KR20190025448A - Suction nozzle of sludge on crude oil tank - Google Patents

Abstract

The present invention relates to a sludge suction nozzle of a crude oil tank. The sludge suction nozzle sucking sludge in a state of being soaked in sludge within a crude oil tank is characterized by comprising an air pipe therein, through which external air can be introduced so as to prevent the inside of the suction nozzle from being vacuumized.

Description

[0001] The present invention relates to a sludge suction nozzle for a crude oil tank,

The present invention relates to a sludge suction nozzle, and more particularly, to a sludge suction nozzle of a crude oil tank capable of sucking and discharging various kinds of sludge formed in a crude oil tank.

In general, crude oil refers to oil recovered from below the surface of the earth without being treated or refined. However, in the crude oil, contaminants due to various causes or contained in the crude oil itself sink on the bottom surface of the oil storage tank. That is, when the naturally occurring solid material and the high molecular weight hydrocarbons as well as the rust generated from the pipe or tank wall are separated from the relatively light hydrocarbon, sludge is formed and settled in the storage tank.

Typically, such sludge indicates that long-chain paraffin, asphaltenes, inorganic components, and water are present in a stable emulsion state with respect to each other.

Oil storage tanks in refineries are required to undergo regular inspections every 8 to 10 years, though they vary from country to country due to the risk of oil spills due to leaks. At this time, crude oil sludge accumulated in crude oil storage tanks Is cleaned and discharged. In addition, if oil spillage occurs in spite of these preliminary inspections, the sludge should be cleaned in order to repair the crude oil storage tank.

In general, sludge accumulates in the crude oil storage tank because it is generated and accumulated at a high rate, and it reduces the space used in the tank. If it accumulates to the height of the crude oil outlet without being removed for a long time, it flows over the tank, ≪ / RTI > Particularly, when the level of the sludge is higher than the crude oil outlet, a large amount of sludge flows into the process for a moment, which causes problems such as a charge pump trip.

In addition, when the sludge is introduced into the process, the lifetime of the heat exchanger in the process is shortened, the catalyst life is shortened, and the throughput loss due to the frequent filter operation of the catalyst process is adversely affected. For this reason, refineries are investing a lot of time and money in sludge disposal, but there is no fundamental solution other than the method of removing the sludge by opening the tank when a lot of sludge has accumulated.

Accordingly, studies on the sludge removal process (TDSP) are underway.

The sludge treatment technique is largely classified into a technique of removing and discharging sludge from a tank and a technique of separating and recovering oil fractions from discharged sludge.

At this time, the sludge removing and discharging technology can be applied to a method in which a person or a robot enters a tank (SuperMacs), a heating tube is installed or a steam is used to dissolve sludge, And a method of pulverizing and discharging sludge by jetting a crude oil stream.

The most commonly used method is to vent the harmful hydrocarbon gas in the tank after opening the tank, and then the vacuum nozzle is operated by the operator and the suction nozzle with the vacuum pump is dipped in the sludge, .

1 is a sectional view showing a schematic structure of a sludge suction nozzle of a general crude oil tank.

The suction nozzle is immersed in the sludge accumulated on the inner wall or bottom of the crude oil tank, and then the vacuum pump is operated to suck and discharge the sludge.

However, when the end of the nozzle is in close contact with the bottom surface during the operation, since the air does not flow from the outside, the inside of the nozzle is almost in a vacuum state, so that the nozzle does not move in a state of being fixed to the bottom surface.

Therefore, the sludge suction is no longer generated, and the degree of vacuum inside the nozzle gradually rises and the pump may be overloaded.

In order to release the vacuum state, the nozzle must be tilted to introduce air. Since the pressure used to remove the sludge is very high and the size of the nozzle is large, the vacuum state can not be easily released.

As a result, the power of the pump is inevitably turned off, and if it is repeated, the operation is delayed.

- Korean Registered Patent No. 10-0945081 (Feb. 23, 2010) "Vacuum suction dredging and dewatering device of sludge using ejector" - Korean Registered Patent No. 10-1646202 (Aug. 8, 201) "Sludge Removal Device" - Korean Registered Patent No. 10-1667543 (October 16, 2016) "

SUMMARY OF THE INVENTION It is an object of the present invention to provide an air tube for preventing the inside of a nozzle from being vacuumed when sucking sludge of a crude oil tank using a suction nozzle, And a sludge suction nozzle of a crude oil tank which can be prevented from being fixed to the bottom surface of the tank.

