SU1413397A2 - Method of cleaning inner surface of reservoirs - Google Patents

Abstract

The invention makes it possible to increase the cleaning efficiency of the inner surface of the containers. Water is pumped through the containers to be cleaned with a filler in the form of ice balls. The balls are obtained by supplying air to the water, cooled from minus 5 to minus 10 C. Some of the water, before being fed into the formation of ice balls, is saturated with air to form balls of different density. 1 il.

Description

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The invention relates to methods for cleaning internal surfaces of containers from deposits of mineral and biological origin and can be used in heat and power engineering, in particular for cleaning tubes of steam turbine condensers.

The aim of the invention is to increase the cleaning efficiency by uniformly distributing the ice balls over the cross section of the heat exchanger.

The method consists in pumping water through the cleaned tanks with the filling in the form of ice balls, which are obtained by supplying air cooled to minus 5 to minus. Part of the water, before being supplied to the formation of ice balls, is saturated with air to form balls of different density.

The drawing shows schematically an apparatus for carrying out the proposed method.

A device for cleaning the inner surface of containers, for example, a condenser 1 with tubes 2, contains an air pipe 3 with a control valve 4 for supplying air to the cold generator 5, a pressure pipe 6 for supplying cooling water to a condenser equipped with a valve 7. A bypass pipe is connected to the main pipe 6 pipe 8 with a valve 9. The cold generator 5 is connected to the inlet chamber of the condenser 1 by a pipe 10. The displacement chamber 11 is connected to the bypass pipe 8 by a pipe 12. A bubbler is installed in the chamber 11, for example p, in the form of a cap plate 13 with small holes. The bubbler 13 pipe 14 with a valve 15 is connected to the compressed air pipeline, and the chamber 11 pipe 16 - with the pipe 10.

Cleaning the inside surfaces of the tubes is as follows.

Cooling water with a temperature of 5-25 ° C flows through the pressure pipe 6 through the valve 7 into the tubes 2 of the condenser 1. Part of the cooling water is discharged through the valve 9 into the bypass pipeline 8, from which it flows into the inlet chamber of the condenser 1 (partially through directly pipe 10, partially through the mixing chamber 11 and pipe 10). Through pipe 14 and valve 15, air is supplied to chamber 11, which, through the openings of plate 13, is saturated with water, and part of the air is dissolved in water.

In the generator 5 cold serves air, regulating its flow valve 4.

The air cooled to minus temperature is fed to the nozzle 10. When mixing cold air and water supplied through pipelines B and 16 to the nozzle 10, ice forms in it

balls of various degrees. The balls formed in the pipe 10 from the water coming through the pipeline 8 have a density approximately equal to that of water. The density of ice balls formed from water that entered through conduit 16 from the mixing chamber 11 and is saturated with air is 0.8-0.9 the density of water. The formed ice balls of different density together with water and air enter the contact chamber of the condenser 1 and are evenly distributed through the tubes 2 of the heat exchanger. Internal cleaning

of the deposits from the existing deposits occurs due to the friction of the ice balls against the walls of the tubes, as well as the interaction of the turbulized water-air flow with deposits on the walls

tubes. The destruction of deposits is also due to their temperature deformations due to contact with ice balls and rapid cooling. Destroyed sediment deposits from

heat exchanger by air flow.

Formation of ice balls of various. density ensures their uniform distribution in the receiving chamber of the capacitor and its tubes,

which will increase the efficiency of cleaning tubes of heat exchangers.

Claims (1)

Invention Formula The method of cleaning the internal surface of the containers St. No. 1221476, characterized in that, in order to increase the cleaning efficiency, a portion of the water before being supplied to the formation of ice balls is saturated with air to form balls of different density. Compressed cart Cooling Baud