RU2621540C1 - Method for controlling integrity of polymer antifiltration screen - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: method for controlling the integrity of a polymer antifiltration screen includes measuring the electrical resistance in the construction period between the screen coating and the base, transferring the electrode attached to the screen in the corner point by marked squares with the side of 1×1 m. The electrode recessed into the screen base remains stationary, and sealing the screen edges after the implementation of all control operations. Attaching the portable electrode to the screen is provided by pressing in the horizontal position by means of special adhesive strips.

EFFECT: method is characterized by increased accuracy and efficiency, can be used when checking the continuity of coatings made of electrical insulating materials based on polyethylene, polypropylene, polyvinyl chloride and other polymers.

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Description

The invention relates to hydraulic engineering and is intended to control the integrity (continuity) of polymer anti-filter screens made of electrical insulating materials (eg, polymer geomembranes) on irrigation canals and ponds.

A known method of controlling the quality of a film screen (see copyright certificate SU 1308683, published 07.05.1987), including electrical insulation of the coating along the contour of the screen, measuring the electrical resistance between the coating and the base of the screen and evaluating the measured value of the screen continuity.

The disadvantage of this method is the complexity of the work to control the continuity of the film screen, the inability to remotely monitor the integrity of the anti-filter screen and obtain information about the presence of certain damages, which is especially important for waste accumulators, since even the smallest losses from them can lead to pollution of underground and ground water

A known method of monitoring the integrity of the film screen (see copyright certificate SU 207454, publ. 12/22/1967), which consists in the fact that in order to remotely determine the breakthrough and the extent of damage before the screen comes into contact with water, a preliminary measurement of the electrical resistances of various sections of the underlying layer is carried out , the magnitude of which determines the integrity of the screen by comparing the electrical resistances of the same areas after filling with water adjacent to the dam space.

The disadvantage of this method is that the integrity control of the anti-filter screen can only be performed with a water-filled irrigation canal (pond), i.e., during the operational period.

The closest technical solution is a method for controlling the quality of a film screen (see copyright certificate SU 1308683, published 07.05.1987), including electrical insulation of the coating along the contour of the screen, measuring the electrical resistance between the coating and the screen base, and evaluating the measured value of the screen continuity resistance.

The disadvantage of the prototype is the complexity of the work on quality control of the film screen, the high probability of damage to the film during construction during operation and quality control of the coating. In addition, the above method has an error, since the transverse electrical resistance of the film screen is determined directly on the samples.

The purpose of this invention is to improve the accuracy of integrity control of anti-filter screens made of polymer geomembranes and other electrical insulating materials based on polyethylene, polypropylene, polyvinyl chloride.

The technical result to which the invention is directed is to develop a method for controlling the integrity of a polymer anti-filter screen, which has increased accuracy and efficiency, applicable to objects with coatings made of modern anti-filter materials (geomembranes).

The technical result is achieved due to the fact that the electrode attached to the screen is periodically transferred to a new corner point along the marked squares with a side of 1 × 1 m, and the electrode buried in the base of the screen remains stationary. In this case, the portable electrode is tightly fixed to the screen by pressing in a horizontal position using special adhesive tapes in two or four places. To increase the accuracy and efficiency of screen continuity control, the edges of the screen are sealed after all control works have been completed.

The method of monitoring the integrity of the polymer impervious screen is as follows.

During the construction period, the electrical resistance is measured between the antifiltration coating and the base of the screen by known methods and devices (for example, a megohmmeter). Next, an electrode is attached to the antifiltration screen, which is periodically transferred to a new corner point along the marked squares with a side of 1 × 1 m, and the electrode buried in the base of the screen remains stationary. In this case, the portable electrode is tightly fixed to the screen by pressing in a horizontal position using special adhesive tapes in two or four places. To increase the accuracy and efficiency of monitoring the continuity of the screen, the sealing of the edges of the screen is carried out after all control works have been completed.

The developed method for monitoring the integrity of the polymer antifiltration screen is characterized by increased accuracy and efficiency; it can be used to control the continuity of coatings made of electrical insulation materials based on polyethylene, polypropylene, polyvinyl chloride and other polymers.

Claims (3)

1. A method of monitoring the integrity of the polymer anti-filter screen, including measuring electrical resistance during the construction period between the coating and the base of the screen, characterized in that the electrode attached to the screen is periodically transferred to a new corner point along the marked squares with a side of 1 × 1 m, and the electrode buried in the base of the screen remains stationary. 2. The method according to claim 1, characterized in that the portable electrode is tightly fixed to the screen by pressing in a horizontal position using special adhesive tapes in two or four places. 3. The method according to claim 1, characterized in that in order to increase the accuracy and efficiency of monitoring the continuity of the screen, the sealing of the edges of the screen is carried out after all control work has been completed.