RU2750030C1 - Device for washing out bottom sediments of liquid hydrocarbons in vertical tank of high capacity - Google Patents

Abstract

FIELD: oil industry.SUBSTANCE: invention relates to the field of liquid hydrocarbons storage, in particular oil and petroleum products; it can be used when implementing transport and warehouse operations at the objects of production, pumping and processing of liquid hydrocarbons. Invention concerns a device for washing out bottom sediments of liquid hydrocarbons in a vertical tank of high capacity, which contains two distribution pressure pipes located on the tank bottom with a V-shaped mutual joint at an angle of 60°С relatively to each other with nozzles evenly installed on the sidewalls of pipes in parallel with the tank bottom. The device also contains a supply pressure pipe with a V-shaped joint of distribution pressure pipes attached to its end part, a suction pipe installed above the level of bottom sediment formation, a pump connected to a longitudinal pressure pipe and a suction branch pipe. The device also has an inlet flushing branch pipe connected to the suction pipe at the site between shut-off valve installed on it and a place of its connection to the pump, an outlet flushing branch pipe connected to the longitudinal pressure pipe at the site between shut-off valve installed on it and a place of its connection to the pump, an intake flushing branch pipe attached from the inner side of the tank wall to a blind casing fixed on the suction pipe designed to ensure the tightness of its internal cavity and the difference between its cross-sectional area and the cross-sectional area of the suction branch pipe, approximately equal to the cross-sectional area of the intake flushing branch pipe, and an intermediate flushing branch pipe attached with one end to the suction pipe at the site between shut-off valve installed on it and a place of its connection to the pump and with the other end attached to the blind casing from the outer part of the tank wall. The pump is made providing a self-suction function. The intake flushing branch pipe is L-shaped, and the intermediate flushing branch pipe is U-shaped.EFFECT: increased efficiency of washing out bottom sediments of liquid hydrocarbons in the vertical tank of high capacity.1 cl, 2 dwg

Description

The invention relates to the field of storage of liquid hydrocarbons, in particular oil and oil products, and can be used in the implementation of transport and storage operations at facilities for the production, pumping and processing of liquid hydrocarbons.

One of the problems arising during the storage of liquid hydrocarbons, especially with long periods of keeping their reserves in vertical steel tanks of large capacity, is the formation of deposits in the bottom part of the reservoirs, which, as they accumulate, have an aggressive effect on the building structures and equipment of reservoirs and complicate their normal operation. This predetermines the need for the use of special devices to prevent the formation of such deposits and their removal.

When reviewing the technical literature, a number of technical solutions related to the specified problems were identified.

A device for washing bottom sediments in a tank with oil and oil products is known, containing a support body with an element for connecting the device to the tank wall, a shaft, one end of which is connected by means of transmission to the engine, and the other, with a propeller attached to it, passes into the tank, support elements and shaft seals relative to the support body, a sealing part between the support body and the reservoir cavity, a reducer put on the shaft inside the support body and providing angular rotation of the shaft in the horizontal plane (patent for invention RU 2220766, class B01F 15/00, B01 F7 / 00, published 10.01.2004, bulletin No. 1).

The disadvantages of this device are:

low efficiency of impact on bottom sediments located on the opposite side of the tank wall along the shaft axis from the place where the propeller is installed;

the complexity of the design, which complicates the maintenance and repair of the device during the operation of the tank;

the device lacks the ability to remove bottom sediments from the tank.

A known method of cleaning a reservoir from bottom sediments and a device for its implementation, including the supply of erosion fluid through a controlled shaft with a nozzle to the surface of bottom sediments, washing out bottom sediments with a jet of erosion liquid from a controlled shaft with a nozzle and removing washed out suspended sediments simultaneously with the process of erosion, separation of bottom sediments into separate areas with a jet of erosion liquid, control of the borehole with a nozzle depending on the state of bottom sediments over the area of the tank bottom, regular monitoring of the composition of the mixture of bottom sediments with erosion liquid during cleaning and expansion of the erosion zone with a decrease in suspension of bottom sediments in the mixture, containing pressure and stripping pipelines, a controlled shaft with a nozzle, mounted on one of the lower side hatches with the possibility of rearranging the stripping pipeline to another hatch, a stuffing box seal of the inlet of the pressure pipeline and stripping pipeline (patent for invention RU 2196062, cl ... B60S 3/00, B08B 9/08, publ. January 10, 2003, bull. No. 1).

The disadvantages of this method and device are:

the inability to wash out bottom sediments without emptying the reservoir from the oil products stored in it;

the complexity of the design caused by the need to equip the lower side hatches of the tank with devices for mounting pressure and stripping pipelines to ensure reliable tightness of the connections;

the complexity of operation, due to the need to rearrange the pressure head and stripping pipelines from one side hatch of the tank to another and their placement in the inner cavity of the tank.

