KR20100110612A - Liquid containing structure - Google Patents

Abstract

PURPOSE: A resolution liquid saving facility for transferring the liquid to the land or the ship is provided to supply a resolution liquid saving facility capable of the transfer of the liquid including the oil treatment reagent including the piping and pumping system. CONSTITUTION: A resolution liquid saving facility includes a protective unit(10), a storage unit(20) and a pipe system(30). The protective unit includes an outer partition(11) on the wall plate and bottom plate. A first compartment formed with the reinforcement plate and wall plate is had. The storage unit stores the liquid while being accepted to the first compartment. In the pipe system, one end is connected to the bottom part of the storage unit.

Description

Liquid containing structure

The present invention relates to an offshore liquid storage facility, and more particularly, it can be installed at a lower cost than in the related art, and the cost required for maintenance is reduced. It relates to an offshore liquid storage facility that can transport liquids and minimize the impact on the surrounding environment even if the stored liquid leaks.

Conventionally, liquid storage facilities, such as oil, have been used by installing individual cylindrical storage tanks 1 on land as shown in FIG. 1 and connecting pipes and pumps to the cylindrical storage tanks 1. . In such a storage tank 1, a protective facility is installed in case the oil stored in the storage tank is leaked to the surroundings. (Protective facilities must be installed in accordance with the legal regulations.)

Examples of such protective facilities are shown in FIGS. 2 and 3. In the case of the protection facility shown in Figure 2 is a facility to dig a groove (2) around the storage tank (1) and to prevent oil, etc. flow into the surrounding ground in the groove (2), the protection facility shown in Figure 3 In this case, the protective wall 6 is installed around the storage tank 1, and a protective agent 5 is installed between the protective wall 6 and the storage tank 1. (The facility indicated by reference numeral 3 in FIGS. 2 and 3 is a pump)

In the protective facility shown in FIGS. 2 and 3, the space formed by the groove 2 of FIG. 2 or the barrier wall 6 of FIG. 3 is designed to be larger than the capacity of the storage tank 1 and stored in the storage tank 1. It is common to be prepared in case all contents are leaked.

In the case of an onshore liquid storage facility as shown in FIG. 1, when a storage material such as oil is leaked, it is primarily protected by a protection facility, and even if oil is leaked to the ground, the flow rate of the oil inside the ground. Is very slow and responds quickly, reducing the damage to a minimum.

However, if an outflow accident occurs when a liquid storage facility is installed at sea, the flow rate of the contents is incomparably faster than when an outflow accident occurs on land facilities, and there are not many cases where a liquid storage facility is installed at sea. There is no situation. However, most of the liquids such as oil are transported by ship. In the case of oil tankers, large dredging work is required, or the berthing facilities such as the installation of offshore structures are required. There is an advantageous side because it can be unloading the liquid right from the ship.

Due to this necessity, there are oil storage facilities floating floating at sea in foreign countries such as Japan and Europe. In this case, as shown in FIG. It is wrapped with floating oil sealant (8) to prevent oil from spreading out even if it leaks, and when unloading work by oil tanker is needed, part of the floating oil sealant (8) is removed so that the ship can access the storage facility (7). It is installed in the sea around the island (I), which is relatively low in water.

However, such a floating storage facility requires a large breakwater to protect the storage facility from blue waves, a large cost is required to make a floating oil dike, etc., and a high cost is also required for maintenance.

On the other hand, the installation location of the floating storage facility also has a problem that can not only be regional restrictions.

In addition, in the case of floating storage facilities installed at sea, the storage facility only functions as a simple storage container, and the transfer of the contents is performed using a vessel, not a pipe, and an outflow accident occurs between liquids moving between the vessel and the storage vessel. In addition to the problems that may occur, there was a problem such as the need to use the vessel again to move the contents of the storage facility to the ground.

The present invention has been made to solve the above-mentioned problems, and it is possible to install at a minimum cost in installing a liquid storage facility on the sea, and by including a piping and a pumping system, it is more than simply serving as a storage container for liquids such as oil. It is a problem to be solved by the present invention to provide an offshore liquid storage facility that enables transport.

Another problem to be solved by the present invention is to provide a marine liquid storage facility equipped with a disaster prevention system so that even if there is a liquid spill that may occur in one bay, the damage caused by the spilled oil hardly occurs.

The present invention as a means for solving the above problems,

The inside and the outside of the bottom plate is blocked by the outer partition wall and the bottom plate, a plate-shaped reinforcement plate extending from the wall plate for the rigid reinforcement is provided on the upper portion of the first compartment formed by the reinforcement plate and the wall plate Protective means having;

A plurality of storage means housed in the first compartment and storing liquid; And,

A pipe system, one end of which is connected to the lower end of the storage means, a central part of which is accommodated in a second compartment, a space formed by the reinforcement plate, the bottom plate and the wall plate, and the other end of which extends to the outside of the protection means. An offshore liquid storage facility is provided.

