KR20180123282A - Liquid input and output preventing methods and device for puncture of tanker - Google Patents

Abstract

The present invention relates to a method and apparatus for reducing liquid input and output, reducing input and output of a liquid into a puncture portion of a ship and a fluid storage tank. A vacuum pump, compressor, and a pressure adjustment valve are connected to an upper space of the ship and the fluid storage tank instead of directly cutting off the puncture portion by a worker as in the prior art when the puncture occurs in the ship and the fluid storage tank. Accordingly, the puncture portion is balanced with the inner or outer pressure of a space storing the fluid or in a vacuum state in accordance with the position of the water or the upper surface of the water so as to reduce the inflow and outflow of the fluid when the space storing the fluid is punctured. Moreover, air is injected into a space without the fluid to expand pressure so as to reduce the inflow of an external fluid when the space without the fluid is punctured. Therefore, safety and reliability of a tanker can be improved, and workability can be improved in comparison with a conventional direct cut-off operation of a puncture portion.

Description

Technical Field [0001] The present invention relates to a method and apparatus for reducing fluid inflow /

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method and an apparatus for reducing a flow of fluid to and from a piercing portion of a vessel and a fluid storage tank. More particularly, the present invention relates to a vacuum pump, By connecting the valve, the pore area of the space where the fluid is stored can be balanced with the inside or outside pressure of the space where the fluid is stored according to the position of the water or the upper surface of the water, or a vacuum state is formed to reduce the inflow / And more particularly, to a method and an apparatus for reducing fluid inflow / outflow in a tanker pore region, which reduces the inflow of external fluid due to pressure expansion due to air injection in a space in which no fluid is stored.

As Korea's shipbuilding industry has grown significantly, the proportion of high value-added vessels as well as simple ships has increased.

In particular, the production of vessels (for example, tankers) for transporting liquid cargoes such as liquefied natural gas and petroleum has been increasing, and with the accumulation of new technologies related thereto, the technology for manufacturing large vessels has reached the highest level in the world .

In the case of a tanker for transporting liquid cargo, a fluid storage tank is formed to store and transport the liquid cargo. When the ship is shaken to the right or to the left by waves, the fluid in the fluid storage tank is swung, Since it generates cracks in the fluid storage tank by applying repetitive force, it is usually regulated that 80 to 90% or more of the fluid is transported to the fluid storage tank.

In this way, if a leak occurs in the tanker, or if there is a pore in the ship or a fluid storage tank due to an accident such as a collision with the sea or a marine accident, fluid will flow into and out of the pore portion, There is a problem such as causing a marine pollution due to liquid leakage.

Various techniques have been disclosed for preventing the fluid from flowing into and out of the pores generated in the shelf, the fluid storage tank, and the like. As described in the patent application 10-2010-0098586, the pores of the vessel and the fluid storage tank are separately It is necessary to directly perform the work of blocking the workpiece with the blocking member in the pore portion on the water surface of the worker so that it is difficult to take prompt action so that the safety and reliability of the tanker are deteriorated and workability and work safety There was a problem of falling from the side.

Patent Document 1: Registration No. 10-0936193 Patent Document 2: Published Patent No. 10-2010-0098586 Patent Document 3: Registration No. 10-1284371

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made to solve the above problems of the prior art, and a vacuum pump, a compressor, and a pressure control valve are connected to an upper part of a space of a vessel and a fluid storage tank. Or the pressure of the fluid in the space is adjusted according to the position of the upper surface of the water, or the vacuum is applied to reduce the inflow / outflow of the fluid. When the fluid is not stored in the space, And the inflow of the external fluid is reduced by the pressure expansion, so that the tanker is provided with excellent safety, reliability and workability.

According to the present invention, a vacuum pump, a compressor, and a pressure control valve are connected to a space of a vessel and a fluid storage tank, and a vacuum pump and a pressure control valve are operated to control the operation of the vacuum pump when a pore is generated in a space where the fluid is stored. (Underwater pore), the pressure inside the space is adjusted by the pressure control valve inside the space by the vacuum pump and the pressure control valve, so that the fluid inside the space flows out to the outside or the outside fluid flows into the space The pressure inside the space is made larger than the pressure inside the space by controlling the vacuum inside the space by the vacuum pump so that the fluid inside the space is discharged to the outside Control operation to reduce leakage,

In case of pores in the space where the fluid is not stored, it is controlled by the compressor and the pressure regulating valve. After the space is closed, the pressure inside the space is expanded by the compressor and pressure regulating valve. And a control unit for controlling the flow rate of the fluid flowing in and out of the tank.

A vacuum pump and a compressor are connected to the upper part of the space of the vessel and the fluid storage tank by a connection pipe and an opening and closing valve and a pressure control valve are respectively installed in the connection pipe, A tank configured to reduce the inflow and outflow of the fluid in the space and the external pressure equilibrium in the space or in the vacuum state and to reduce the inflow of the external fluid by the pressure expansion by the air injection in the space when the wave is not stored in the space where the fluid is not stored. And a fluid inflow / outflow reduction device in a pore portion.

