KR101889149B1 - Lng supply supporting apparatus - Google Patents

Abstract

According to one aspect of the present invention, there is provided a liquefied gas supply assisting device for minimizing liquefied gas remaining in a liquefied gas storage tank, wherein the liquefied gas supply assisting device according to an aspect of the present invention includes: A pump installed to supply liquefied gas; At least one movable wall provided to shield the lower space inside the liquefied gas storage tank and provided so as to be movable away from the pump; And a movable unit coupled to move the movable wall.

Description

[0001] LNG SUPPLY SUPPORTING APPARATUS [0002]

The present invention relates to a liquefied gas supply assisting apparatus used to supply liquefied gas filled in a liquefied gas storage tank to the outside.

Generally, petroleum resources used for transportation fuels such as automobiles, ships, and various fuels used for domestic / foreign purposes are gradually exhausting, and the amount of liquefied gas used as alternative energy is increasing due to rising oil prices and strict environmental regulations.

For example, the liquefied gas includes Liquefied Natural Gas (LNG) or Liquefied Propane Gas (LPG). This liquefied gas is convenient to store and transport in a liquefied state where the volume of the liquefied gas is greatly reduced (for example, LNG is reduced to 1/600 when liquefied and LPG is reduced to 1/250 when liquefied) , It is difficult to keep the temperature below the boiling point (about -162 DEG C for LNG and about -50 DEG C for LPG).

To store such liquefied gas, a cryogenic liquefied gas storage tank 10 shown in Fig. 1 is required to keep the liquefied gas below the boiling point.

In addition, since the liquefied gas is mostly at a cryogenic temperature, a liquefied gas storage tank 10 is manufactured using a special material that does not exhibit brittleness even at a very low temperature. For example, STS 304, 9% Ni, Al-5083 and the like have high yield strength and tensile strength at a cryogenic temperature, and thus are widely used as materials for the liquefied gas storage tank 10.

The liquefied gas storage tank 10 is provided with a pump 20 for supplying liquefied gas to the outside. The inlet port 22 of the pump 20 installed in the liquefied gas storage tank 10 is spaced from the bottom surface of the liquefied gas storage tank 10 at a predetermined interval (for example, about 90 to 100 mm in the case of a pump for LNG carrier) And is installed in a spaced apart state. The spacing of the pump 20 varies depending on the specifications of the pump 20, but spacing beyond a certain level in the structure of the pump 20 is inevitable. Accordingly, 100% of the stored liquefied gas in the liquefied gas storage tank 10 can not be used, and the liquefied gas from the bottom to a certain height can not be pumped by the pump 20 and remains at the bottom of the storage tank, Is becoming a factor to reduce.

That is, in the related art, when the level of the liquefied gas stored in the liquefied gas storage tank 10 is lowered from L 1 to L 2 in FIG. 1, the liquefied gas remaining below the L 2 is not pumped and remains in the liquefied gas storage tank 10 I could not help it.

Thus, conventionally, due to the structural characteristics of the pump 20, there is a limit in reducing the space between the inlet 22 of the pump 20 and the bottom of the storage tank.

Accordingly, in the prior art, Korean Patent Laid-open Publication No. 10-2010-0092748 (internal structure of LNG storage tank of LNG carrier) and Korean Registration No. 10-0766172 (ELNGE supply auxiliary device for cargo tank of ELNG carrier) have been disclosed.

However, with the conventional technology, there is a limitation in utilizing the liquefied gas remaining in the liquefied gas storage tank 10, and since the basic structure of the liquefied gas storage tank 10 needs to be changed, the load generated in the liquefied gas storage tank 10 So that a total redesign of the liquefied gas storage tank 10 is required. Particularly, when a concave sump area is formed in the lower part of the liquefied gas storage tank 10 and the pump 20 is installed in this area, the pumping ability by the pump 20 is improved and the amount of remaining liquefied gas can be reduced However, this structure has a problem that it is difficult to completely construct the vacuum insulation structure of the liquefied gas storage tank 10.

In addition, the internal structure of the LNG storage tank of the LNG carrier to which the conventional technique is applied has a technical limitation that is not applicable to the pressure storage tank.

Therefore, it is required to develop a technique for minimizing the amount of liquefied gas remaining in the lower portion of the liquefied gas storage tank 10 in order to overcome the limitations of the prior art described above.

