SU1112321A1 - Method of determination of specific surface of underground and underwater pipe-line insulation coating damage - Google Patents

Abstract

WAY OF DETERMINING THE SPECIFIC SURFACE OF DAMAGE TO THE INSULATING COATING OF UNDERGROUND AND UNDERWATER PIPELINES; including cathode polarization of the pipeline, measuring its protective potential and determining the size of defects of the insulation coating, characterized in that, in order to improve the accuracy of determining the specific surface damage of the insulation coating by determining the specific area of microdefects, after measuring the protective potential of the pipeline, the area and an information clearing area, in the information clearing area, an additional electrical circuit is created: a pipeline — an auxiliary electrode with a variable area Strongly electrolyte contact with the ground, increasing the contact area of the auxiliary electrode from the zero value until the g values varying stripping zone information and determining specific surface damage the insulating coating on the contact area relative to the area of auxiliary electrode stripping zone information.

Description

The invention relates to instrumentation engineering and can be used to create devices for detecting defects in insulating coatings of underground and underwater pipelines.

A known method for detecting defects in an insulating coating of underground and underwater pipelines allows, in particular, determining the specific surface damage to an insulating coating by cathode polarization of a pipeline, measuring its potential and finding the location and size of defects in an insulating coating by changing the measured potential value, the cathode polarization is removed before measuring the potential and judging by the rate of change in the magnitude of the measured potential of the pipeline that l.

The known method consists of the following sequence of operations: cathode polarization of the pipeline, fixing the presence of protective potential at the drainage point by measuring it, turning off the output voltage of the cathode station, measuring the potential value of the unprotected pipeline during establishing an electrochemical equilibrium between the electrolyte in the soil volume and the electrolyte schims in the defect zone.

The method allows to detect local defects in the insulation coating of the pipeline and relative. the magnitudes of the linear dimensions of the defects along the pipeline. .

However, the known method does not provide a high accuracy assessment of the state of the insulation coating, since it does not provide the possibility of determining the specific area of microdefects 1: the gold coating.

The purpose of the invention is to improve the accuracy of determining the specific surface area of damage to the insulation coating by determining the specific area of microdefects.

This goal is achieved in that, according to the method for determining the specific surface area of damage to an insulating coating of underground and underwater pipelines, including cathode polarization of a pipeline, measuring its protective potential and determining the size of defects of an insulating coating, after measuring the protective potential of the pipeline, determine the area and area of removal information., in the information removal zone, an additional electric circuit is created: the pipeline is an auxiliary electrode with a variable contact area with the ground. ovym electrolyte increases the contact area of the auxiliary electrode from the zero value until the value changes stripping zone information and determining specific surface povrezvdeni insulating coating on otnoscheniya contact area of the auxiliary electrode to the stripping zone information area.

The method is implemented as follows.

The cathode polarization of the pipeline is performed, after which the protective potential of the pipeline is measured using an auxiliary reference electrode, which represents the voltage drop of the transition layer between the metal and the ground electrolyte relative to the comparison electrode.

The information removal zone (L) of the measuring circuit is determined: reference electrode - measuring instrument pipeline – electrolyte, for which a small portion of the pipeline is polarized near the mounting point of the reference electrode using an auxiliary electrode and moving the polarization zone until the initial registered the electrochemical potential, and then the distance between the reference electrode and the auxiliary electrode, which creates a polarization of a small portion of the pipeline, is measured, and this distance is determined by the boundary of the measurement information removal zone.

Determine the area of the zone of removal of information by the formula

,

l

where o is the diameter of the pipeline.

After that, an additional electrical circuit is created: an auxiliary electrode pipeline with a variable contact area, for example, a steel rod enclosed in an insulated tube, from which the rod can be extended under decompression. By changing the area of the co-tact, it is possible to change the influence of the auxiliary electrode on the sensing information removal zone of the measuring circuit. At the same time, the specified auxiliary electrode with a variable area of the co-tact with the electrolyte is installed so that it contacts the insulating coating of the pipeline, which provides a more accurate imitation of the defect of the insulation coating. Then the auxiliary electrode is included in the measuring circuit. Observing the readings of the measuring device, increase the area of the co-tact of the auxiliary electrode with the ground electrolyte from zero to the moment of changing the size of the information removal zone, and measure the contact area of the auxiliary electrode Sj. The specific surface area of damage to the insulation coating ijfc.noep is determined by the ratio of the area of contact of the auxiliary electrode to the area of the information removal zone. at; The use of the invention in the national economy makes it possible, with a greater degree of accuracy, to assess the state of the insulation coating of underground and supply pipelines and to optimize the parameters of the cdto protection.

Claims (1)

METHOD FOR DETERMINING THE SPECIFIC SURFACE OF DAMAGE TO INSULATION COATING OF UNDERGROUND AND UNDERWATER PIPELINES ^ including the cathodic polarization of the pipeline, the measurement of its protective potential and the determination of the size of defects in the insulation coating, distinguishing this in order to increase the accuracy of determining the specific surface area of the insulation coating damage microdefects, after measuring the protective potential of the pipeline, the zone and area of information are determined, in the zone of information removal Rmations create an additional electric circuit: a pipeline — an auxiliary electrode with a variable contact area with ground electrolyte, increase the contact area of the auxiliary electrode from zero to the moment the information removal zone changes and determine the specific surface area of damage to the insulation coating in relation to the contact area of the auxiliary electrode and the area of the removal zone information. >