Closest to the claimed invention is a method for washing bottom sediments in a reservoir, including exposure to an oil jet through the washing devices located on the bottom of the reservoir, changing the direction of the washing jet of oil due to rotation of the washing device by the supplied oil, regulating the supply of oil to each washing device, depending on rotation speeds of washing devices, oil intake from the zone without bottom sediments and its supply by a pump through pipelines located outside the tank wall (patent for invention RU В08В 9/093, publ. 27.02.2012, bul. No. 6).

The disadvantages of this method are:

the complexity of the design due to the use of a large number of pipelines to supply oil to each erosion device, which requires the use of a special unit to control their synchronous operation;

insufficient efficiency of erosion of bottom sediments formed along the perimeter of the tank wall due to the formation of opposite directions of the supply of oil jets through the erosion devices located on the outer side of the wall of a large-capacity tank;

the device lacks the ability to remove bottom sediments from the tank.

The problem solved in the invention is to eliminate these disadvantages by developing a simplified design of a device for washing bottom sediments of liquid hydrocarbons in a vertical reservoir of large capacity, which makes it possible to use it when washing bottom sediments formed along the perimeter of the walls of the tank, washing the bottom and walls of the tank at the level the formation of bottom sediments and the removal of eroded bottom sediments from the reservoir.

The technical result of the invention is to improve the efficiency of erosion of bottom sediments of liquid hydrocarbons in a vertical reservoir of large capacity.

The problem is solved, and the technical result is achieved as a result of the fact that, according to the invention, the device for washing bottom sediments of liquid hydrocarbons in a vertical reservoir of large capacity contains two distribution pressure distribution devices located on the bottom of the reservoir with a V-shaped mutual joint at an angle of 60 ° relative to each other. pipes with nozzles evenly installed on their sides parallel to the bottom of the tank, a supply pressure pipe with a V-joint of distribution pressure pipes attached to its end part, a suction pipe installed above the level of bottom sediment formation, a pump connected to a longitudinal pressure pipe and a suction pipe , an inlet flush nozzle connected to the suction nozzle in the section between the shut-off valve installed on it and the place of its connection to the pump, an outlet flush nozzle connected to the longitudinal pressure pipe in the area between the compartment installed on it a pumping valve and the point of its connection to the pump, an intake flush nozzle connected from the inside of the tank wall to a blind casing fixed on the suction nozzle, made to ensure the tightness of its inner cavity, an intermediate flush nozzle connected by one end to the suction nozzle in the area between a shut-off valve installed on it and the place of its connection to the pump, and with its other end connected to a blank casing on the outside of the tank wall.

The invention is illustrated in FIG. 1 and 2.

FIG. 1 schematically shows a device for washing bottom sediments of liquid hydrocarbons in a vertical reservoir of large capacity, a sectional top view.

FIG. 2 schematically shows a device for washing out bottom sediments of liquid hydrocarbons in a vertical reservoir of large capacity, side sectional view.

FIG. 1 and 2, the following designations are used:

1 - tank wall;

2 - supply pressure pipe;

3 - distribution pressure pipe

4 - nozzle;

5 - suction branch pipe;

6 - blind casing;

7 - pump;

8 - inlet flushing branch pipe;

9 - outlet flushing branch pipe;

10 - cut-off valve;

11 - intake flush pipe;

12 - intermediate flush pipe;

13 - the bottom of the tank.

A device for washing bottom sediments of liquid hydrocarbons in a vertical reservoir of large capacity operates as follows.

Into the inner cavity of the tank through its wall 1, a supply pressure pipe 2 is introduced with two nozzles installed at its end on the sides parallel to the bottom of the tank 13 4. On the bottom of the tank 13, two distribution pressure distributions are placed with a V-shaped mutual joint at an angle of 60 ° relative to each other pipes 3 with nozzles 4 evenly installed on their sides parallel to the bottom of the tank 4. The V-joint of the distribution pressure pipes 3 is connected to the end part of the supply pressure pipe 2, the reverse end of which is connected to the pressure line of the pump 7. In this case, the pump 7 is selected to ensure that they have a self-priming function (for example, according to RF patent No. 2624420). A shut-off valve 10 is installed between the pump 7 and the wall of the tank 1 on the supply pressure pipe 2. A blank casing 6 is fixedly installed on the suction nozzle 5 to ensure the tightness of its internal cavity and the difference between its cross-sectional area and the cross-sectional area of the suction nozzle 5, approximately equal to the area of the cross-section of the intake flushing pipe 11. The blank casing 6 is passed through the wall of the tank 1, and the end of the suction pipe 5 located in it from the outside of the wall of the tank 1 is connected to the suction line of the pump 7. Between the pump 7 and the deaf protective casing 6 on the suction pipe 5 is installed cut-off valve 10. To the blank casing 6 from the inner side of the wall of the tank 1, attach the end of the intake flushing pipe 11, which has an L-shaped shape, and its opposite end is installed above the bottom of the tank 13. From the outside of the wall of the tank 1, the end of the intermediate a clear flush nozzle 12, having a U-shape, the second end of which is connected to the suction nozzle 5 in the area between the shut-off valve 10 installed on it and the place of its connection to the pump 7. On the intermediate flush nozzle 12, a shut-off valve 10 is installed. 5, in the section between the shut-off valve 10 installed on it and the place of its connection to the pump 7, the inlet flushing pipe 8 with the shut-off valve 10 installed on it is connected, and to the supply pressure pipe 2 in the section between the shut-off valve 10 installed on it and the place of its connection to the pump 7 is connected to the outlet flushing pipe 9 and a shut-off valve 10 is installed on it.

