RU2254175C2 - Method of hydro-engineering system cavity cleanout and a device for its realization - Google Patents

Abstract

FIELD: chemical and petrochemical industries and mechanical engineering; cleanout of internal surfaces of pipelines, hydro-engineering and heat engineering systems.

SUBSTANCE: the invention presents a group of inventions intended for cleanout of inner surfaces of pipelines, the hydro-engineering and heat engineering systems equipment from different industrial impurities. The method provides for in series feeding of a liquor and gas-liquid streams into an internal cavity, formation of oscillations in the liquid stream and in front of a gas-liquid stream. Into a cavity they first feed a gas stream and then alternately the liquid and gas-liquid streams, change direction of oscillations of gaseous, liquid and gas-liquid streams and form the rear oscillations, pump out and clean the liquid and gas-liquid streams from pollution. Then repeatedly use the cleaned liquid. The device for realization of the method contains a gas feeding line and a unit to control the compressed gas feeding for formation a gas-liquid stream, a liquid feeding line with a container, a unit of filters, a centrifugal pump supplied by a by-pass line with a gate on it. The device is supplied with a line of a drain of a liquid and gas-liquid stream into the container coupled with the liquid feeding line from the filters unit, and the gas feeding line is directed also to formation of a gas stream. Besides the unit of the compressed gas feeding control consists of a pressure-reducing valve and a manometer gage. The device is also provided with the members for its fastening to the cleaned hydro-engineering system and connected to the lines of and feeding and discharge of the gaseous, liquid and gas-liquid streams through the electromagnetic valves, which are controlled by the electronic control unit. The group of inventions ensures improvement of the quality and productivity of the complex hydro-engineering systems internal cavities cleanout.

EFFECT: the group of inventions ensures improvement of the quality and productivity of the complex hydro-engineering systems internal cavities cleanout.

3 cl, 1 dwg

Description

The invention relates to the cleaning of the internal surfaces of pipelines, hydro- and heat engineering systems from various industrial pollution and can be used in engineering, chemical and other industries.

A known method of cleaning the cavity of the pipeline according to the author's certificate of the USSR No. 1345425 (publ. 15.03.92). The method consists in the fact that gas is pulsed into the liquid and the resulting gas-liquid stream is pumped through the pipeline with alternating two modes of its flow, in one of which the volumetric flow rate of gas flow is set in the range of 0.73-0.87, which characterizes the projectile flow mode. In the second mode, the volumetric gas flow rate of the flow is 0.89-0.99 and characterizes the dispersed-ring flow regime.

This method is carried out in the installation, known from the same copyright certificate, containing a hydropneumatic displacer, a compressed gas supply control unit made in the form of parallel-connected fixed gas flow lines, each of which contains an adjustable throttle and a distribution valve. Hydropneumatic displacer contains a pressure reduction system, consisting of a distributor and a differential pressure sensor on the pipeline, and the distributor and the sensor are connected through a control unit. The installation also includes a gas supply line and a liquid supply system. The gas supply line includes a gas supply line for creating a gas-liquid flow, a hydropneumatic displacer, a reducer, a throttle, a distributor. The fluid supply system consists of a receiving device, a bath, a centrifugal pump, a filter unit, a check valve, a discharge line, in which a flowmeter sensor is connected, connected with the control means and the distributor. There is a logical device such as a programmable controller, which includes units of installation depending on the signals of the measuring instruments.

The described method and installation provide cleaning of pipelines placed in the bath of this installation. Cleaning of complex thermotechnical cavities, such as a radiator of a heating system, having large dimensions, as well as stagnant zones with silty deposits, scale and rust, cannot be provided in this installation.

Closest to the proposed invention relating to a method for cleaning a cavity of a hydraulic system is a method for cleaning the inner surface of pipelines according to USSR author's certificate No. 1210302 (publ. March 15, 92).

This method consists in alternately supplying liquid and gas-liquid flows into the cavity of the pipeline, generating vibrations in the liquid flow and in front of the gas-liquid flow front, the vibrations being formed with a period shorter than the time of sedimentation of the particles of contaminants.

