RU225726U1 - Device for determining the volume of gas leakage of the flange connection of ball valves Du-50 and Du-80 - Google Patents

Abstract

The utility model relates to monitoring the technical condition of shut-off and control valves and can be used to monitor the condition of MA 39002 Du-50 and Du-80 valves at valve units of main gas pipelines and gas pipeline branches. The technical result consists in simplifying the determination of the volume of gas leakage in the flange connection of the ball valve Du-50 and Du-80. The specified technical result is achieved by the fact that the device for determining the volume of gas leakage of a flange connection of a ball valve Du-50 and Du-80 includes a sealed bandage in the form of a cylindrical surface, on one side of which a vertical section is made, both edges of which in the middle part have semicircular cutouts with directed inside the bandage at right angles with the edges, a fitting embedded perpendicular to the outer surface of the bandage, at least two fixing clamps, spot welded in the center to the outer surface of the bandage in such a way that they are located above and below the semicircular cutouts, and the clamp clamps are located at the level of the cut and perpendicular to him.

Description

The useful model relates to monitoring the technical condition of shut-off and control valves and can be used to monitor the condition of MA 39002 Du-50 and Du-80 valves at valve units of main gas pipelines and gas pipeline branches.

During operation, pipeline fittings are subject to constant influences that are associated with the technological regimes of the processes occurring inside the pipelines. The flange connection of the valves is most susceptible. To maintain reliable operation of pipeline fittings, it is necessary to monitor the main indicator of its quality - tightness. In accordance with the inspection schedule for process equipment, personnel inspect pipeline fittings for gas leaks. If a gas leak is detected, the employee notifies the service manager responsible for the equipment. Identified gas leaks are eliminated as quickly as possible. In accordance with STO Gazprom 2-1.19-128-2007 “Technical standards for emissions and leaks of natural gas from process equipment”, when identifying leaks that cannot be eliminated in the shortest possible time, it is necessary to organize measurements of their volume.

There is a known method for determining the level of leakage through a leaky valve of a ball valve of a shut-off and control valve in operating mode and a device for its implementation (Patent 2758876, published 11/02/2021). The device for implementing the method contains a pressure gauge connected to the cavity of the ball valve, and tubes connecting the high and low pressure pipelines and the cavity of the ball valve through the crosspiece, while the tubes connecting the high and low pressure pipelines to the crosspiece are equipped with valves configured to shut off the flow gas, the pressure gauge is connected by a tube to a cross.

The disadvantage of this method is its high labor intensity due to the need to connect the cavity of the ball valve to high and low pressure pipelines.

There are known instrumental (STO Gazprom 031-2007) and calculation (STO Gazprom 3.3-2-044-2016, STO Gazprom 11-2005) methods for estimating the volume of natural gas leaks.

The main and more accurate method is instrumental. In accordance with STO Gazprom 031-2007 “Methodology for measuring the volume of methane emissions into the atmosphere at the facilities of OJSC Gazprom”, the instrumental method involves the installation of auxiliary equipment and materials: equipment for suction of the gaseous medium, polyethylene film, measuring tent, corrugated polyethylene pipes, plastic pipes , clamps for connecting pipes, plastic adapters, gas meter, thermometer, gas analyzer, differential pressure gauge.

The disadvantage of this method is its high labor intensity due to the need to install a large amount of auxiliary equipment to determine the volume of gas leakage in the flange connection of the ball valve.

As a result of the information search, the closest analogue was not selected.

The technical problem solved by the proposed utility model is the creation of a device for determining the volume of gas leakage in the flange connection of a ball valve Du-50 and Du-80.

The technical result consists in simplifying the determination of the volume of gas leakage in the flange connection of the ball valve Du-50 and Du-80.