Korean Patent Publication No. 10-2010-0092748 Korean Patent Registration No. 10-0766172

It is an object of the present invention to provide a liquefied gas supply assisting device which minimizes the liquefied gas remaining in the liquefied gas storage tank.

A liquefied gas supply assisting apparatus according to an aspect of the present invention includes: a pump installed inside a liquefied gas storage tank to supply liquefied gas; At least one movable wall provided to shield the lower space inside the liquefied gas storage tank and provided so as to be movable away from the pump; And a movable unit connected to move the movable wall, wherein a height of the movable wall is equal to or greater than a height of an inlet of the pump, and the movable wall moves to narrow a liquefied gas storage space around the pump, The level of the liquefied gas remaining in the narrowed liquefied gas storage space becomes higher than the height of the inlet of the pump, and pumping becomes possible.

The liquefied gas storage tank may further include a sealing portion provided between the movable wall and the inner surface of the liquefied gas storage tank so as to be closed.

Further, the sealing portion may include an o-ring member attached to the movable wall.

The movable wall may be formed in a shape corresponding to the inner wall surface of the liquefied gas storage tank.

The height of the movable wall may be less than an internal height of the liquefied gas storage tank.

The movable unit may include a horizontal moving unit connected to at least one of the movable walls to expand and contract in the longitudinal direction of the liquefied gas storage tank and horizontally move the movable wall.

A connecting member having one end connected to one of the movable walls and the other end connected to the other one of the movable walls or the inner surface of the liquefied gas storage tank; And a driving unit for providing a driving force for horizontally moving the wall.

The connecting member may include a turnbuckle member.

The movable unit may further include a lifting / lowering unit for lifting and moving the movable wall.

According to an embodiment of the present invention, it is possible to minimize the amount of remaining liquefied gas generated due to the space between the inlet of the pump installed in the storage tank and the bottom of the storage tank and to increase the amount of usable liquefied gas as a result .

1 is a cross-sectional view illustrating an operation state of a liquefied gas storage tank according to the prior art;
2 is a cross-sectional view illustrating an operating state of a liquefied gas supply assisting apparatus according to an embodiment of the present invention;
3 (a) to 3 (f) are cross-sectional views illustrating a liquefied gas supply process using a liquefied gas supply assisting apparatus according to an embodiment of the present invention.
4 is a chart comparing the amount of remaining liquefied gas with the conventional technology according to the liquefied gas supply auxiliary apparatus according to an embodiment of the present invention.
5 is a cross-sectional view of a liquefied gas storage tank for determining the liquefied gas storage volume in one embodiment of the present invention.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings. The embodiments of the present invention can be modified into various other forms, and the scope of the present invention is not limited to the embodiments described below. The shape and the size of the elements in the drawings may be exaggerated for clarity and the same elements are denoted by the same reference numerals in the drawings.

2 is a cross-sectional view illustrating an operating state of a liquefied gas supply assisting apparatus according to an embodiment of the present invention.

2, the liquefied gas supply assisting device 130 of the present embodiment is provided to assist a liquefied gas supply device that supplies the liquefied gas stored in the liquefied gas storage tank 110 to a use place using the pump 120 .

The liquefied gas may be stored in the liquefied gas storage tank 110 at a cryogenic liquid state. In order to supply the liquefied gas to the user or to use the liquefied gas as fuel, a pump 120 is installed below the liquefied gas storage tank 110 . Further, the pump 120 is connected to the upper part of the liquefied gas storage tank 110 by piping, and this structure is referred to as a pump tower structure.

The pump 120 is preferably installed near the bottom surface of the liquefied gas storage tank 110 so that the inlet 122 is arranged close to the bottom surface of the liquefied gas storage tank 110 in the structure of the pump 120, The interval may inevitably occur.

On the other hand, the liquefied gas, which can not be pumped by the pump 120 in the liquefied gas storage tank 110, can waste the space of the liquefied gas storage tank 110 and cause the loss of the liquefied gas.

Particularly, when the liquefied gas storage tank 110 is provided to the ship, the liquefied gas is sloshed due to the fluctuation occurring in the course of the operation, so that the level of the liquefied gas temporarily or continuously becomes the height of the inlet 122 of the pump 120 .

The liquefied gas supply assisting device 130 of this embodiment can minimize the liquefied gas remaining in the liquefied gas storage tank 110 as described above.

To this end, the liquefied gas supply auxiliary device 130 may include at least one movable wall 132 provided to shield the lower space inside the liquefied gas storage tank 110.

