RU2745818C1 - Method for removing drop liquid from the column of the underground ball valve and device for its implementation - Google Patents

Abstract

FIELD: gas industry.

SUBSTANCE: invention can be used in the maintenance and repair of pipeline valves at gas transportation facilities. The method consists in ejection of an air-droplet medium through the nozzle of a pneumatic pistol, while a flexible hose of a small diameter of the device is released through an opening in the crane column along the extension to the flange connection of the column with the valve body, due to the cylinder installed in the compressed air source by pressing the trigger of the sandblasting pistol through a flexible hose of large diameter, compressed air is supplied, which, due to the ejection phenomenon, entrains condensate and moisture; the process of extracting liquid fractions is continued until there are no liquid particles in the compressed air. The device consists of a source of compressed air connected through a large diameter flexible hose to an active nipple of a sandblasting gun, to the passive nipple of which a small diameter flexible hose is connected.

EFFECT: complete removal of liquid accumulated in the area of ​​the flange connection of the column with the valve body.

2 cl, 1 dwg

Description

The invention relates to the field of the gas industry and can be used in the maintenance and repair of pipeline valves at gas transportation facilities.

During the operation of underground ball valves, as a result of seasonal and daily temperature changes, condensation of water vapor occurs, followed by the accumulation of liquid in the cavity of the column [1]. The accumulation of liquid inside the string can also occur due to the lack of tightness of the flange connection of the string to the valve body. In the presence of condensate and moisture in the column, the possibility of subsequent blocking of the valve stem extension due to the appearance of corrosion of the valve elements or freezing of the liquid at negative outside temperatures is not excluded.

Regulatory documents determine the need for periodic testing of the tightness of the flange connection of the column with the valve body [2; 3]. During maintenance, using various instruments and materials, the presence or absence of liquid in the column is determined. The presence of water (ice) is not allowed [3].

Known is a jet-ring ejector device for pumping (unloading) contaminated liquids, bottom sediments, bulk materials (RF patent No. 2435989, IPC F04F 5/10, F04F 5/24).

The main disadvantages of this device are:

the absence of a trigger safety device for a short-term interruption of the supply of compressed air during the movement of the device and change of the contractor;

the impossibility of using the device on underground cranes due to the absence of a flexible small diameter hose in the structure, the use of which is mandatory when carrying out work to remove fluid from the crane string.

The objective of the invention is to improve the reliability in the operation of pipeline valves of underground execution.

The technical result of the invention is the complete removal of the liquid accumulated in the area of the flange connection of the column with the valve body.

The problem is solved, and the technical result is achieved by removing the liquid using the developed invention.

FIG. 1 shows a schematic diagram of connecting the device when carrying out work to remove droplet liquid from the crane column.

The operation of the device is based on the phenomenon of ejection from an external source of compressed air, characterized by the interaction of active and passive flow. Active flow is a higher pressure flow moving at a high speed. Passive flow is a low pressure medium entrained by an active flow as a result of ejection.

The device consists of a pneumatic sandblasting gun 1, manufactured at the factory and calculated according to the operating instructions for a pressure of up to 0.9 MPa. Flexible hose 2 with a diameter of at least 10 mm (hereinafter referred to as a small-diameter hose) is connected by means of an adapter to the corresponding nozzle of the passive flow of the pneumatic gun 1 and is designed to create a hydraulic connection between the device and the liquid accumulated in the column 3 of the valve 4. Flexible hose 5 with a diameter of at least 17 mm (hereinafter referred to as a large-diameter hose) is connected to the active flow connection of the pneumatic gun 1 and is designed to supply compressed air. The source of compressed air 6 is made in the form of a cylinder 7, the pressure value in which is controlled by a cylinder reducer 8 (for example, BKO-50-2 "NEVA"), the presence of which allows you to adjust the compressed air consumption using an adjusting device 14, controlling the value of residual pressure in the cylinder 7, and according to the pressure gauge 15 pressure at the outlet of the reducer. The maximum possible pressure in the cylinder 7 is 29.4 MPa, control of this value is extremely necessary when planning work on sites that are significantly remote from the place of filling the cylinders.