The sludge suction nozzle of the crude oil tank according to the present invention for sucking sludge in a state of being immersed in sludge in a crude oil tank is characterized in that the inside of the suction nozzle is provided inside the suction nozzle An air tube through which external air can be introduced to prevent a vacuum from being generated can be provided.

The air tube includes an air intake part disposed along the longitudinal direction on the outer side of the suction nozzle, an exhaust part disposed inside the suction nozzle in the same direction as the moving direction of the sludge, And a connection portion connecting the charging base portion.

Alternatively, the air tube may include an exhaust unit arranged in the same direction as the moving direction of the sludge adjacent to the inner circumferential surface of the suction nozzle and extending to the outside of the suction nozzle, an intake unit connected to the exhaust unit, .

The lower end of the exhaust unit may be installed adjacent to the lower end of the suction nozzle.

Meanwhile, the end of the suction nozzle may be provided with a plurality of serrated attachment preventing portions to prevent the suction nozzle from being in close contact with the bottom surface of the crude oil tank.

According to the present invention configured as described above, when the suction nozzle is in close contact with the inner surface of the crude oil tank when the sludge is sucked in the crude oil tank, external air is introduced through the air tube It is possible to prevent the nozzle from sticking.

Therefore, since it is not necessary to stop the operation of the vacuum pump, continuous operation is possible, and the working efficiency is greatly improved.

And the sludge does not flow into the air tube because of the blocking net.

1 is a sectional view showing a schematic structure of a sludge suction nozzle of a general crude oil tank;
2 is a sectional view showing the structure of a sludge suction nozzle of a crude oil tank according to an embodiment of the present invention;
3 is a sectional view showing the structure of a sludge suction nozzle of a crude oil tank according to another embodiment of the present invention.
4 is a sectional view showing the structure of a sludge suction nozzle of a crude oil tank according to another embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

For a better understanding of the present invention, the description with reference to the drawings is not intended to limit the scope of the present invention. In the following description, a detailed description of related arts will be omitted when it is determined that the gist of the present invention may be unnecessarily blurred.

2 is a sectional view showing the structure of a sludge suction nozzle of a crude oil tank according to an embodiment of the present invention.

The present invention relates to a sludge suction nozzle for sucking and discharging sludge formed in a crude oil tank, and is connected to a vacuum pump (200) and a suction hose (300) to remove sludge (s) to be.

The suction nozzle 100 is connected to the suction hose 300 connected to the vacuum pump 200 and has an internal hollow shape and can be immersed in the sludge s and operated.

And a nozzle tip 100a having an inner diameter reduced inward at its end portion may be formed.

Here, the air tube 110 may be provided in the suction nozzle 100.

When the inside of the suction nozzle 100 is in a vacuum state, the air tube 110 releases external air by sucking outside air.

Specifically, the air tube 110 may have a tubular shape in which a flow path through which air flows in total is formed.

And may extend from the inside to the outside through the side wall or the upper end of the suction nozzle 100.

For this, the air tube 110 may include an intake unit 112, an exhaust unit 114, and a connection unit 116.

The intake unit 112 is disposed outside the suction nozzle 100, that is, along the longitudinal direction of the suction nozzle 100 on the side wall. The length of the intake unit 112 should be longer than a certain length so that the suction nozzle 100 is not dipped together even when the suction nozzle 100 is completely immersed in the sludge s.

It is preferable that the intake unit 112 is formed higher than the upper end of the suction nozzle 100.

The exhaust part 114 is disposed inside the suction nozzle 100 and is arranged in the same direction in the moving direction of the sludge s.

The connection portion 116 is a pipe connecting the intake portion 112 and the exhaust portion 114 and is disposed to pass through the side wall of the suction nozzle 100.

That is, the air tube 110 may have a shape such as '┏ ┛' as shown in the figure. Of course, the connection portion 116 may be horizontally or inclined to connect the intake portion 112 and the exhaust portion 114.

Therefore, even if the end of the suction nozzle 100 is in close contact with the bottom surface t of the crude oil tank and the inside is evacuated, air is introduced through the intake unit 112, So that the vacuum is not applied and is released. That is, it is possible to prevent the phenomenon that the suction nozzle 100 is fixed to the bottom surface t of the crude oil tank and does not move.

