RU2160641C1 - Device for cleaning of internal surface of tank for storage and transportation of oil products - Google Patents

Abstract

FIELD: equipment for cleaning of walls of vessels from residual oil products and impurities. SUBSTANCE: device has hose for supply of washing liquid and/or steam connected with spraying multinozzle head, means for changing position of head on which means for mechanical cleaning of tank internal surface are installed. Spraying multinozzle head is made in form of two-sectional body. The first section is connected with hose for supply of washing liquid, and the second section is installed for rotation round the first one. Communicated with side surface of the second section are branch pipes. Installed square to each branch pipe end is reactive head with spraying nozzle. All nozzles are made with same direction of vector of force moment between direction of corresponding branch pipe from the second section and direction of force of reactive jet coming from nozzle of liquid and/or steam. Means for mechanical cleaning of tank internal surface are made in form of flexible or spring- loaded scrapers attached to branch pipe lower side and reactive heads. Free end of the second section has plug through which discharge hose is passed and connected with means of pumping out of liquid fraction. EFFECT: higher quality of cleaning of tank internal surface of any configuration and type of oil product without damage to tank internal surface. 8 cl, 2 dwg

Description

 The invention relates to a means of cleaning the walls of the tanks from the remnants of petroleum products and the contaminants that are present.

 When cleaning reservoirs in which oil products such as oil, diesel fuel, gasoline, fuel oil and various petroleum oils are stored or transported, a significant problem is the removal of residues of these oil products having significant viscosity and high adhesion between them and the inner walls of the tanks, and the residues whose properties are largely changed due to the mandatory presence of contamination of these petroleum products, such as mechanical pollution, water, chemical pollution, etc. Removable residues and contaminants can often enter into chemical reactions of interaction with cleaning elements, stick to them, clog nozzles that feed detergents, which significantly complicates the cleaning process and can significantly reduce the efficiency of this process, significantly increase the consumption of detergents, etc. Therefore, when developing tank cleaning devices, these negative phenomena must be overcome first. In addition, it must be borne in mind that the contaminants in the tanks accumulate unevenly, so on the bottom of the tank the pollution layer will be maximum with a gradual decrease in its thickness as the height of the position of the part of the walls of the tank increases (for example, when using the tank with a cylindrical or spherical shape), onto which it sticks . In the upper part of the tank, sticking of the viscous part of oil products with contaminants and their removal also requires certain design features. Thus, the task is to effectively remove contaminants and residues of oil products from the entire inner surface of the tanks for their storage and / or transportation, such as, for example, railway and automobile tanks, oil storage tanks, corresponding tanks of oil loading vessels, etc.

 Based on this, technical solutions were selected that solve the specified cleaning tasks.

 A device for cleaning the inner surface of the tank, including a chamber with electrodes and means for their attachment, as well as a water supply fitting (patent of the Russian Federation N 2052295, publ. 20.01.96). When current is supplied to the electrodes in a liquid medium, an electric discharge occurs, followed by an electric shock, which crushes the pollution containers adhering to the inner walls, after which their removal is not difficult. However, this device is not suitable for cleaning containers with combustible residues, as there is the possibility of an explosion of oil vapor.

 It is also known a device for cleaning the inner surface of the pipeline, including a system of cutting nozzles, combined with a suction sleeve (US patent N 4574825, publ. 11.03.86). In this case, the removal of contaminants cut from the inner surface of the tank is carried out by suctioning them along the sleeve. But with significant viscosity of petroleum products, such a device is also ineffective.

 A device is known for extracting solid mass from a reservoir, including a fluid supply unit in communication with a coolant supply source (patent of the Russian Federation N 2067506, publ. 10.10.96). In this case, the coolant significantly reduces the viscosity of the solid mass adhering to the inner walls and makes it possible to simply remove the liquefied solid mass from the tank. However, the disadvantage in this case is the impossibility of extracting mechanical impurities adhering to the inner walls of the tank.

 Somewhat better this kind of cleaning is implemented in a device that includes two systems of jet nozzles rotating under the action of jets exiting from them (patent of the Russian Federation N 2021042, publ. 15.10.94), however, in this case, solid precipitation cannot be removed.

 The closest analogue of the invention is a device for cleaning the inner surface of the tank for storing or transporting petroleum products, including a sleeve for supplying a fluid in communication with a spray multi-nozzle head, and means for changing the position of the head, the spray head being made in the form of a two-section housing, the first section of which is connected with a sleeve for fluid supply, and the second is mounted rotatably relative to the previous one and has rigidly communicated with its side surface nozzles with nozzles (see patent RU N 2030224, class B 08 B 9/08, 1995).

