for this type of device can also be characterized by such well-known objects from publicly available information sources as, for example, according to the inventions: RF patents No. 819613, IPC G01N 30/04, publ. 04/07/1981; No. 2094610, IPC Е21В 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. November 27, 2003 and according to a utility model, RF patent No. 96244, IPC G01N 1/22, publ. 07/20/2010. In known devices, the main unit / element is a container container made of a specific material of any particular geometric shape, equipped with bends, necks and / or holes for filling a gaseous medium and releasing this medium to a measuring and analyzing installation. For locking / closing a sample in a container container during transportation of the latter, known devices are equipped with locking elements in the form of valves, gates, taps, clamps and the like structures; These devices for sampling also contain channels for supplying and discharging a sample of the medium, made in the form of tubes, hoses or hoses.

The most characteristic disadvantage of the known devices is the need to perform a number of preliminary and / or final operations and techniques, eliminating the distortion of the sample composition of the gaseous medium, since its representativeness depends on the specific execution, condition and serviceability of the gaseous medium supply channel and shut-off elements; there is also a design flaw - the presence of so-called “spurious” volumes, cavities and voids in the channels of movement of the gaseous medium in the selection process. In addition, the implementation of the container container in the form of, for example, a cylinder-piston pair, that is, in the form of a syringe, significantly limits the sample in volume, and container containers of this type, but of significantly larger sizes, are inconvenient to operate, especially with multiple procedures sampling, in addition, they are difficult to manufacture.

Closest to the claimed group of utility models by technical nature and achieved by using the technical result is a sampling system containing a sampling unit mounted on an existing gas pipeline and connected to the sample container with a sample supply line (see, for example, Darvay I.Ya., Karpash OM The experience of industrial testing of an experimental installation for determining the calorific value of natural gas. Electronic journal "Oil and Gas Business. 2010, p.2, Fig. 1). The sampling unit includes a sampling probe and a sample supply line made in the form of tubes, hoses or hoses.

The main disadvantage of the known system is the inconvenience during operation, as the maintenance personnel, ensuring that the container is placed vertically perpendicular to the axis of the gas pipeline while sampling, holding a sufficiently heavy container (up to 10 kg) must simultaneously carry out sampling.

This group of utility models is based on the task of creating a sampling system in an existing gas pipeline, design features that would improve working conditions and simplify the sampling process.

The task underlying this group of utility models, with the achievement of the claimed technical result, is solved by the fact that the natural gas sampling system according to the first embodiment, comprising a sampling unit with a sampling probe installed on an existing gas pipeline and connected to the sample container with a supply line the sample, made in the form of tubes, hoses or sleeves, is equipped with a sampling cabinet with a fastening system for the sample container, while the sampling unit, the sample supply line and the sampling cabinet thermally insulated and heated.

The task underlying this group of utility models, with the achievement of the claimed technical result, is also solved by the fact that the natural gas sampling system according to the second embodiment, comprising a sampling unit with a sampling probe installed on an existing gas pipeline and connected to a sample container the sample supply line, made in the form of tubes, hoses or sleeves, is equipped with a sampling cabinet with a fastening system for the sample container, while the sampling unit, the sample supply line and sampling The enclosed cabinet is thermally insulated and heated, the latter being equipped with a thermostat.

Additional significant differences for all variants of the proposed group of utility models are that:

- the sampling unit contains a sampling probe installed in the housing or mounting sleeve, rigidly fixed to the gas pipeline, a nut, a gasket, ball valve, fitting, needle valve, tee, nipple, union nut, pressure gauge and adapter;

- the sample supply line contains a stainless steel tube with a self-regulating electric heating tape, thermal insulation sections and a protective flexible metal hose;

- the sampling cabinet is in the form of a direct parallelepiped with a door, double walls and thermal insulation installed between the latter, equipped with a mounting system for the sampling container, a gas discharge system, a heater, a power supply system and a bimetal thermometer.

The implementation of the sampling unit, the sample supply line and the sampling cabinet thermally insulated and with controlled heating allows you to maintain the required temperature of sampling and supply of samples at low negative outside temperatures and facilitates the work of the operator.

A comparative analysis of the proposed technical solutions with identified analogues of the prior art, from which the group of utility models does not explicitly follow for a sampling specialist, showed that it is not known, and taking into account the possibility of industrial serial production of a natural gas sampling system, we can conclude its compliance with patentability criteria.

Preferred embodiments of the utility model are described below based on the presented drawings, where:

- figure 1 presents a diagram of a natural gas sampling system for two variants of the pipeline - aboveground and underground;

- figure 2 shows a sampling unit for an elevated gas pipeline;

- figure 3 shows a sampling unit for an underground gas pipeline;

- figure 4 shows an embodiment of a sampling cabinet;

- figure 5 is the same second option;

- figure 6 shows the lower bracket with fixing screws.

The natural gas sampling system comprises a sampling unit 1 mounted on a gas pipeline at a sampling point, a sampling line 2 and a sampling cabinet 3 with a sampling container 4 installed therein.