In the stage of erosion of bottom sediments, the shut-off valves 10 are closed at the inlet 8 and outlet 9 flushing nozzles, as well as on the intermediate flushing nozzle 12, the shut-off valves 10 are opened on the supply pressure pipe 2 and the suction nozzle 5. Pump 7 is turned on and the liquid hydrocarbon is supplied in the tank above the level of bottom sediment formation, along the suction nozzle 5 through the pump 7 through the distribution pressure pipes 3 into the nozzles 4. As a result, bottom sediments are washed out in the direction of supplying jets of liquid hydrocarbon over the entire area of the bottom of the tank 13 and along the entire perimeter of the wall of the tank 1. After the end of the stage of erosion of bottom sediments, the pump 7 is turned off and the shut-off valves 10 on the supply pressure pipe 2 and the suction pipe 5 are closed.

In the stage of washing the bottom 13 and walls 1 of the tank after emptying the tank to the level of bottom sediment formation, the inlet flushing nozzle 8 is connected to a vessel with a flushing liquid (not shown). Close the shut-off valves 10 on the suction nozzle 5, the intermediate flush nozzle 12 and the outlet flush nozzle 9, open the shut-off valves 10 on the inlet flush nozzle 8 and the supply pressure pipe 2. Turn on the pump 7 and supply the flushing liquid from the tank for receiving the flushing liquid (not shown) through the inlet flushing nozzle 8 and pump 7 along the supply 2 and distribution 3 pressure pipes into the nozzles 4. After the end of the stage of flushing the bottom 13 and the wall 1 of the tank, pump 7 is turned off and the shut-off valves 10 on the inlet flushing nozzle 8 and longitudinal pressure pipe 2 are closed ...

At the stage of removal of washed-out bottom sediments, the outlet flush nozzle 9 is connected to a container for receiving flushing liquid (not shown), the shut-off valves 10 on the supply pressure pipe 2, the suction nozzle 5 and the inlet flush nozzle 8 are closed, the shut-off valves 10 are opened at the outlet flush nozzle 9 and intermediate flush nozzle 12. Pump 7 is turned on and the eroded bottom sediments are fed through the intake flush nozzle 11, the blank casing 6, the intermediate flush nozzle 12, pump 7 and the outlet flush nozzle 9 into a container for receiving flushing liquid (not shown). After the end of the stage of removal of washed-out bottom sediments, the pump 7 is turned off and the shut-off valves 10 at the outlet flush nozzle 9 and the intermediate flush nozzle 12 are closed.

Thus, as a result of the implementation of the proposed technical solution, an increase in the efficiency of erosion of bottom sediments of liquid hydrocarbons in a vertical reservoir of large capacity is provided due to the possibility of using a device for erosion of bottom sediments of liquid hydrocarbons in a vertical reservoir of large capacity, as in the erosion of bottom sediments formed along the perimeter of the tank walls and when flushing the bottom and wall of the tank at the level of formation of bottom sediments and when removing eroded bottom sediments from the tank.

Claims (1)

A device for washing out bottom sediments of liquid hydrocarbons in a vertical tank of large capacity, containing two distribution pressure pipes located on the bottom of the tank with a V-shaped mutual articulation at an angle of 60 ° relative to each other with nozzles evenly installed on their sides parallel to the bottom of the tank, a supply pressure pipe with a V-joint of distribution pressure pipes attached to its end part, a suction pipe installed above the level of bottom sediment formation, a pump connected to a longitudinal pressure pipe and a suction pipe, an inlet flushing pipe connected to the suction pipe in the area between the cutoff valve and the place of its connection to the pump, the outlet flush pipe connected to the longitudinal pressure pipe in the section between the shut-off valve installed on it and the point of its connection to the pump, the intake flush pipe connected to the internal side of the tank wall to a blind casing fixedly mounted on the suction nozzle, made to ensure the tightness of its internal cavity and the difference between its cross-sectional area and the cross-sectional area of the suction nozzle, approximately equal to the cross-sectional area of the intake flush nozzle, an intermediate flush nozzle connected by one of its end to the suction nozzle in the section between the shut-off valve installed on it and the place of its connection to the pump, and with its other end connected to a blank casing on the outside of the tank wall, while the pump is designed to provide a self-priming function, the intake flush nozzle is L-shaped, and the intermediate flush port is U-shaped.

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