In the present invention, when a pore is generated in the inner space of a ship or a fluid storage tank, the operator does not directly cut off the pore portion, but the control operation by the vacuum pump and the compressor reduces the fluid flow, Reliability and workability are excellent.

That is, a vacuum pump, a compressor, and a pressure control valve are connected to a space above a vessel and a fluid storage tank, and a pore portion of the space where the fluid is stored is divided into the inner and outer pressure equilibrium Or vacuum state to reduce the inflow and outflow of the fluid and to inflate the pressure due to the air injection in the space where the fluid is not stored when the fluid is not stored in the space where the fluid is not stored, And is excellent in workability as compared with the case of directly cutting off a pore portion in the past.

1 is a plan view showing an example of a ship to which the present invention is applied.
Figure 2 is a front view of Figure 1;
3 is a configuration diagram showing an apparatus of the present invention.
Figs. 4 to 6 are diagrams showing the operating state of Fig. 3; Fig.
7 is a block diagram showing another embodiment of the inventive device.

First, a description will be made of a method of reducing fluid inflow / outflow at a pit area of a tanker of the present invention.

The present invention provides a method for reducing the inflow and outflow of fluid by a control operation by a vacuum pump and a compressor, instead of directly shutting off a pore portion by a worker when a pore is generated in an inner space of a vessel or a fluid storage tank .

That is, according to the present invention, a vacuum pump, a compressor, and a pressure control valve are connected to a space of a vessel or a fluid storage tank, and a vacuum pump and a pressure control valve are operated to control the operation of the vacuum pump In case (underwater pore), the pressure inside the space is adjusted by the pressure control inside the space by the vacuum pump and the pressure control valve, so that the fluid inside the space flows out to the outside, And when the pore portion is formed on the water surface (the water surface pore), the external pressure value is made larger than the pressure value inside the space by the vacuum control inside the space by the vacuum pump, So as to reduce the amount of leakage to the outside,

In case of pores in the space where the fluid is not stored, it is controlled by the compressor and the pressure regulating valve. After the space is closed, the pressure inside the space is expanded by the compressor and pressure regulating valve. The pressure of the external fluid is made larger than the pressure of the outside, thereby reducing the inflow of the external fluid into the space.

As shown in FIGS. 1 to 6, the fluid inflow / outflow reducing apparatus 100 for implementing the fluid inflow / outflow reducing method of the present invention tanker piercing portion is provided in a space 10 provided in a single or a plurality of vessels and fluid storage tanks A connection pipe 15 and a branch pipe 16 are connected to the outflow inlet 12 to connect the vacuum pump 30 and the air compression tank 60 A second opening / closing valve (22), a pressure gauge (40), and a pressure control valve (45) are provided in the connection pipe (15) connected to the vacuum pump, and the compressor A third opening / closing valve 23 and a pressure regulating valve 55 are installed in the connecting pipe 16 connected to the first and second connecting pipes.

Here, the space 10 of the vessel and the fluid storage tank mainly refers to a space of a fluid storage tank for storing liquids such as petroleum and natural gas in a tanker, It is possible to prevent the inflow of the fluid due to the pore and prevent the inflow of the external fluid due to the pore when the fluid is not stored. In the case of the space such as the compartment in which the liquid cargo is not loaded in addition to the fluid storage tank, And is configured to prevent the inflow of external fluid.

In the case where the space 10 of the vessel and the fluid storage tank is a fluid storage tank for loading the liquid cargo, since the fluid is filled in 80 to 90% of the inside, the internal water level H1 of the fluid storage tank is higher than the water level H2 ), It is configured to cope with the pore position by dividing it into the water or the water surface.

Further, in the case where the space 10 of the vessel and the fluid storage tank is a fluid storage tank for loading the liquid cargo, a pressure sensor for detecting the occurrence of a pore, a water level sensor, and the like are further installed, And the suction port 31 of the vacuum pump 30 are installed in a separate fluid water tank 50 in which the fluid is stored to filter the vapor discharged from the fluid storage tank and to safely discharge the vapor.

2, 3 and 4 indicate pore portions formed in the space 10 of the vessel and the fluid storage tank.

Hereinafter, the operation and operation of the present invention will be described.

The present invention is applicable to a fluid storage tank in which liquids such as petroleum and natural gas are loaded, and in the case of a space such as a compartment in which liquid cargo is not loaded in the fluid storage tank or liquid storage is not loaded in the fluid storage tank I will explain it separately.

When the liquid cargo is loaded in the space 10 of the vessel or the fluid storage tank, as shown in Figs. 4 and 5, the pore portion may be formed on the water or the water surface.

The first opening and closing valve 21 formed in the outflow inlet 12 of the space 10 is blocked and the connection pipe 15 is opened as shown in FIG. 4 when the pore 2 of the space is formed in the water The second on-off valve 22 is opened.