 However, the effectiveness of this device is small, and it is also due to the lack of forced removal of the used liquid mixed with oil waste, and pollution.

 The technical result of the present invention is to increase the efficiency of the device, improving the quality of cleaning the inner surface of the tank of any configuration with any type of oil without damaging its inner surface.

 This technical result is achieved due to the fact that the device for cleaning the inner surface of the tank for storing or transporting oil products includes a sleeve for supplying washing liquid and / or steam in communication with the spray multi-nozzle head, and means for changing the position of the head, the spray multi-nozzle head being made in the form of a two-section case, the first section of which is communicated with a sleeve for supplying a washing liquid, and the second is mounted rotatably relative to the previous one and has the nozzles with nozzles rigidly connected with its lateral surface, the multi-nozzle head is equipped with means for mechanically cleaning the inner surface of the tank, and at the end of each nozzle there is a reaction head with a spray nozzle perpendicular to this nozzle, and all nozzles are made with the same direction of the force moment vector between the direction of the corresponding the nozzle from the second section and the direction of the force of the jet stream emanating from the nozzle of the liquid and / or steam, and the means of mechanical cleaning The inner surface of the tank is made in the form of scrapers, which are mounted on the underside of the nozzles and reaction heads, are elastic or spring-loaded relative to the latter, the free end of the second section having a plug through which a bypass sleeve is connected, which is in communication with the pumping unit for the liquid fraction.

 In addition, a branch sleeve may be provided with a skirt.

 In the particular case, the skirt can be equipped with air evacuation means, and the profile of the lower edge of the skirt can be made wavy or has cutouts, and holes can be made in the skirt itself.

 In addition, the second section can be equipped with additional nozzles with hydro-jet emitters of ultrasonic waves with the possibility of working in cavitation mode.

 Moreover, the means of pumping the liquid fraction, it is advisable to perform with the possibility of a controlled change in its performance.

 In addition, the plug may be provided with supports with the ability to control their length.

 In FIG. 1 schematically shows a device for cleaning the inner surface of a tank for storing or transporting petroleum products, FIG. 2 is a sectional view of a second section of a spray multi-nozzle head.

 The device for cleaning the inner surface of the tank 1 for storing and / or transporting petroleum products includes a sleeve 2 for supplying washing liquid and / or steam in communication with the spray multi-nozzle head 3 associated with means 4 for changing its position, on which mechanical cleaning tools for the inner surface of the tank are also installed 1, and the spray multi-nozzle head 3 is made in the form of a two-section housing, the first section 5 of which is in communication with a sleeve 2 for supplying a washing liquid, and the second 6 is installed it can rotate relative to the previous one and has nozzles 7 rigidly connected with its side surface, at the end of each of which there is a reaction head 8 perpendicularly mounted to this nozzle 7 with a spray nozzle 9, all nozzles 9 being made with the same direction of the force moment vector between the direction of the corresponding nozzle 7 from the second section 6 and the direction of the jet stream force emanating from the nozzle 9 of the liquid, and the means of mechanical cleaning of the inner surface of the tank are made in the form of The flanges 10, which are mounted on the underside of the nozzles 7 and the reaction heads 8, are resilient or spring-loaded relative to the latter, moreover, the free end of the second section 6 has a plug 11 through which a sleeve 12 is connected, connected with the means 13 for pumping the liquid fraction. In this case, the branch sleeve 12 may be provided with a skirt 14. The latter may have means 15 for pumping air. The profile of the lower edge of the skirt 14 can be made wavy or has cutouts, and holes 16 can be made in the skirt 14 itself. The second section 6 can be equipped with additional nozzles 17 with hydro-jet emitters 18 of ultrasonic waves with the possibility of operation in the cavitation mode. Means 13 pumping the liquid fraction, it is advisable to perform with the possibility of controlled changes in its performance. The plug 11 may be provided with supports 19 with the possibility of adjusting their length.

 A device for cleaning the inner surface of the tank is as follows.

 In the container to be cleaned 1, a sleeve 2 is placed through the neck for supplying a washing liquid and / or steam, which can be used as hot water, a solution including surfactants, etc., the solution composition being selected based on the type of oil product and contaminants, available in the tank, and the spray head 3 itself, while setting its initial position is carried out by means 4, which can be used, for example, a system of controlled telescopic racks with the possibility of changing their lengths and angularly about the position relative to each other, etc. Liquid and / or steam are supplied along the sleeve 2, which, passing along the sleeve 2 and the first section 5 of the head 3, enter the second section 6 and then pass through the nozzles 7 to the reaction heads 8, after whereby the steam and / or liquid jets are discharged through the spray nozzles 9. The presence of a moment of force between the direction of the nozzle 7 and the reaction of the liquid and / or steam from the nozzle 9 rotates the second section 6 of the head 3. At the same time, the scrapers 10 mounted on the lower side of the nozzles 7 and reaction heads 8 are in contact with clean th surface.

