RU2675913C1 - Air cooling devices heat-exchanging tubes external surface cleaning method - Google Patents

Abstract

FIELD: heat exchange.SUBSTANCE: invention relates to the main gas pipelines compressor stations air cooling devices heat-exchanging tubes cleaning. Air cooling devices heat-exchanging tubes external surface cleaning method includes feeding the cleaning agent in the vertical direction to the air-cooling device finned heat-exchanging tubes using containing pipes with spray nozzles cleaning section. Using installed vertically along the device heat exchange section long side additional cleaning section, performing the cleaner supply in the horizontal direction, perpendicular to the connecting tube plates. Through the additional cleaning section, the differentiated by the heating temperature air humidification degree along the rows of the air-cooling device finned heat exchange tubes regulation is also carried out, using installed on the additional cleaning section pipes controlled nozzles.EFFECT: technical result consists in increase in the cleaning method efficiency by the cleaner supply in two directions, and setting the stream maximum possible pressure, maintaining the temperature balance of the gas in all rows of heat exchange tubes and thorough cleaning of the finned tubes outer surface.1 cl, 2 dwg

Description

The invention relates to the cleaning of heat transfer pipes of air-cooling apparatus of compressor stations of gas mains.

At compressor stations, air cooling devices (ABOs), consisting of heat-exchange sections, a collector and a fan with an electric motor, are used as gas cooling means. The outer fin surfaces of air coolers are contaminated with organic and inorganic particles, which impair the heat transfer properties of the air cooler, reducing the heat exchange area of the fin tubes. As a result of this, the cooling intensity of the gas heated during compression is reduced, which increases energy consumption.

A known method of cleaning heat-exchange pipes of air-cooling apparatus of compressor stations of gas pipelines, including blowing particles settled on the pipes by air under pressure after preliminary removal of large deposits from the lower rows of heat-exchange pipes using scrapers (RF Patent No. 2302912 C2, priority date 02.28.2005, publication date 07.20.2007, authors: Kudakaev SM. Et al., RU).

The disadvantages of the known analogue are the complexity of the process and the risk of damage to the fins of the heat exchange tubes due to the use of scrapers and manual labor.

There is a method of cleaning the outer surface of aluminum and aluminum alloys of air-cooling units, carried out in three stages, including in the first and third stages, jet washing the surface with heated water or a mixture of water and water vapor at a jet pressure of 20-150 bar, and in the second stage - jet surface treatment with 0.25-1.5% aqueous solution of heated acid detergent, with a spray pressure of 20-150 bar and holding for 10-30 minutes (RF Patent No. 2520839 C1, priority date 11/20/2012, publication date 06/27/2014 , author Basakov E.I., RU).

A disadvantage of the known cleaning method is its high complexity, due to the implementation of jet washing in three stages using an acid-based detergent.

As a prototype, a well-known method of cleaning using automatic ABO cleaning equipment has been adopted, which is the closest to the claimed method, comprising supplying a cleaner in the form of steam in the vertical direction to finned heat-exchange pipes of an air-cooling apparatus, while the purifier is supplied using cleaning devices installed under the heat-exchange sections sections containing pipes with spray nozzles combined by a collector (Akulov K.A. and / KA Akulov Vladimir Golik, T. Ponomareva // Basic research - 2015. - №12-3 -. with 453-456, prototype)..

The disadvantage of the prototype is the low cleaning efficiency due to the placement of the cleaning sections only from below under the heat exchange sections, which will not be able to clean the upper and lower surfaces of the finned tubes further than the second row, while it is also possible to wet or sinter the contaminants there, which will lead to further deterioration ABO operation mode.

The technical problem is to increase the safety and efficiency of cleaning the finned tubes of the air compressor compressor stations of gas pipelines.

The technical result from the use of the invention is to increase the efficiency of the cleaning method by supplying the cleaner in two directions and setting the maximum possible pressure of the jet, maintaining the temperature balance of the gas in all rows of heat transfer pipes and comprehensive cleaning of the outer surface of the finned tubes.

To solve a technical problem and achieve a technical result, a method is proposed for cleaning the outer surface of heat exchanging tubes of air-cooling apparatuses, including supplying a cleaner in a vertical direction to finned heat-exchanging tubes of an air-cooling apparatus using a cleaning section containing pipes with spray nozzles. What is new is that the purifier is additionally supplied in the horizontal direction with the help of an additional cleaning section mounted vertically along the long side of the heat exchange section of the air-cooling apparatus, perpendicular to the connecting tube sheets.

According to the invention, the method is particularly characterized in that through an additional cleaning section, the degree of air humidification is differentiated by heating temperature according to the rows of finned heat exchange pipes of the air cooling apparatus using controlled nozzles mounted on the pipes of the additional cleaning section.

In FIG. 1 schematically shows a cleaning section of pipes with nozzles used for cleaning ABO, general view; in FIG. 2 - design of the heat-exchange section ABO with cleaning sections installed underneath and along the long side.

For the implementation of the method and the implementation of high-quality and safe cleaning of the external surfaces of the ABO, cleaning sections 1 are used, containing pipes with spray nozzles 2 (Fig. 1). The cleaning sections 1 are installed below the heat exchanger sections 3 ABO with finned heat exchanger tubes 4 and along the long side of the heat exchanger section, perpendicular to the connecting tube sheets 5, as shown in FIG. 2. The location of the cleaning sections 1 bottom and side allows the supply of a purifier, for example, water under pressure in both vertical and horizontal directions, moreover, alternately or simultaneously. In addition, shut-off and control valves are installed on all pipes of the side cleaning section to regulate and control, with the help of controlled nozzles, the degree of air humidification along the rows of finned heat exchanging pipes 4 AVO (not shown conditionally).

As a cleaner in the proposed method uses hot water or steam. In this case, the water from the water supply system is heated in the heat exchanger by the heat of the exhaust gases of a gas turbine or gas reciprocating pumping unit. The resulting steam or hot water is supplied through the piping system to the cleaning sections 1 and, through the spray nozzles 2, washes finned heat transfer tubes 4 from both sides from the bottom and the bottom in the vertical and horizontal directions, either alternately or simultaneously. In the process of two-sided processing, the efficiency and quality of cleaning of finned heat-exchange tubes 4 is increased, moreover, this cleaning procedure is carried out without stopping the ABO, which also indicates the effectiveness of the proposed cleaning technology. However, when implementing the method, it is possible to select the cleaning parameters and its frequency using the program, depending on the parameters of the air conditioning unit, gas temperature, ambient temperature, etc.

The proposed method allows to increase the efficiency and to secure the cleaning of the outer surfaces of the heat-exchanging finned tubes of gas air-cooling apparatuses at compressor stations, to increase the technical and economic efficiency of gas transport by reducing energy costs.

Claims (2)

1. The method of cleaning the outer surface of the heat exchanger tubes of the air cooling apparatus, comprising supplying a cleaner in a vertical direction to the finned heat exchanger tubes of the air cooling apparatus using a cleaning section comprising pipes with spray nozzles, characterized in that they additionally supply the cleaner in the horizontal direction using an additional a cleaning section mounted vertically along the long side of the heat exchange section of the air-cooled apparatus tions, perpendicular to the connecting tube sheets. 2. The method according to p. 1, characterized in that through an additional cleaning section, the degree of air humidification is differentiated by heating temperature according to the rows of finned heat exchanger tubes of the air cooling apparatus using controlled nozzles installed on the pipes of the additional cleaning section.

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