The lower end of the exhaust part 114 may be formed adjacent to the lower end of the suction nozzle 100. That is, when the suction nozzle 100 is in close contact with the floor, the lower end of the exhaust unit 114 may be disposed substantially adjacent to the bottom.

When the inside of the suction nozzle is vacuumed, external air introduced through the intake unit 112 is blown through the exhaust unit 114 to release the vacuum and disperse sludge being sucked around the blower .

If the exhaust part injects air in the middle of the sludge being sucked, there is a possibility that the vacuum release is delayed. Thus, by placing the bottom of the discharge section close to the bottom, the sludge can be quickly scattered, so that the vacuum can be quickly released.

At this time, the lower end of the exhaust part 114 and the lower end of the suction nozzle 100 may be spaced about 10 mm apart.

3 is a cross-sectional view showing the structure of a sludge suction nozzle of a crude oil tank according to another embodiment of the present invention.

As shown in the drawings, the air tube 110 may include an intake unit 112 and an exhaust unit 114.

The exhaust unit 114 may be disposed inside the suction nozzle 100 in the longitudinal direction of the nozzle, that is, in the direction of moving the sludge (s), and may be disposed adjacent to the inner circumferential surface of the nozzle, Can be extended outward.

This is because the exhaust part 114 is located adjacent to the inner circumferential surface inside the suction nozzle 100, so that it is not disturbed by the flow of the sludge s and can be prevented from being damaged due to the flow of the sludge s.

The exhaust unit 114 is connected to the intake unit 112. The exhaust unit 114 may be horizontally bent so as to be perpendicular to the exhaust unit 114. [

Also, the lower end of the exhaust part () may be disposed adjacent to the lower end of the suction nozzle ().

4 is a cross-sectional view showing the structure of a sludge suction nozzle of a crude oil tank according to another embodiment of the present invention.

In the present invention, the lower end of the suction nozzle 100 may be formed with a close-contact prevention part 130 to prevent the lower surface of the suction nozzle 100 from coming into close contact with the bottom surface t of the crude oil tank.

The contact prevention part 130 may have a plurality of serrations so as to form a gap through which air can flow.

That is, only a part of the teeth may be formed along the lower end circumference of the suction nozzle 100, or may be formed repeatedly throughout the circumference.

Therefore, it is possible to prevent air from being partially introduced into the suction nozzle 100 by the close-contact prevention part 130 during the suction operation of the sludge s, When the sludge s is blocked and the function is lost, the vacuum can be prevented from being secondarily captured by the air tube 110.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention may be embodied in many other specific forms without departing from the spirit or essential characteristics thereof. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined by the scope of the appended claims, as well as the appended claims.

100: suction nozzle
100a: nozzle tip 110: air tube
112: intake part 114: exhaust part
116: connection part 130:
200: Vacuum pump
300: Suction hose
t: inner surface of crude oil tank (bottom surface) s: sludge

Claims (5)

A sludge suction nozzle for sucking sludge in a state of being immersed in sludge in a crude oil tank,
Wherein the suction nozzle is provided with an air tube through which external air can be introduced to prevent the inside of the suction nozzle from becoming a vacuum. The method according to claim 1,
In the air tube,
An intake unit disposed along the longitudinal direction on the outside of the intake nozzle, an exhaust unit arranged in the same direction as the moving direction of the sludge inside the intake nozzle, and a connection unit connecting the intake unit and the exhaust unit through the side wall of the nozzle And the sludge suction nozzle of the crude oil tank. The method according to claim 1,
In the air tube,
An exhaust unit arranged in the same direction as the moving direction of the sludge adjacent to the inner circumferential surface of the suction nozzle and extending to the outside of the suction nozzle and an intake unit connected to the exhaust unit and bent in one side, Sludge suction nozzle of the tank. The method according to claim 2 or 3,
And a lower end of the exhaust unit is installed adjacent to a lower end of the suction nozzle. 5. The method of claim 4,
Wherein the end of the suction nozzle is formed with a plurality of saw-toothed portions to prevent the bottom surface of the crude oil tank from coming into close contact with the bottom surface of the crude oil tank.

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