RU2024339C1 - Method of cleaning inner surfaces of hollow articles - Google Patents

Abstract

FIELD: cleaning inner surfaces of pipes of solid deposition. SUBSTANCE: the chamber to be cleaned is sealed up and is partially filled with nonexplosive fluid. The remaining volume is filled with nonexplosive gas. Then liquid is subjected to electrolysis. As a result, gas is evolved forming explosive gas when it is mixed with nonexplosive gas. Explosive gas initiates detonation, thus creating shock wave. Under action of shock wave, particles of dirt are separated from inner surface of the hollow articles being cleaned. EFFECT: enhanced efficiency. 1 dwg

Description

 The invention relates to techniques for cleaning the inner surface of pipes from solid deposits and can be used in chemical, mining and other industries to destroy deposits and eliminate plugs without stopping the process.

 There is a method of cleaning pipelines from non-explosive deposits, in which electrodes are placed in the pipeline, a high voltage voltage is applied to them to create an electric discharge between the electrodes, which destroys and separates deposits, and then removes separated deposits from the pipeline, and the electrodes are installed stationary along the entire length of the pipeline, and the high-voltage voltage is supplied alternately, starting with the electrodes mounted on the end of the pipeline through which the distance from dix.

 The disadvantage of this method is the difficulty of its implementation due to the need to use a group of electrodes, their installation along the entire length of the pipeline and the presence of a high voltage voltage source.

 There is also known a method of cleaning the inner surface of the pipes, in which they create in the cavity of the pipes simultaneously from opposite sides a shock wave of equal power.

 The disadvantage of this method is the difficulty of its implementation due to the need for a high voltage power source.

 The closest technical solution to the invention is a method of cleaning the inner surfaces with explosive gas, which consists in filling the inner surface with explosive gas, which is then detonated, as a result of which the dirt particles accumulated on the inner surfaces are separated by the shock wave, and the inner surface has a number of exits that are hermetically closed, with the exception of one, by sealing means that break down when pressure appears on the inner the surface.

 The disadvantage of this method is the complexity and significant material costs in its implementation, as well as the need for a significant amount of explosive gas that must be stored, which increases material costs and limits widespread use.

 The aim of the invention is to simplify cleaning and reduce material costs during its implementation.

 This goal is achieved by sealing the cavity by installing sealing means on the outlet openings, filling the cavity with explosive gas, and then initiating detonation in it to create a shock wave, the cavity being filled with explosive gas by initially filling part of the cavity volume with non-explosive liquid, placing the remainder of the volume of non-explosive gas and subsequent electrolysis of the liquid with evolution of gas, which forms explosive gas when mixed with non-explosive gas.

 The drawing shows a diagram that implements the proposed method.

 The scheme for implementing the invention comprises a pipeline 1 and a chamber 2, which are filled with non-explosive liquid 3, for example, water. In chamber 2, electrodes 4 are installed immersed in liquid 3, explosive gas detonator 5, and a first check valve 7 for filling chamber 2 with non-explosive gas, for example, air. The detonator 5 is connected to a constant voltage source 9 through the make contact 11 of the time relay 10, one of the terminals of which is directly connected to the voltage source 9, and the second pin is connected to the voltage source 9 through the make contact 13 of the current relay 12. The electrodes 4 are also connected to the voltage source 9 through the winding of the current relay 12. Moreover, the electrodes 4 and the detonator 5 are galvanically isolated from the chamber 2 and installed in it, for example, using an epoxy compound.

 The method is implemented as follows.

 A chamber 2 is installed on the pipeline 1. A part of the volume of the chamber 2 is filled with water 3 from the pipeline 1, and the upper part of the volume of the chamber 2 is filled with air through the first check valve 7. If the electrodes 4 are in water, then an electric circuit is closed between the electrodes 4 and when a certain value in the current circuit reaches a current relay 12. Contacts 13 are closed and turn on the time relay 10. At the same time, electrolysis of water 3 is performed using electrodes 4. B Electrolysis produces oxygen and hydrogen. Part of the oxygen reacts with the material of the electrodes 4 and oxidizes them, and hydrogen in the mixture with air forms explosive gas 6. After a certain period of time, during which it is known that a sufficient amount of gas mixture has formed for the explosion, contacts 11 of the time relay are closed 10 and a spark is formed using the detonator 5, exposing the explosive gas 6 to detonation. As a result of the explosion of gas 6, a shock wave propagates through pipeline 1, under the influence of which the mud particles accumulated on the internal surfaces of the pipeline 1 are separated and carried away by the fluid stream 3.

 To prevent the destruction of the detonator 5 and the electrodes 4 as a result of the explosion, a second check valve 8 is installed, which operates at a certain excess pressure on the inner surface.

Claims (1)

 METHOD FOR CLEANING THE INTERNAL SURFACE OF HOLLOW PRODUCTS, which consists in sealing the cavity by installing sealing means on the outlet openings, filling this cavity with explosive gas and then initiating detonation in it to create a shock wave, characterized in that, in order to simplify cleaning and reduce material costs, filling the cavity with explosive gas is carried out by initially filling part of the volume of the cavity with non-explosive liquid, placing in the remaining part of the volume of non-explosive gas and eduyuschego electrolysis liquid with gas evolution that forms when mixed with the non-explosive gas, explosive gas.

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