The movable wall 132 can be provided so as to be movable from the far side to the near side.

Further, the movable wall 132 can move toward the side far from the pump 120 in association with the movable unit 140.

As described above, the movable wall 132 moves closer to the pump 120 from the pump 120 by the movable unit 140, so that the liquefied gas storage space around the pump 120 is narrowed. As a result, The water level becomes higher than the height of the inlet 122 of the pump 120, and pumping becomes possible.

In this embodiment, the movable wall 132 can be installed on both sides of the liquefied gas storage tank 110 with the pump 120 interposed therebetween.

Meanwhile, in the liquefied gas storage tank 110, the pump 120 may be biased to the inside of the liquefied gas storage tank 110. In this structure, the movable wall 132 may be provided as one.

In addition, it is preferable that the movable wall 132 seals between the liquefied gas storage tank 110 and the liquefied gas storage tank 110 while moving along the inner surface of the liquefied gas storage tank 110.

To this end, a sealing portion may be provided between the movable wall 132 and the inner surface of the liquefied gas storage tank 110. For example, a metal ore ring member 134 attached to the movable wall 132 may be used as the sealing portion.

The O-ring member 134 may be made of a material usable at a cryogenic temperature and may include, for example, STS 304, 9% Ni, Al-5083, and the like.

The movable wall 132 may be formed in a shape corresponding to the inner wall surface of the liquefied gas storage tank 110 so as to be in close contact with the inner wall surface of the liquefied gas storage tank 110.

For example, although the movable wall 132 is shown as being formed in a vertical shape in this embodiment, it may preferably be formed in a rounded shape corresponding to the shape of both inner walls of the liquefied gas storage tank 110. As described above, when the movable wall 132 is provided in close contact with the inner wall surface of the liquefied gas storage tank 110, the liquefied gas remaining between the inner wall surface of the liquefied gas storage tank 110 and the movable wall 132 Can be further minimized.

In this embodiment, the height of the movable wall 132 may be higher than the height of the inlet 122 of the pump 120. The liquefied gas remaining in the lower portion of the liquefied gas storage tank 110 is collected at the inlet 122 of the pump 120 so that the pump 122 is pumped This is possible.

Preferably, the height of the movable wall 132 is designed to have a sufficient height in consideration of stable operation of the pump 120, sloshing, and the like.

Further, it is natural that the maximum height of the movable wall 132 is designed to be equal to or less than the internal height of the liquefied gas storage tank 110.

In this embodiment, the movable wall 132 is provided movably by the movable unit 140, and the movable unit 140 for this purpose is connected to at least one of the movable walls 132 to be connected to the liquefied gas storage tank And a horizontal moving part 142 which is expanded and contracted in the longitudinal direction of the movable wall 132 and horizontally moves the movable wall 132.

The horizontal moving part 142 may include a connecting member 142a having one end connected to one of the movable walls and the other end connected to the other movable wall disposed opposite to the pump 120, The connecting member 142a may be connected to the driving unit 142b or the like to expand and contract and move the movable wall 132 horizontally.

Although the horizontal moving part 142 is described as being provided as one unit in the present embodiment, it is of course possible to provide a plurality of horizontal moving parts 142 spaced vertically for stable movement. In addition, But can be variously modified.

For example, in this embodiment, the connecting member 142a may include a turn buckle. The turnbuckle member may include a connection rod connected to at least one side and having a spiral portion, and a body portion whose length is adjusted according to a depth of the connection with the connection rod. Further, the turnbuckle member may be provided with both connection rods on both sides of the body portion, and the spiral portions of both connection rods may be formed in opposite directions to each other.

The driving unit 142b may be provided to rotate the body of the turnbuckle member and the length of the turnbuckle member may be adjusted by forward or reverse rotation of the driving unit 142b.

The connecting member 142a may be a rope or the like which can be used at a low temperature. The rope may be moved to a bobbin or the like provided on the rotating shaft of the driving unit, thereby moving the moving wall.

In addition to the connecting member 142a, the horizontal moving part 142 may be moved by a stretching means such as a cylinder or by a traveling means such as a wheel.

Preferably, a guide rail or the like for guiding the movement of the movable wall 132 may be provided in the liquefied gas storage tank 110.

The horizontal moving part 142 may be provided outside the liquefied gas storage tank 110 to control the operation of the driving part 142b and may include a driving part 142b and a controller 144 May be connected by wires or may be communicably connected by wireless or the like.

