RU2135887C1 - Method of detection of break in pipe line - Google Patents

Abstract

FIELD: transportation of oil, gas or other products. SUBSTANCE: method consists in receiving electromagnetic waves outside the pipe line and locating the point of break of pipe line. Innovation of invention consists in supply of AC voltage to ends of pipe line at frequency corresponding to generation of electromagnetic waves at length of wave close to size of assumed break or diameter of pipe line. Received electromagnetic radiation is indicative of position of break. EFFECT: increased distance at remote detection of break. 1 dwg

Description

 The invention relates to the field of transportation of liquids (oil), gases and other products using pipelines, and in particular to methods for monitoring the integrity of pipelines located on the earth's surface and identifying places of their breaks.

 The prior art.

 Known methods for detecting rupture of pipelines, which consists in transmitting electromagnetic waves through the pipeline / 1 /.

 The closest in technical essence of the known should be considered a known method for detecting the place of rupture of the pipeline / 2 /. It consists in the fact that electromagnetic waves are passed through the pipeline, which excite directly in the pipeline or outside it, and the reception of electromagnetic waves is carried out vice versa - outside the pipeline or directly in it, respectively. Then determine the place of exit or entry of electromagnetic waves from the pipeline or into the pipeline, which is associated with the place of its rupture.

 The disadvantage of this method is the strong attenuation of electromagnetic waves in the pipeline in the presence of electrically conductive liquids or compressed gases due to the presence of conductive impurities. This limits the possibilities of the method.

 The aim of the invention is to reduce this drawback, namely, increasing the distance at which breaks in pipelines are detected.

 The goal is achieved by the fact that alternating voltage is applied to the ends of the pipeline with a frequency corresponding to the generation of electromagnetic waves with a wavelength close to the size of the expected gap or the diameter of the pipeline, electromagnetic radiation is excited in the pipe gap, the radiation location is determined and this radiation site is connected with the location of the gap the pipeline.

 The drawing shows a diagram explaining the proposed method. The diagram shows a pipeline 1 with a gap 2, to which an alternating electric voltage 3 is connected. On the side of the pipeline 1 there is a receiving station 4, which detects the presence of electromagnetic waves and localizes or locates the location of the gap 2.

 When installing an open pipeline, an electric wire is laid next to it, which is connected to one of the ends of the pipeline. The other end is connected to another wire of the AC voltage source. In the absence of a break, the emission of electromagnetic waves does not occur. In the event of a pipeline rupture, the rupture site serves as a kind of antenna and begins to emit electromagnetic waves with a wavelength characteristic of the size of the rupture. This radiation is recorded and direction-finding by radio receivers to determine the location of a pipe rupture.

Literature:
1. USSR author's certificate N 642575, F 17 D 5/06, 1975.

 2. USSR author's certificate N 1733837, F 17 D 5/06, 1992.

Claims (1)

 A method for detecting a place of a pipeline rupture, consisting in the generation of electromagnetic waves, their reception and determining the location of a pipeline rupture, characterized in that the generation of electromagnetic waves is carried out directly by the rupture of the pipeline, for which alternating voltage is applied to the ends of the pipeline with a frequency corresponding to the wavelengths located within the diameter of the pipeline, and the source of the resulting radiation is associated with the location of the rupture of the pipeline.