The specified technical result is achieved by the fact that the device for determining the volume of gas leakage of a flange connection of a ball valve Du-50 and Du-80 includes a sealed bandage in the form of a cylindrical surface, on one side of which a vertical section is made, both edges of which in the middle part have semicircular cutouts with directed inside the bandage at right angles with the edges, a fitting embedded perpendicular to the outer surface of the bandage, at least two fixing clamps spot welded in the center to the outer surface of the bandage in such a way that they are located above and below the semicircular cutouts, and the clamp clamps are located at the level of the cut and perpendicular to it .

The proposed utility model is illustrated in Fig. 1. The device for determining the gas leakage volume of the flange connection of a ball valve consists of a sealed bandage (1) made of any soft metal, for example, aluminum in the form of a cylindrical surface with a height of 150 mm to 200 mm and a diameter of 200 mm to 250 mm. A vertical cut is made on either side of the bandage (1), along the edges of which semicircular cutouts (2-3) with a diameter of 80 mm to 100 mm are made in the middle part. Along the edges of the cuts (2, 3), edges (4-5) directed perpendicularly into the bandage are welded, respectively. The edges (4, 5) can be made of any soft metal, for example aluminum, with a width of 10 mm to 15 mm. A fitting (6) is cut into the surface of the bandage (1) from the outside and perpendicular to it for connecting any gas meter, for example, BK-G4. Any fitting with a diameter from 1/2 inch to 3/4 inch and a length from 60 mm to 90 mm can be used as a fitting (6). At the bottom and top of the cutouts (4-5), at a distance from the upper and lower edges of the bandage of at least 1 cm, clamps (7-8) are welded, respectively. The clamps (7-8) are welded onto the outer surface of the bandage (1) pointwise on the diametrically opposite side from the vertical section of the bandage (1).

The device for determining the volume of gas leakage from the flange connection of ball valves Du-50 and Du-80 operates as follows. A sealed bandage (1) is installed on the body of a ball valve with a flange connection so that the valve handle is captured by the cutouts (2-3) and is located outside the bandage (1). The edges (4-5) and the junction of the bandage (1) to the valve body and flange connections are treated with any hermetic lubricant and tightened with clamps (7-8). The fitting (6) is connected to the gas meter. The escaping leak gas is collected inside the bandage (1) and supplied through the fitting (6) to the gas meter.

This device is used at the facilities of Gazprom Transgaz Nizhny Novgorod LLC for the MA 39002 Du-50 ball valve. During the inspection of the valve assembly of the gas pipeline outlet at the gas distribution station (GDS) of Kumena, a line pipeline technician discovered a gas leak at the flange connection of the ball valve MA 39002 Du-50. Due to the design features of the valve unit, it was not possible to inspect the valve or replace it without stopping the GDS consumers. Therefore, this leak is long-lasting and takes more than one month to resolve. To determine the volume of gas leakage, this device was used, which made it possible to provide instrumental recording of the volume of gas leakage without the use of auxiliary equipment and materials provided for by STO Gazprom 031-2007 “Methodology for measuring the volume of methane emissions into the atmosphere at the facilities of OJSC Gazprom.”

Thus, the proposed utility model of the device makes it possible to simplify the determination of the volume of gas leakage from the flange connection of a ball valve. The vertical cut makes the device easy to install on a tap. The cylindrical shape of the bandage with semicircular cutouts allows the device to completely cover the surface of the faucet flange connections. Due to the edges, the fit around the faucet handle is tight and airtight. Fixing clamps ensure a tight fit to the surface of the valve flange connections and, accordingly, containment of leakage gas inside the bandage. The fitting allows the collected leakage gas to be directed directly to the gas meter connected to it.

Claims (1)

A device for determining the volume of gas leakage of a flange connection of a ball valve Du-50 and Du-80, including a sealed bandage in the form of a cylindrical surface, on one side of which a vertical cut is made, both edges of which in the middle part have semicircular cutouts with edges directed inside the bandage at right angles , a fitting embedded perpendicular to the outer surface of the bandage, two fixing clamps, spot welded in the center to the outer surface of the bandage in such a way that they are located above and below the semicircular cutouts, and the clamp clamps are located at the level of the cut and perpendicular to it.

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