RU2811250C1 - Method for determining amount of natural gas released during leakage through defects in gas pipelines, leaking valve connections, fittings and metering devices - Google Patents

Abstract

FIELD: gas pipelines.

SUBSTANCE: method for determining the amount of natural gas released during leakage through defects in gas pipelines, leaking valve connections, fittings and metering devices used in gas supply and gas distribution. The method includes stages in which: gas from the leak site is collected by a flexible cuff, then the gas flows through a hose into the upper filling fitting of a sealed cylinder, then the gas begins to gradually displace air from the sealed cylinder and gradually reaches the lower fitting of the gas outlet from the cylinder. In this case, when the cylinder begins to be filled with gas, a combustible gas alarm-analyzer is brought to the lower fitting, in which the start of a light and sound alarm indicates the appearance of an explosive concentration of natural gas in the lower fitting, and visual monitoring of the micro-leakage pressure occurs using a control device connected through a tee to determine the gas leakage pressure value.

EFFECT: simplifying the method for determining gas leaks.

1 cl, 1 dwg

Description

The invention relates to a method for determining the amount of natural gas released during leakage through defects in gas pipelines, leaking valve connections, fittings and metering devices and can be used in gas supply and gas distribution.

A known laboratory for detecting gas leaks includes a car, in the cabin of which there is a rack with measuring equipment, including a set of gas analyzers, a direct-flow axial cyclone for air filtration, an electrostatic filter, a hydrocarbon gas detector (RU 127927, IPC G01N 21/85, publ. 10.05. 2013)

The disadvantages of using this laboratory include the need to use a large number of expensive equipment, restrictions on the location of the laboratory, the presence of highly qualified personnel, and the labor intensity of the process.

The closest method for monitoring and detecting defects in pipelines made of ferromagnetic materials (RU 2294482 C1, IPC F17D 5/02, G01N 27/82, published 02/27/2007). The disadvantages of this method include its complexity and the possibility of its use only for pipelines made of ferromagnetic materials.

The technical result to which the present invention is aimed is to simplify the method for determining gas leaks, allowing for the possibility of application for pipelines made of any materials, various fittings and instruments.

The specified technical result is achieved due to the fact that in the method for determining the amount of natural gas released during leakage through defects in gas pipelines, leaky connections of fittings, fittings and metering devices, a gas pipeline, a sealed cylinder, a cuff with sealing elements, hoses, an upper fitting for filling the cylinder with leakage gas are used, the lower fitting for the gas outlet from the cylinder, a gas detector-gas analyzer for combustible gases and a control device for determining the value of gas leakage pressure.

The invention is illustrated graphically (Figure 1).

In figure 1. depicts the process of determining the amount of natural gas released during leakage through defects in gas pipelines, leaky fittings, fittings and metering devices, where 1 - 1 part of the gas pipeline; 2 – place of leak on the gas pipeline; 3 – 2 part of the gas pipeline; 4 – cuff with sealing elements; 5 – hoses; 6 – sealed cylinder; 7 – upper fitting for filling cylinder 6 with leakage gas; 8 – lower gas outlet fitting from cylinder 6; 9 – alarm-gas analyzer for flammable gases; 10 – control device for determining the value of gas leakage pressure.

The method for determining the amount of natural gas released during leakage through defects in gas pipelines, leaking fittings, fittings and metering devices works as follows. Gas from the leak point 2 is collected by a flexible cuff 4, then the gas through the hose 5 enters the upper filling fitting 7 of the sealed cylinder 6. Then the gas, having a lower density, begins to gradually displace air from the sealed cylinder 6 and gradually reaches the lower fitting 8 of the gas outlet from the cylinder 6. Simultaneously, together or one at a time, with the start of filling the plastic cylinder 6, a combustible gas detector-gas analyzer 9 is brought to the lower fitting 8. The start of the light and sound alarm indicates the appearance of an explosive concentration of natural gas in the lower fitting 8. In this case, visual monitoring of micro-leakage pressure occurs using a control device connected through a tee to determine the value of gas leakage pressure.

Thus, this method of determining the amount of natural gas released during leakage through defects in gas pipelines, leaky fittings, fittings and metering devices involves simplifying the method for determining gas leaks, the possibility of application for pipelines made of any materials, various fittings and devices.

Claims (1)

The method for determining the amount of natural gas released during a leak through defects in gas pipelines, leaky valve connections, fittings and metering devices includes the following steps: gas from the leak site is collected by a flexible cuff, then the gas flows through a hose into the upper filling fitting of a sealed cylinder, then the gas begins gradually displace air from the sealed cylinder and gradually reaches the lower fitting of the gas outlet from the cylinder, while with the beginning of filling the cylinder with gas, a gas analyzer of combustible gases is brought to the lower fitting, in which the beginning of a light and sound alarm indicates the appearance of an explosive concentration of natural gas in the lower fitting, and a visual micro-leakage pressure is monitored using a control device connected through a tee to determine the value of gas leakage pressure.