However, even with this method of cleaning the inner surface of pipelines, high-quality cleaning of complex hydraulic cavities, such as channels of a water-cooled mold, bellows, bends, and others having stagnant zones, is not achieved.

The proposed inventions solve the problem of improving the quality and performance of cleaning complex hydraulic cavities by providing removal of cleaning products during reversal of gas, liquid and gas-liquid flows.

To obtain such a technical result, in the proposed method for cleaning the cavity of a hydrothermal system, which includes alternately supplying liquid and gas-liquid flows into the cavity, generating vibrations in the liquid stream and in front of the gas-liquid flow front, the gas stream is initially supplied to the cavity, and then alternately liquid and gas-liquid, change the direction of oscillation gas, liquid and gas-liquid flows and form rear oscillations, pump and clean the liquid and gas-liquid flows from contaminants contaminants and then recycled purified liquid.

Distinctive features of the proposed method are the introduction into the cavity of the original gas stream, and then alternately liquid and gas-liquid, changing the direction of oscillation of the gas, liquid and gas-liquid flows and the formation of rear vibrations, pumping and cleaning the liquid and gas-liquid flows from pollution, and then reusing the purified liquid .

The introduction of an initial gas flow into the cavity allows the system to be purged by removing individual dry particles of contamination from it, which swell, stick together and create a mud plug when liquid is introduced.

Changing the direction of flow fluctuations, that is, reversing them, allows applying not only frontal, but also rear hydro and pneumatic impacts on pollution, which improves the quality of cleaning stagnant zones of hydrothermal systems and reduces cleaning time. Pumping and purifying the liquid stream allows to reduce the flow rate of the liquid, using it again for the next purification object.

The best result with a high degree of contamination of the system is achieved when using phosphoric acid as a liquid, which after cleaning leaves an oxidation-resistant phosphate film on the surface of the cavity.

To achieve the named technical result, a device is proposed which, like the closest known one from a. from. USSR No. 1345425, contains a gas supply line and a unit for controlling the supply of compressed gas to create a gas-liquid flow, a liquid supply line with a container, a filter unit, a centrifugal pump and a crane. In contrast to the known device, the device is equipped with a line for draining liquid and gas-liquid flow into a container connected to the liquid supply line with a filter unit, and a gas supply line is also aimed at creating a gas stream, in addition, the compressed gas supply control unit consists of a pressure reducing valve and a pressure gauge, the device is also equipped with fasteners to the cleaned hydraulic system connected to the supply and discharge lines of gas, liquid and gas-liquid flow through solenoid valves, which controlled by an electronic unit, and the centrifugal pump is equipped with a bypass line with a crane installed on it.

The invention is illustrated by a drawing, which shows a diagram of a device for cleaning the cavity of a hydraulic system.

The proposed method is carried out in the following sequence. In order to clean the heat engineering system at the first stage, the air flow is pulsed into its cavity, changing the pressure, creating frontal vibrations, and pumping it out, and, if necessary, changing the direction of its vibrations, making them rear. The next step is a water stream or a stream of any other washing liquid, vibrations form in it both in front of the front of the stream and from the rear, pump out and clean the water stream from pollution and again feed it into the cavity of the hydraulic system. To create a cavitation process, an air-water stream is supplied, rear vibrations are formed in it, the gas-liquid stream is pumped out and cleaned. With a large degree of pollution, not water, but phosphoric acid is used as a liquid.

The proposed device contains a liquid supply line 1, including a washing liquid tank 2, connected to a filter unit 3, a centrifugal pump 4 with a bypass line 5 and a valve 6 for regulating the liquid pressure. The electromagnetic valve 7, used to create oscillations of the fluid flow and to cut off the gas from the centrifugal pump 4 when creating oscillations of the gas flow, is installed on the fluid supply line and is interconnected with the electromagnetic valves 8 and 9. The electromagnetic valves 8 and 9 are connected to the nozzles 10 and 11, mounted on the cleaned hydraulic system 12, and a pressure gauge 13 measuring the pressure of this fluid stream. The solenoid valves 14 and 15 are connected to the drain line 16, as well as to the nozzles 10 and 11. The gas supply line 17 is equipped with a pressure reducing valve 18 that changes the gas pressure, a pressure gauge 19 for measuring it, and an electromagnetic valve 20 designed to mix gas with liquid . The electromagnetic valves 21 and 22 are installed on the drain line 16 and are also connected to the nozzles 10 and 11. The electronic unit 23 is installed with the ability to control all electromagnetic valves.