In this state, the pressure in the space 10 is adjusted by the pressure control operation of the space 10 by the pressure control valve 45 together with the vacuum operation of the upper part of the space 10 by the vacuum pump 30, So that the pressure value is controlled to be in equilibrium.

In this way, the pressure in the space 10 and the pressure in the outside are balanced so that the fluid in the space 10 flows out to the outside without performing an operation for directly blocking the pores formed in the water So that the external fluid is prevented from flowing into the space 10.

5, the first opening / closing valve 21 formed in the outflow inlet 12 of the space 10 is shut off and the connection pipe 21 is closed, as shown in FIG. 5, when the pore 2 of the space is formed on the water surface And the second on-off valve (22) of the valve (15) is opened.

In this state, the vacuum pump 30 is operated to perform a vacuum operation above the space 10 so as to form an outer pressure value larger than a pressure value inside the space.

As described above, the external pressure value is larger than the internal pressure value of the space 10, so that the fluid in the space 10 leaks to the outside without performing the operation of directly blocking the pore formed on the water surface .

Further, even in the case where the pores 4 are formed in a space such as a compartment where the liquid is not loaded in the space 10 of the vessel or the fluid storage tank, or in which the liquid is not loaded in addition to the fluid storage tank The first on-off valve 21 and the second on-off valve 22 formed on the outflow inlet 12 of the space 10 are blocked and the third on-off valve 23 of the connection pipe 16 is opened .

At this time, when the space 10 is a compartment of the ship, the door of the compartment is closed to close the compartment.

In this state, the compressor (40) causes the pressure expansion by the injection of compressed air to the upper part of the space (10).

In addition, pressure control by the pressure control valve 45 prevents the breakage or explosion due to excessive pressure of the space.

As a result, the pressure inside the space 10 becomes larger than the pressure outside the space due to the pressure expansion of the space 10, thereby reducing the inflow of the external fluid into the space.

7, the present invention is not limited to the case where the fluid is stored in the inner space 10 of the vessel or the fluid storage tank, A vacuum pump 30 is connected to the upper part of the space 10 of the vessel and the fluid storage tank through a connection pipe 15 and an opening and closing valve and a pressure control valve 45 are connected to the connection pipe 15 And the inflow or outflow of the fluid is reduced by making the pore portion of the space in which the fluid is stored to be in equilibrium in the space or under the external pressure or in the vacuum state according to the position of the water surface or the upper surface of the water surface. The detailed description will be omitted.

Accordingly, in the present invention, a vacuum pump, a compressor, and a pressure control valve are connected to an upper part of a space of a vessel or a fluid storage tank, so that the pore portion of the space where the fluid is stored, The external pressure equilibrium is established or the vacuum state is established to reduce the inflow and outflow of the fluid and the inflow of the external fluid is reduced by the inflation of the air by the air injection in the space where the fluid is not stored in the wave- The safety and reliability of the tanker is excellent and the workability is excellent compared with the conventional work of directly cutting the pore portion.

10: Fluid storage tank
12: Outflow entrance
15, 16: Connector
21, 22, 23: 1st,
30: Vacuum pump
40: Pressure gauge
45.55: Pressure regulating valve
50: fluid tank
60: air compression tank
65: Compressor

Claims (3)

A vacuum pump, a compressor, and a pressure control valve are connected to a space of a ship, a fluid storage tank, and a vacuum pump and a pressure control valve are operated to control a fluid in a space where the fluid is stored. When a pore is formed in water The pressure inside the space is balanced with the pressure value inside the space by the pressure control inside the space by the vacuum pump and the pressure control valve so that the fluid in the space flows out to the outside or the external fluid is prevented from flowing into the space In the case where the puncture site is formed on the water surface (the water surface pore), the vacuum pressure inside the space by the vacuum pump makes the pressure value of the external space larger than the pressure value inside the space, Control operation,
In case of pores in the space where the fluid is not stored, it is controlled by the compressor and the pressure regulating valve. After the space is closed, the pressure inside the space is expanded by the compressor and pressure regulating valve. Is greater than the pressure value of the outside so as to reduce the inflow of the external fluid into the space.
A vacuum pump 30 is connected to the upper part of the space of the vessel and the fluid storage tank through a connection pipe 15 and an opening and closing valve and a pressure control valve 45 are installed in the connection pipe 15, Is configured to balance an external pressure in the space or in a vacuum state according to an upper position of the water surface, thereby reducing the inflow and outflow of the fluid.
The vacuum pump 30 and the compressor 65 are connected to the upper part of the space of the vessel and the fluid storage tank through the connection pipes 15 and 16 and the connection pipes 15 and 16 are provided with open / close valves and pressure control valves 45 ) 55, respectively. The pores of the space where the fluid is stored are in the space or in the external pressure equilibrium or in the vacuum state according to the position of the water surface or the water surface, thereby reducing the inflow and outflow of the fluid. And the inflow of the external fluid is reduced by the inflation of air by the air injection inside the space of the space in the space, thereby reducing the inflow / outflow of the fluid in the tank.

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