It is preferable to further include a water level maintaining means for filling the first compartment with water to maintain a constant water level.

It is preferable to further include earth and sand, which is gravel, sand, silt, clay or a mixture thereof, which is filled in a space except the storage end of the first compartment.

It is further preferred to further comprise pumping means connected to said pipe system and capable of transferring liquid.

It is further desirable to add further compartments to accommodate the pumping system.

The water level inside the first compartment maintained by the water level maintaining means may be equal to or more than the level of the liquid stored in the storage means.

It is more preferable to further include earth and water, which are gravel, sand, silt, clay, or a mixture thereof, which is filled in the space except the pipe system in the second compartment.

According to the present invention, it is possible to install at a minimum cost in installing a liquid storage facility at sea, and to include a pipe and a pumping system, a marine liquid storage facility that enables the transfer of liquids such as oil beyond simply serving as a storage container. It is possible to provide the offshore liquid storage facilities that can be prepared in the event of a spill of liquid in the storage facility or pipe system is provided with a protective facility.

Hereinafter, one preferred embodiment of the present invention will be described with reference to the drawings to describe specific contents for the practice of the present invention.

5 and 6 are views for explaining a marine liquid storage facility according to an embodiment of the present invention.

The marine liquid storage facility according to the present invention is a facility for storing liquids such as oil or liquefied gas installed in the sea.

The marine liquid storage facility according to the present embodiment includes the protection means 10, the storage means 20, the pipe system 30, the pumping means 40, the compartment 50, the water level maintaining means 60, the earth and sand 70. It consists of.

The protection means 10 is configured to block the inside and the outside by the wall plate 11 and the bottom plate 12, the top of the bottom plate 12 as shown in Figures 5 and 6 Reinforcement plate 13 is provided for. The reinforcement plate 13 is plate-like as a configuration extending from the wall plate 11.

The reason why the reinforcing plate 13 is provided is that it is advantageous compared to the case where the bottom plate 12 is thickened to increase rigidity.

The inner space of the protection means 10 may be divided into a first compartment 14 and a second compartment 15, which are formed by the bottom plate 12, the reinforcement plate 13 and the wall plate 11 part. The space is the second compartment 15, and the space formed by the reinforcement plate 13 and a part of the wall plate 11 is the first compartment 14. This distinction is well represented in FIG. 6.

The lower end of the protection means 10 is installed on the bottom of the sea, if the bottom is uneven, as shown in Figure 5 may be installed on the soil for flattening.

The storage means 20 is accommodated in the first compartment 14 and stores the liquid in the space formed therein.

Most of the pipe system 30 is disposed in the second compartment 15, one end of which is connected to the lower end of the storage means 20, and the other end of which is connected to the outside of the protection facility 10. The outside of the protection facility 10 is provided with a separate pipe system (not shown) may be connected to the pipe system 30, the other end of the pipe system 30 is provided with a system that can be connected to the ship The liquid transported to the storage means 20 may be filled with liquid or the liquid stored in the storage means 20 may be carried out to the vessel.

The pipe system 30 is composed of a pipe and a valve (not shown), and it is possible to perform an optimal arrangement through an operation research (OR).

The pumping means 40 is connected to the pipe system 30 and stored in the storage means 20 and then transfers the liquid transferred through the pipe system 30 to a third place such as a ground storage or a vessel. Do it.

The compartment 50 accommodates the pumping means 60 therein.

The water level maintaining means 60 is configured to maintain a constant level of water by filling water 80 in the first compartment 14, and is composed of a pump 61 and a pipe 62. Since there is seawater on the outside of the protection means 10, only the pump 61 and the pipe 62 may fill the inside of the first compartment 14.

The water level maintained by the water level maintaining means 60 is maintained above the level of the liquid stored in the storage means 20. To this end, an electronic control system can be introduced, and the electronic control system for maintaining a constant level is not a core configuration of the present invention, but can be sufficiently learned by those skilled in the art to which the present invention belongs, and further detailed description is omitted. Let's do it.

The earth and sand 70 is gravel filled in the space except the pipe system 30 of the space of the first compartment 14 except the storage means 20 and the internal space of the second compartment 15, Sand, silt, clay or mixtures thereof.

On the other hand, the second compartment 15 is filled with water 80 in addition to the earth and sand 70.

Hereinafter, the functions, functions, and effects of each component of the described embodiment will be described.

The protection means 10 serves to protect the storage means 20 and the pipe system 30 accommodated in the first compartment 14 and the second compartment 15, which are internal spaces thereof. In the case of the marine storage facility shown in Figure 4 to install a breakwater as a protection means of the storage facility it can be seen that the protection means 10 also plays the role of a breakwater to dissipate the energy of the wave. In addition, when a part of the storage means 20 or the pipe system 30 is damaged and the liquid is leaked, it may be a means for preventing the spilled liquid from flowing out to the sea and causing environmental pollution.