 Thus, the liquid and / or steam supplied along the sleeve 2 flush the oil product adhering to the inner walls of the tank 1 and at the same time move the nozzles 7, and the scrapers 10 combined with them mechanically clean the walls of the tank 1. The scrapers 10 are elastic or spring-loaded relative to the nozzles 7 and heads 8 protects the walls of the tank from mechanical damage, scrapers 10 practically copy the cleaned profile. Since the second section 6 of the head 3 has a plug 11 on its free end (i.e., that end that is not connected with the first section 5), through which a branch sleeve 12 is passed, the means 13 for pumping the liquid fraction pump out the diluted oil mixed with crushed contamination, the sleeve 12, it is advisable to have inside the sleeve 2.

 To increase the efficiency of the device, the branch sleeve 12 is provided with a skirt 14, therefore, when the means 13 are in operation, the effect of sucking the skirt to the surface of the tank is created and pumping out the liquid is more efficient. When working on the ceiling parts of the tank 1, it is advisable to provide the skirt 14 with means 15 for pumping air, which simplifies the fixation of section 6 on these parts of the tank due to the same effect. To improve the supply of pumped liquid under the skirt 14, it is advisable to make the profile of its lower edge wavy or with a notch and / or in the skirt 14 itself to make holes 16. It is also advisable to produce the second section 6 with additional nozzles 17 with hydro-jet emitters 18 of ultrasonic waves with the possibility of operating in the mode cavitation, since during the passage of the washing fluid through these emitters 18, local significant pressure drops occur at the boundary of the resulting gas bubbles during cavitation and such an effect on pollution loads and oil allows to improve cleaning and to obtain more fine pumped medium with lower viscosity, which facilitates its removal.

 Removing the pumped liquid is also simplified by the execution of the tool 13 with the possibility of a controlled change in its productivity, i.e., as experiments have shown, changing the magnitude of the pumped liquid stream makes it possible to more effectively draw it into the sleeve 12 with additional cleaning of the adjacent surfaces of both the device and reservoir 1. The presence of supports 19 on the plug 11 allows, if necessary, to copy the profile of the bottom of the tank 1 at a given level, which contributes to the complete exception Mechanical Protection damage the tank surface.

 The application of the proposed device can significantly improve the quality of cleaning the inner surface of the tank of any configuration for any type of oil and the type of pollution without damaging its inner surface with low energy consumption.

Claims (8)

 1. A device for cleaning the inner surface of the tank for storing or transporting petroleum products, including a sleeve for supplying washing liquid and / or steam, in communication with the spray multi-nozzle head, and means for changing the position of the head, the spray multi-nozzle head made in the form of a two-section housing, the first section of which is communicated with a sleeve for supplying washing liquid and / or steam, and the second is mounted rotatably relative to the previous one and has rigidly communicated with its side surface nozzles with nozzles, characterized in that the multi-nozzle head is equipped with means for mechanically cleaning the inner surface of the tank, and at the end of each nozzle there is a reaction head perpendicular to this nozzle with a spray nozzle, all nozzles being made with the same direction of the force moment vector between the direction of the corresponding nozzle from the second section and the direction of the force of the jet stream emanating from the nozzle of the liquid and / or steam, and the means of mechanical cleaning of the inner surface The reservoir parts are made in the form of scrapers, which are mounted on the underside of the nozzles and reaction heads, are elastic or spring-loaded relative to the latter, the free end of the second section having a plug through which a bypass sleeve is connected, which is in communication with the liquid fraction pumping means.  2. The device according to claim 1, characterized in that the outlet sleeve is equipped with a skirt.  3. The device according to claim 2, characterized in that the skirt is equipped with air evacuation means.  4. The device according to claim 2, characterized in that the profile of the lower edge of the skirt is made wavy or has cutouts.  5. The device according to claim 2, characterized in that the holes are made in the skirt.  6. The device according to claim 1, characterized in that the second section is equipped with additional nozzles with hydro-jet emitters of ultrasonic waves with the possibility of working in cavitation mode.  7. The device according to claim 1, characterized in that the means for pumping the liquid fraction is made with the possibility of a controlled change in its performance.  8. The device according to claim 1, characterized in that the plug is equipped with supports with the ability to control their length.

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