The sampling unit 1 contains a sampling probe 5 installed in the mounting sleeve 6 or the housing 7, rigidly mounted on the gas pipeline, the nut 8 of the probe 5, the gasket 9, the ball valve 10, the fitting 11 of the valve 10, the needle valve 12, the tee 13, the nipple 14, union nut 15, pressure gauge 16 and adapter 17. The length of the probe 5 of the sampling probe depends on the diameter of the gas pipeline and is selected so that the immersion depth in the pipeline lies in the range 0.3 ... 0.7 D.

The sample cabinet can be made in two versions, depending on the ambient temperature or the need to control the temperature inside the cabinet. The sampling cabinet 3 is a three-dimensional welded structure and has the shape of a straight parallelepiped with a door 18 and double walls 19 and 20, with a thickness of the metal sheet of the outer skin equal to 2 mm and the inner - 1.5 mm of galvanized metal, and basalt located between them -fibrous plates 21, which serve as insulation and have excellent fire performance. Such insulation allows you to use the cabinet in the temperature range from -50 to + 40 ° C, the thickness of the insulation - 50 mm. The sampling cabinet 3 is equipped with a fastening system for the sampling container 4, including an upper bracket 22, a movable lower bracket 23 and chains 24 for securing the container 4. A heater 25 is installed inside the sampling cabinet 3 and, for one embodiment of the natural gas sampling system, a temperature controller 26. Additionally, the sampling cabinet 3 is equipped with a gas discharge system, including a flexible metal hose 27, a discharge pipe 28 and a needle outlet valve 29, and an external terminal box 30, a power switch 31, a power cable input 32, a bimetallic thermometer 33, and an earth terminal 34.

For the convenience of lifting the sample cabinet 3, 2 eyebolts 35 are provided. The housing of the sample cabinet 3 has protection against dust and moisture. The surface of the body is subjected to high-quality processing followed by powder coating, which protects the body from external factors and premature corrosion. Sample cabinet 3 is mounted on a welded frame 36.

The sample supply line 2 comprises a stainless steel tube 37, a self-regulating electric heating tape 38, thermal insulation sections 39, and a protective flexible metal sleeve 40.

Installation of a natural gas sampling system is as follows.

At the sampling point from the gas pipeline, the mounting sleeve 6 or the housing 7 from the set of the sampling unit 1 is vertically welded. The probe 5 is sampled on the gas pipeline with the help of the nut 8 and the gasket 9. The sample cabinet 3 with the frame 36 is mounted on the prepared foundation and the frame is fixed with anchor bolts to the foundation. A sampling line of a sample supply line 2 is connected to the adapter 17 of the assembly 1. The tube 37 is attached to the outlet fitting 17 with a union nut and two o-rings. The threaded connection is tightened by hand (until contact) and then with a wrench 1, 1/4 turn. The end of the heating tape 38 is sealed using a set of terminations according to the instructions supplied with the termination set. The end of the heating tape 38 is fixed on the probe 5 of the sampling unit 1 directly near the mounting sleeve 6 or the housing 7 with two turns of the fixing tape. Lay the heating tape 38 along the tube 37 of the sample supply line 2 and fix it on the pipeline with a step of 300 mm by two turns of the fixing tape to the sampling cabinet 3. The free end of the tape 38 is led into the interior of the sampling cabinet through a wall passage. The thermal insulation sections 39 are sequentially put on and advanced along the sample supply line 2 to the output adapter 17 of the sampling unit. The last section of thermal insulation 39 is cut so that it goes inside the entire length of the bushing of the wall cabinet 3 of the sampler. A protective metal sleeve 40 is put on and advanced along the sample supply line 2 to the outlet adapter 17 of the sample assembly. The end section of the metal sleeve 40 must be screwed up to the stop on the threaded part of the sleeve mounted on the bushing installed on the wall of the sampling cabinet 3. The free end of the tube 37 of the sample supply line 2 is connected to an adapter mounted outside the sample cabinet 3. The tube is attached to the adapter using a union nut and two o-rings. Testing the line 2 for supplying samples with the working gas pressure from the gas pipeline. The ball valve 12 of the sampling unit 1 is opened, gas pressure is supplied to the sample supply line 2. Check the tightness of the joints. If necessary, produce additional tightening of the joints, previously closing the ball valve 12 and releasing gas. The free end of the heating tape 38 is led out through the cable entry 32 to the opposite wall of the sampling cabinet 3 and connected in the terminal box 31. The discharge pipe 28 with the outlet needle valve 29 is connected to the wall bore and secured with a clamp on the side wall of the sampling cabinet 3. The discharge pipe 28 is fixed with the outlet needle valve 29 to the wall bore using a union nut and two o-rings. Connect the grounding bus 34 of the cabinet 3 of the sampler to the grounding device. Connect the external power cable to the switch 31 using the standard cable entry mounted on the switch. The sampling system must be connected to the electrical network through equipment that protects the electrical circuit from short circuit and overload currents, and the electrical circuit of the heating tape 38 from earth leakage. Check the insulation resistance of electrical cables and grounding resistance. The natural gas sampling system is ready to go.

The natural gas sampling system operates as follows.

