RU2362085C1 - Method for field application of protective coat on repaired section of main pipeline - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention is related to construction and may be used in repair of main pipelines. Method for field application of protective coat on repaired section of main pipeline consists in cleaning of external surface of main pipeline repaired section and its heating during further application of protective coat onto heated surface of pipeline, at that heating of pipeline external surface is carried out inside pipeline up to the temperature that exceeds dew point by at least 3°C.

EFFECT: it makes it possible both to evenly heat all repaired section of main pipeline and to avoid moisture condensation on external surface of pipeline, which improves quality and reliability of protective coat application on external surface of main pipeline in the field conditions.

9 cl

Description

The invention relates to construction and can be used in the repair of trunk pipelines (MT).

A known method of applying a protective coating (ZP) on MT, which consists in pre-cleaning its outer surface, heating the MT and applying a protective coating to the heated surface of the pipeline / RF Patent No. 2138726, Cl. F16L 58/04, 1999 /.

The disadvantage of this method is the limited use in the factory for the repair of MT.

There is a method of applying RFP to a repaired MT site under route conditions, which consists in pre-cleaning the outer surface of the repaired MT site and heating the site during subsequent application of a protective coating to the heated MT surface. / RF patent №2313720, Cl. F16L 58/00, 2007 /.

This method is adopted as a prototype.

The disadvantages of the prototype is the uneven heating of the outer surface of the repair area MT using the used in the prototype mobile annular heating chamber as well as the unreliability of ZP deposited on the surface of the pipeline in the presence of water condensate.

The technical result obtained from the implementation of the invention is the elimination of these disadvantages of the prototype, that is, improving the reliability of isolation of the repaired section of the MT in route conditions.

This technical result is achieved due to the fact that in the known method of applying RFP to the repaired section of MT under route conditions, which consists in cleaning the outer surface of the repaired section of MT and its heating, with the subsequent application of a protective coating to the heated surface of the pipeline, heating of the external surface of the pipeline is carried out from the inside pipeline to a temperature exceeding at least 3 ° C dew point.

The outer surface of the pipeline is heated from the inside of the pipeline by supplying hot air to the pipeline.

The supply to the pipeline of hot air is carried out using a heat generator.

The supply of hot air to the pipeline from the heat generator is carried out through the open parts of the pipeline.

Candle taps, manholes, etc. are used as open parts of the pipeline.

Hot air is removed from the pipeline through the exposed parts of the pipeline.

As open parts of the pipeline, hot candles from the pipeline use its candle taps, manholes, etc.

Heating the outer surface of the pipeline is carried out until the end of its cleaning.

A thermoset material is used as a protective coating, while the required heating temperature of the outer surface of the pipeline is maintained until the thermoset material deposited on the surface being repaired is cured.

The method is as follows.

The section of the pipeline on which the application of ZP is carried out is equipped with a quick-detachable temporary shelter to reduce the influence of weather conditions on the course of the technological process of repairing MT insulation coatings and reducing the consumption of insulation materials.

The surface temperature of the MT increases to standard values due to the heating of sections of the repaired pipeline from the inside by supplying hot air to it from a heat generator.

The hot air supply hose from the heat generator is sent to any open part (to the open candle valve, to the manhole on the aggregate pipeline, open pipe, etc.).

The hot air outlet is carried out at the end of the repaired section, where the insulation work is carried out, also from any open part of the pipeline (from an open candle valve, from a manhole on an aggregate pipeline, an open pipe, etc.).

The heat generator continuously works in the pipeline for such a time that it is necessary for the temperature of the metal surface of the MT at the place of production under temporary shelter to be at least plus 5 ° C and at least 3 ° C higher than the dew point. This temperature is determined on the basis of numerous experimental results when using the method in route conditions.

The surface temperature of the insulated pipeline is maintained until the end of the curing process of the coating, if the latter uses thermosetting material.

All surface areas on which the coating is applied are subjected to preliminary sandblasting.

Prior to abrasive cleaning, the surface of the pipeline must be dry and have a temperature of at least 3 ° C above the dew point of the air in order to avoid the process of oxidation of the pipeline section after cleaning.

Application of IP is carried out on MT in accordance with the requirements of the manufacturer of the insulating material.

During the application of IP, the temperature of the metal surface of the MT should be above plus 5 ° C and at least 3 ° C above the dew point. To control these modes, a contact thermometer and a psychrometer are used.

Compliance with these modes can improve the reliability and quality of IP when repairing MT in the field conditions. How is the technical result achieved.

Claims (9)

1. The method of applying a protective coating to the repaired section of the main pipeline under route conditions, which consists in cleaning the outer surface of the repaired section of the main pipeline and heating it with subsequent application of a protective coating to the heated surface of the pipeline, characterized in that the heating of the external surface of the pipeline is carried out from the inside of the pipeline to a temperature exceeding at least 3 ° C dew point. 2. The method according to claim 1, characterized in that the heating of the outer surface of the pipeline is carried out from within the pipeline by supplying hot air to the pipeline. 3. The method according to claim 2, characterized in that the supply of hot air to the pipeline is carried out using a heat generator. 4. The method according to claim 3, characterized in that the supply of hot air to the pipeline from the heat source is through the open parts of the pipeline. 5. The method according to claim 4, characterized in that as the open parts of the pipeline use its candle valve or manhole. 6. The method according to claim 3, characterized in that the output from the pipeline of hot air is carried out through the open parts of the pipeline. 7. The method according to claim 6, characterized in that as the open parts of the pipeline use its candle valve or manhole. 8. The method according to claim 1, characterized in that the heating of the outer surface of the pipeline is carried out until the end of its cleaning. 9. The method according to claim 1, characterized in that a thermoset material is used as a protective coating, while the required temperature for heating the outer surface of the pipeline is maintained until the thermoset material deposited on the surface being repaired is cured.