SU1672105A1 - Method for determining the place of pipeline damage - Google Patents

Abstract

The invention relates to a technique for monitoring pipeline systems and is intended to locate damage to pressure pipelines. The purpose of the invention is to improve the accuracy of determining the location of the leak. The method consists in determining the location of damage to the pipeline by measuring the acoustic oscillations arising at the site of the leak. In this case, a two-step recording of acoustic signals is performed, and the preliminary registration is performed by one of the permanently installed sensors along the entire length of the path, which are in the reception area of the acoustic oscillations of the leak. The final registration of the leak and its coordinates are produced by a portable sensor, for example, with logical signal processing. 1 il.

Description

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This invention relates to a technique for monitoring pipeline systems and is intended to locate damage to pressure pipelines.

The purpose of the invention is to improve the accuracy of determining the location of the leak

The method consists in determining the location of pipeline damage by measuring acoustic oscillations arising at the leakage site. According to the invention, two-stage acoustic signals are recorded, and the preliminary registrations are performed by one of the permanently installed along the entire path length the sensor that is in the area of the acoustic leakage receiving, the final recording and acquisition of the location of the leak is made by a portable sensor, for example, with logical signal processing

The drawing shows part of the pipeline with the installed sensors.

A device for implementing the method consists of stationary acoustic sensors 1, uniformly installed along the path, and a portable sensor 2 fixing the coordinate of the leak location 3

The method is carried out as follows.

Sensors 1 are buried along the entire length of the pipeline at a distance of approximately 200 m. When a leak occurs in the pipeline 3, acoustic signals from it are sent to sensor 1, which is in the field of their action. Signal goes to control panel (not shown) To the location of the sensor 1. the signalman, the operator leaves with portable leakage VI

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the location of the leak.

The implementation of the method is possible by creating an unlimited number of device variants, including portable and stationary sensors of various designs.

In any of the possible variants of the device, as stationary sensors buried in the ground, it is necessary to use the least expensive and simple to use sensors. As a portable sensor, it is advisable to use leak detectors of the most advanced structures, for example, with logical signal processing, which allow the operator to determine the coordinate of the leakage site with the least error.

PRI me R. As stationary sensors, sensors are used that record signals for a time longer than the duration of impulse noise, and as a portable sensor, they use a leak detector with logical signal processing, for example, using the following formula: Ji

X

1p, Х-ho

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where Ii is the intensity of acoustic oscillations at a frequency f 1 at point 1;

T.2. Intensity of acoustic oscillations at frequency h at point 1;

B is the intensity of acoustic oscillations at the frequency fi at point 2;

Li is the intensity of acoustic oscillations at the frequency fa at point 2;

X is the coordinate of the leak;

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Ho is the distance between points 1 and 2. In the event of a leak 3, signals from it are sensed by sensors 1 and 11. Because of its remoteness, signals are not received from the sensors. Sensors 1 and V accumulate signals from a leak for a certain time. If the accumulation time of the signals is longer than the predetermined critical value, then a warning device is triggered on the control panel, indicating that in the area of sensors 1 and 1, there is a continuously acting source of acoustic oscillations created by the leak. An operator with a portable acoustic leak detector travels to the location of sensors 1 and 1. The operator at two points located on the same side of sensor 1, the leak detector 2 measures the intensity b, 1a, b, 1l at two pre-selected frequencies fi, f2, after which the logical block of the leak detector 2 calculates the numerical value of the leakage location using the proposed formula .

Claims (1)

The invention method for determining the location of pipeline damage by measuring acoustic oscillations occurring at a leak, characterized in that, in order to improve the accuracy of determining the location of a leak, two-stage recording of acoustic signals is performed, and the preliminary registration is performed by one of the stationary installed along the entire route length a sensor that is in the reception area of the acoustic oscillations of the leak, and the final registration and obtaining the coordinates of the leak location is carried out sensor, for example, with logical signal processing. I g 9 one