The cylinder 4 is installed in the cabinet 3 on the support bracket 23 (Figs. 4, 5, 6), the position of which is adjusted to the size of the cylinder by loosening the fixing screws 41, moving the bracket along the guides and tightening the fixing screws, it is necessary to ensure that the upper cylinder fitting stood on the same axis as the input line 2 of the sample supply. The final fixation of the cylinder is carried out by grasping it with chains 24 on the supporting upper 22 and lower 23 brackets. After that, the nozzle is connected to the cylinder (not shown in the drawing). The union nuts are interchangeable for connecting to right or left-handed cylinders. The use of a flexible metal hose as an outlet pipe at the outlet of the cylinder allows the connection of cylinders with different heights.

After connecting the fittings, gas is taken into the container in accordance with Appendix D "Sampling Methods by the Fill-Release Method" GOST 31370-2008 "Natural Gas. Guidance on Sampling".

Preliminarily, the heating of the sample cabinet 3 and the line 2 heated by the power switch 31 are included. The temperature inside the cabinet must be higher than the gas temperature in the gas pipeline (the temperature can be controlled using a thermometer 33 installed in the cabinet door).

Open the valves on the container and ball valve pos. 10 (Fig. 2 and 3) on the sampling unit 1, smoothly open the gas supply using the inlet pos. 12 (Fig. 2 and 3) and the outlet pos. 29 (Fig. 4 and 5) needle valves. Purge the container with at least 20 times the volume of natural gas. Close the outlet valve pos. 29 (figures 4 and 5). Pressure should increase rapidly to the level set for the selected container. The pressure is controlled by a pressure gauge 16 mounted on the sampling unit 1.

Close the inlet valve pos. 12 (Figs. 2 and 3) and slowly depressurize the container through the outlet needle valve pos. 29 (Figs. 4 and 5) until it reaches atmospheric pressure.

Open the inlet valve pos.12 (Fig.2 and 3).

In order to effectively clean the container of the gas previously contained in it, repeat the previous two operations several times (table D.1 of Appendix D "Sampling Methods by the Fill-Release Method" GOST 31370-2008).

After completing the last purge cycle, first shut off the outlet needle valve pos. 29 (Figs. 4 and 5) and after the pressure rises to the level set for this container, shut off the valve pos. 12 (Figs. 2 and 3). In this case, the pressure in the container should be lower than the gas pressure in the gas pipeline to prevent condensation of heavy hydrocarbons.

After this, close the ball valve pos.10 (2 and 3), the inlet and outlet valves on the cylinder. Next, turn off the power to the cabinet heating and disconnect the cylinder. When disconnecting the cylinder inlet, loosen the nut until gas is etched. Wait until the gas etching is complete and only then completely disconnect the inlet fitting.

The proposed natural gas sampling system meets the requirements of GOST 31370-2008, has a simple design, simplifies the sampling process and facilitates the work of the operator, which generally reduces the time to prepare the device for operation and sampling, improves working conditions.

Claims (8)

1. A natural gas sampling system comprising a sampling unit with a sampling probe installed on an existing gas pipeline and connected to the sample container by a sample supply line made in the form of tubes, hoses or hoses, characterized in that it is equipped with a sampling cabinet with a container holding system for samples, while the sampling unit, the sample supply line and the sampling cabinet are thermally insulated and heated. 2. The sampling system according to claim 1, characterized in that the sampling assembly comprises a sampling probe mounted in a housing or mounting sleeve rigidly fixed to the gas pipeline, a nut, a gasket, ball valve, fitting, needle valve, tee, nipple, nut union, manometer and adapter. 3. The sampling system according to claim 1, characterized in that the sample supply line comprises a stainless steel tube with a self-regulating electric heating tape, thermal insulation sections and a protective flexible metal hose. 4. The sampling system according to claim 1, characterized in that the sampling cabinet is in the form of a direct parallelepiped with a door, double walls and thermal insulation installed between the latter, equipped with a mounting system for the sampling container, a gas discharge system, a heater, a power supply system and a thermometer bimetallic. 5. A natural gas sampling system comprising a sampling unit with a sampling probe installed on an existing gas pipeline and connected to the sample container by a sample supply line made in the form of tubes, hoses or hoses, characterized in that it is equipped with a sampling cabinet with a container holding system for samples, while the sampling unit, the sample supply line and the sampling cabinet are thermally insulated and heated, the latter being equipped with a thermostat. 6. The sampling system according to claim 5, characterized in that the sampling assembly comprises a sampling probe mounted in a housing or mounting sleeve rigidly mounted on the gas pipeline, a nut, a gasket, ball valve, fitting, needle valve, tee, nipple, nut union, manometer and adapter. 7. The sampling system according to claim 5, characterized in that the sample supply line comprises a stainless steel tube with a self-regulating electric heating tape, thermal insulation sections and a protective flexible metal hose. 8. The sampling system according to claim 5, characterized in that the sampling cabinet is in the form of a direct parallelepiped with a door, double walls and thermal insulation installed between the latter, equipped with a mounting system for the sampling container, a gas discharge system, a heater, a power supply system and a thermometer bimetallic.