The technology for removing droplet liquid from the inner cavity of the crane string is shown in Fig. 2 and is as follows. Flexible hose 2 with one end through the hole 9 in the column 3 of the valve 4 (with a diameter of at least 10 mm) is released along the extension 10 to the flange connection 11 of the column 3 with the valve body 4. Compressed air is supplied to the pneumatic gun 1 through the flexible hose 5. By opening the valve 12 on the cylinder 7, high-pressure compressed air enters the reducer 8. At the same time, the pressure in the cylinder 7 is set on the pressure gauge 13. Using the adjusting device 14, the pressure at the outlet of the reducer 8 is set. Visual control of this value is carried out by the pressure gauge 15. When the trigger 16 of the pneumatic pistol 1 is pressed, compressed air of a given pressure is ejected through the nozzle of the pistol 1, entraining condensate and moisture through the flexible hose 2, lowered into the column 3 of the valve 4. For complete and high-quality removal of the liquid, the position of the flexible hose 2 is changed by periodic movement inside column 3 and lowering through hole 17 with diametrically opposed the positive side of the column 3. The process of extracting liquid fractions is considered complete if, when the trigger 16 of the pneumatic pistol 1 is pressed, compressed air is ejected without liquid particles.

The essential distinguishing features of the claimed device and the method of its use are:

- the design of the device is made in such a way that it allows the removal of liquid from the column of any underground crane with ventilation holes;

- the device does not use consumers of electrical energy, which significantly expands the scope of its application: from pipeline valves on the territory of the main industrial site to cranes at the connection point and the linear part of main gas pipelines;

- the constituent elements of the device are parts and mechanisms used in the conditions of existing production, which allows avoiding large economic costs for its creation, and in case of failure of one or another unit in a short time to restore the device's operability;

- the manufacture of adapters for the device does not require the use of complex turning equipment and is carried out in the conditions of the mechanical repair workshop of the branch, which significantly reduces the time of their manufacture;

- the scope of the device is not limited to maintenance and repair of pipeline valves. The device can also be used for cleaning and drying from the liquid phase of containers, direct access to which is difficult or impossible.

The claimed essential distinguishing features are unknown from patent and scientific-technical information and, accordingly, are "New".

A prototype of the claimed device was manufactured, which was successfully tested during the maintenance of pipeline valves (TO-2) at the Gryazovetsky LGTUMG of Gazprom transgaz Ukhta. In this regard, the claimed device meets the criterion "Industrial applicability".

The claimed device, when used by the previously described method, allows for the complete removal of droplet liquid from the column of underground ball valves, without resorting to the labor-intensive and more expensive method - removing the valve column with subsequent sealing of the flange connection of the column with the valve body.

List of sources:

Kozachenko A.N. Operation of compressor stations of main gas pipelines. - M: Oil and Gas, 1999 .-- 463 p. A.2.5.

STO Gazprom 2-2.3-385-2009. The procedure for maintenance and repair of pipeline valves. A.8.1.

STO 49.50.21-00159025-50-006-2017. Pipeline fittings at the facilities of Gazprom Transgaz Ukhta. Maintenance and repair. Appendix D.

Claims (2)

1. A method for removing droplet liquid from a column of an underground ball valve, which consists in ejecting an air-droplet medium through a nozzle of a pneumatic pistol, characterized in that a flexible hose of a small diameter of the device is released through an opening in the crane column along the extension to the flange connection of the column with the valve body , due to the cylinder installed in the source of compressed air, by pressing the trigger of the sandblasting gun through a flexible hose of large diameter, compressed air is supplied, which, due to the ejection phenomenon, entrains condensate and moisture, the process of extracting liquid fractions continues until there are no liquid particles in the compressed air. 2. A device for removing droplet liquid from a column of an underground ball valve, consisting of a source of compressed air connected through a flexible hose of a large diameter with an active nozzle of a sandblasting gun, to a passive nozzle of which a flexible hose of a small diameter is connected.

Images