The storage means 20 functions to store liquid therein.

The pipe system 30 and the pumping system 40 are connected to each other to transfer the liquid stored in the storage means 20 or transfer the liquid to the storage means 20 from the outside.

The water level maintaining means 60 and the earth and sand 70 serve as a protection facility when the liquid flows out of the storage means 20. In particular, even when a part of the wall plate 11 is damaged, the spilled liquid can be prevented from leaking to the sea.

Hereinafter, the mechanism will be described.

If a part of the storage means 20 is damaged, the water level of the water filled in the first compartment 14 is greater than the level of the liquid stored in the storage means 20. Since the pressure is higher than or similar to the pressure, the liquid stored in the storage means 20 does not flow out, and the water filled in the first compartment 14 enters the storage means 20 to balance the water level. On the other hand, even when the wall plate 11 is damaged, the water inside the outer compartment 11 flows to the outside according to the difference in water level with the outside. Since the water 80 inside the first compartment 14 is uncontaminated water, It does not affect the environment.

In addition, the liquid stored in the storage means 20 is filled in the interior of the first compartment 14 by filling the earth and sand 70 in the first compartment 14 and filling the voids between the particles constituting the earth and sand 70 with water. Even when flowing into the space, the moving speed of the liquid flowing into the interior of the first compartment 14 can be significantly reduced. If the saturation of water in the soil is more than 80%, the penetration coefficient of other liquids, such as oil, is known to be nearly zero.

Therefore, even if a portion of the outer partition 11 is damaged, it is very unlikely that the liquid contained in the storage means 20 will leak into the first compartment 14, and even if it is leaked, the soil will be discharged by the earth and sand for a considerable period of time. This delay will allow enough time for further protection. Therefore, it is possible to almost completely block the outflow of the liquid to the outside of the protective means (10).

The water 80 and the earth and sand 70 act as protection when the liquid leaks from the pipe system 30 accommodated in the second compartment 15. The mechanism is filled in the first compartment 14. Since the same function as the soil sand 70 and the water 80, further detailed description will be omitted.

The compartment 50 serves to protect the pumping system 40.

In the above, the case in which water of a predetermined level is filled in the first compartment 14 by the water level adjusting means 60 is described, but the water level adjusting means 60 is not necessarily included in the technical idea of the present invention. .

In the above description of the embodiment in which the earth and sand are filled in the outer compartment 11, the embodiment in which the earth and sand are not filled should also be regarded as an embodiment included in the technical idea of the present invention.

In the above description, one preferred embodiment of the present invention has been described to provide specific contents for the practice of the present invention.

The technical spirit of the present invention is not limited to the described embodiments and may be embodied in various types of marine liquid storage facilities within a range not contrary to the technical spirit of the present invention.

1 is a view showing a state in which a storage tank is disposed in a land liquid storage facility.

2 and 3 are views for explaining the protection facility of the storage tank shown in FIG.

4 illustrates one example of a marine liquid storage facility.

5 and 6 illustrate a marine liquid storage facility according to one embodiment of the present invention.

** Explanation of symbols for the main parts of the drawing **

10: protection means 20: storage means

30: pipe system

Claims (7)

The inside and the outside of the bottom plate is blocked by the outer partition wall and the bottom plate, a plate-shaped reinforcement plate extending from the wall plate for the rigid reinforcement is provided on the upper portion of the first compartment formed by the reinforcement plate and the wall plate Protective means having; A plurality of storage means housed in the first compartment and storing liquid; And, A pipe system, one end of which is connected to the lower end of the storage means, a central part of which is accommodated in a second compartment, a space formed by the reinforcement plate, the bottom plate and the wall plate, and the other end of which extends to the outside of the protection means. Offshore liquid storage facility, characterized in that. The method of claim 1, And a water level maintenance means for filling the first compartment with water to maintain a constant water level. The method of claim 2, An offshore liquid storage facility according to claim 1, further comprising earth and sand, which are gravel, sand, silt, clay, or a mixture thereof, which is filled in a space except the storage end of the first compartment. The method of claim 1, And a pumping means connected to said pipe system and capable of transferring liquid. The method of claim 4, wherein And an additional compartment for containing said pumping system. The method according to claim 2 or 3, And a water level inside the first compartment maintained by the water level maintaining means is equal to or higher than the level of the liquid stored in the storage means. The method of claim 1, An offshore liquid storage facility according to claim 2, further comprising earth and water, which are gravel, sand, silt, clay or a mixture thereof, which are filled in a space excluding the pipe system.

Images