The device operates as follows.

The fastening elements, in our case, nozzles 10 and 11, are connected to the hydrotechnical system being cleaned 12. At the first stage of cleaning, the gas stream through its supply line 17 enters the pressure reducing valve 18, which allows changing the pressure and controlling it according to the pressure gauge 19. Then through open electromagnetic valves 20 and 8, through the pipe 10, the gas stream blows through the cleaned hydraulic system 12 and is discharged through the pipe 11, the open valve 15 into the drain line 16. To change the direction of oscillations of the gas stream, the electromagnetic valves 8 and 15 they are closed, and the gas flow passes through the open solenoid valves 20 and 9, the nozzle 11, the cleaned hydraulic system 12, the nozzle 10, the open solenoid valve 14 and is discharged to the drain line 16. At the second stage, the liquid flow from the tank 2 through the filter unit 3 is pumped by centrifugal pump 4 into the fluid supply line 1. Using the bypass line 5 and the crane b installed on it, the necessary pressure is established at the outlet of the centrifugal pump 4, measured by a pressure gauge 13 with the solenoid valve 7 open. the solenoid valves 7 and 9, the nozzle 11, the liquid flow at minimum pressure, to prevent the formation of mud plugs, enters the cleaned hydraulic system 12. Then, through the nozzle 10, the open solenoid valve 14, the drain line 16, the liquid stream with pollution particles is returned to the tank 2 In a third step, using a gas supply line 17, a pressure reducing valve 18, and a solenoid valve 20, a gas stream is introduced into the liquid stream, and thus, the hydraulic system 12 is cleaned with a gas-liquid flow. Reverse, that is, a change in the direction of oscillations of the liquid and gas-liquid flow is carried out on the same devices as the reverse of the gas flow. At the end of the cleaning process, the centrifugal pump 4 pumps the fluid from the hydraulic system 12 through the open solenoid valves 22, 20 and 21, the drain line 16 into the container 2. For high-quality cleaning of the used fluid, it is passed several times through the filter unit according to the following scheme: filter unit 3, fluid supply line 1, centrifugal pump 4, open solenoid valves 7 and 21, drain line 16, tank 2.

The proposed method for cleaning the cavity of the hydraulic system and the device for its implementation allow, in contrast to the prototypes, to carry out high-quality cleaning of complex heat engineering cavities with stagnant zones of silty deposits, scale and rust, with the restoration of the duct to the design level, as well as to reduce the cleaning time and fluid flow. In addition, the working conditions and safety of staff are improved.

Claims (3)

1. The method of cleaning the cavity of the hydraulic system, which consists in alternately feeding liquid and gas-liquid flows into the cavity, generating vibrations in the liquid stream and before the front of the gas-liquid stream, characterized in that the gas stream is initially supplied to the cavity, and then alternately liquid and gas-liquid, change direction oscillations of gas, liquid and gas-liquid flows and form rear oscillations, pump out and clean the liquid and gas-liquid flows from pollution, and then reuse use purified liquid. 2. A device for cleaning a cavity of a hydraulic system, comprising a gas supply line and a compressed gas supply control unit for creating a gas-liquid flow, a liquid supply line with a container, a filter unit, a centrifugal pump and a crane, characterized in that it is provided with a liquid and gas-liquid flow discharge line into the container connected to the liquid supply line by the filter unit, and the gas supply line is also aimed at creating a gas flow, in addition, the compressed gas supply control unit consists of a pressure reducing valve and a manometer, the device is also equipped with fastening elements to the hydraulic system to be cleaned, connected to the supply and drain lines of gas, liquid and gas-liquid flows through electromagnetic valves controlled by the electronic unit, the centrifugal pump being equipped with a bypass line with a crane installed on it. 3. The method of cleaning the cavity of the hydraulic system according to claim 1, characterized in that orthophosphoric acid is used as the liquid.