In addition, in the present embodiment, the movable unit 140 may further include a lifting / lowering moving unit 146 for moving the movable wall 132 up and down.

In this embodiment, the lifting / lowering moving portion 146 can be provided in the same manner as that of the horizontal moving portion 142. [ For example, the lifting / lowering member 146 includes a pair of first connecting members 146a connected to both movable walls 132, a second connecting member 146b connecting the first connecting members 146a, And a third connecting member 146c connected to the liquefied gas storage tank 110. The one end of the third connecting member 146c may be rotated by the driving portion 146d and the length of the third connecting member 146c A turnbuckle member may be provided.

Here, although the upward / downward movement part 146 is described as being provided with the turnbuckle member in the third linking member 146c, it is also possible that each turnbuckle member is provided in the first linking member 146a.

The second connection member 146b and the third connection member 146c are connected to the first connection member 146a. However, the first connection member 146a may be connected to the liquefied gas storage tank 110, The first connecting member 146a is provided with the respective driving portions 146d and the turnbuckle members connected thereto and the length of each turnbuckle member is adjusted by the driving portion 146d so as to be independently elevatable It is possible.

Further, the lifting / lowering portion 146 can be controlled to be operated by the control portion 144 provided outside the liquefied gas storage tank 110. [ The control unit 144 may be used in common with the control unit 144 of the horizontal moving unit 142 or may be connected to the driving unit 146d of the lifting and lowering moving unit 146 by establishing a separate control unit .

On the other hand, the drawing number P, which is not described in this embodiment, indicates liquefied gas stored in the liquefied gas storage tank 110.

3 (a) to 3 (f) are cross-sectional views illustrating a liquefied gas supply process using a liquefied gas supply assisting apparatus according to an embodiment of the present invention.

Referring to FIG. 3, the liquefied gas storage tank 110 may be provided with a pump 120 for pumping liquefied gas.

In addition, the liquefied gas storage tank 110 may be provided with a movable wall 132 for adjusting an internal storage space.

3 illustrates the change of the liquefied gas storage space according to the operation of the movable wall 132. For this purpose, a pump tower structure such as a pipe connected to the pump 120, a pump tower structure such as a pipe connecting the movable wall 132 and the liquefied gas storage tank The O-ring member 134 serving as a sealing member provided between the movable wall 110 and the horizontal moving part 142 and the lifting and moving part 146 for moving the movable wall 132 horizontally or vertically can be omitted.

3 (a), the liquefied gas supply assisting device 130 is not used when the liquefied gas stored in the liquefied gas storage tank 110 is normally pumped by the pump 120. As shown in Fig.

The movable wall 132 of the liquefied gas supply assisting device 130 may be installed at a predetermined height in the liquefied gas storage tank 110 and may be collided against the inner wall surface of the liquefied gas storage tank 110, The liquefied gas storage tank 110 may be installed at a certain distance from the inner wall surface thereof.

3 (b), when the liquefied gas stored in the liquefied gas storage tank 110 is pumped to the height of the inlet 122 of the pump 120 and can no longer pump the liquefied gas, Can be lowered by the lifting / lowering portion 146 (see Fig. 2).

Next, as shown in Fig. 3C, the movable wall 132 can be moved so as to approach the pump 120 by the horizontal moving portion 142 (see Fig. 2).

As described above, when the movable wall 132 is moved close to the pump 120, the storage space between the movable walls 132 in the liquefied gas storage tank 110 can be reduced, and the level of the remaining liquefied gas May be higher than the inlet 122 of the pump 120.

3 (d), when the liquefied gas stored between the movable wall and the liquefied gas storage tank 110 is pumped by the pump and can no longer pump the liquefied gas, the movable wall 132 is moved closer to the pump 120 by the horizontal moving part 142 and the liquefied gas is pumped repeatedly as shown in FIGS. The liquefied gas remaining in the liquefied gas storage tank 110 can be minimized.

Although the process of moving the movable wall 132 and the process of pumping the liquefied gas are sequentially performed in the present embodiment, the process of pumping the liquefied gas while continuously moving the movable wall 132 is performed at the same time It is of course possible to proceed.

4 is a chart comparing the amount of remaining liquefied gas with the conventional technology according to the liquefied gas supply assisting apparatus according to an embodiment of the present invention.

4, the liquefied gas supply assisting apparatus 130 is disposed between the bottom surface of the liquefied gas storage tank 110 and the inlet 122 of the pump 120 installed inside the liquefied gas storage tank 110, It is possible to minimize the amount of remaining liquefied gas remaining in the gas-liquid separator and consequently to increase the amount of liquefied gas usable.

For example, when the liquefied gas supply assisting device 130 of the present embodiment is applied, it can be seen that the amount of remaining liquefied gas by the conventional liquefied gas supply device is reduced by about 85.1%.

Specifically, the remaining liquefied gas of the cylindrical liquefied gas storage tank 110 having a total internal capacity of 500 m ³ consisting of a liquefied gas storage tank 110 having an inside diameter of 6,400 mm, a barrel length of 13,400 mm, and a 2: The amount of gas is calculated as follows.

The inlet 122 of the pump 120 installed in the liquefied gas storage tank 110 is separated from the lower portion of the liquefied gas storage tank 110 by about 600 mm and the movable wall 132, Is about 1,500 mm.

The amount of liquefied gas remaining in the present embodiment can be calculated using the length of the barrel between the movable walls 132 and the height of the inlet 122 of the pump 120. [ It can be seen that this amount of liquefied gas is reduced by 85.1% compared to the amount of conventional liquefied gas calculated using the total length of the liquefied gas storage tank 110 and the height of the inlet 122 of the pump 120.

5, when the diameter of the cylindrical liquefied gas storage tank 110 whose diameter is D and the length of the barrel is L is equal to the height h from the bottom surface thereof, the liquefied gas stored in the liquefied gas storage tank 110 The amount of liquefied gas can be calculated by the following equation (1).

Where V ₁ is the total volume of liquefied gas in the barrel, and V ₂ is the total volume of liquefied gas in the rigid plate. Therefore, the total volume of the liquefied gas stored in the liquefied gas storage tank 110 is equal to the sum of V ₁ and V ₂ .

On the other hand, when the above-described condition is substituted into Equation (1), it can be seen that the conventional residual liquefied gas amount is about 47 m ³ , which corresponds to about 9% of the total capacity of the liquefied gas storage tank 110.

On the other hand, when the liquefied gas supply assisting device 130 of the present embodiment is applied, the residual liquefied gas amount is reduced to about 7 m ³ , which corresponds to about 1.3% of the total capacity of the liquefied gas storage tank 110 . Therefore, the amount of residual liquefied gas is reduced to about 85.1% of the conventional amount.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims and their equivalents. It will be clear to those who have knowledge.

110: liquefied gas storage tank 120: pump
122: inlet 130: liquefied gas supply auxiliary device
132: movable wall 134: o-ring member
140: moving unit 142: horizontal moving unit
146:

Claims (9)

A pump installed inside the liquefied gas storage tank to supply liquefied gas;
At least one movable wall provided to shield the lower space inside the liquefied gas storage tank and provided so as to be movable away from the pump; And
A movable unit coupled to move the movable wall;
/ RTI >
The height of the movable wall is not less than the height of the inlet of the pump,
The movable wall moves to narrow the liquefied gas storage space around the pump and the level of the liquefied gas remaining in the narrowed liquefied gas storage space becomes higher than the height of the inlet of the pump, .
The method according to claim 1,
And a sealing portion provided so as to close between the movable wall and the inner surface of the liquefied gas storage tank.
The method of claim 2,
And the sealing portion includes an o-ring member attached to the movable wall.
The method according to any one of claims 1 to 3,
Wherein the movable wall is formed in a shape corresponding to the inner wall surface of the liquefied gas storage tank.
The method according to any one of claims 1 to 3,
Wherein a height of the movable wall is formed to be equal to or less than an inner height of the liquefied gas storage tank.
The motorcycle according to any one of claims 1 to 3, wherein the movable unit
And a horizontal movement portion connected to at least one of the movable walls to extend and retract in the longitudinal direction of the liquefied gas storage tank and horizontally move the movable wall.
7. The apparatus of claim 6,
A connecting member having one end connected to one of the movable walls and the other end connected to the other one of the movable walls or the inner surface of the liquefied gas storage tank,
And a driving unit that extends and contracts the connecting member to provide a driving force for horizontally moving the movable wall.
The connector according to claim 7,
A liquefied gas supply auxiliary device comprising a turnbuckle member.
7. The apparatus of claim 6,
And a lifting / lowering portion for lifting and moving the movable wall.

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