KR102445125B1 - LNG storage tank and ship having thereof - Google Patents

Abstract

A liquefied gas storage tank according to an embodiment of the present invention includes a tank body member in which liquefied gas is stored and an inner frame unit provided inside the tank body member to replace the water-removing bulkhead and to guard the flow of the liquefied gas. may include

Description

Liquefied gas storage tank and ship including same {LNG storage tank and ship having thereof}

The present invention relates to a liquefied gas storage tank and a ship including the same.

In general, petroleum resources used as transportation fuels for automobiles and ships and as various fuels used domestically and abroad are gradually being depleted, and the use of liquefied gas as an alternative energy is increasing due to rising oil prices and stricter environmental regulations.

For example, the liquefied gas includes liquefied natural gas (LNG) or liquefied propane gas (Liquefied Propane Gas: LPG). This liquefied gas has a much smaller volume than the gaseous state (for example, in the case of LNG, the volume can be reduced to 1/600 when liquefied, and in the case of LPG, it can be greatly reduced to 1/250 when liquefied), so it is convenient for storage and transportation in the liquefied state. There is a difficulty in maintaining the temperature below the boiling point (about -162 ℃ for LNG, about -50 ℃ for LPG).

In order to store such liquefied gas, a cryogenic liquefied gas storage tank that maintains the liquefied gas below the boiling point is required.

By the way, the liquefied gas storage tank is a structure for storing liquefied fuel of a transport organization such as a ship, and since the liquid is stored therein, inevitably, the liquefied gas storage tank according to the movement of a floating structure such as a ship or a land transport institution. is not always able to remain level with the water surface or the ground, resulting in a flow of liquid fuel.

The flow of the liquefied gas causes a collision between the inner wall of the liquefied gas storage tank and the flowing liquefied gas, and such a continuous collision causes damage to the liquefied gas storage tank.

Accordingly, conventionally, a swash bulk head wall is installed inside the liquefied gas storage tank to prevent the liquefied gas storage tank from being damaged due to the fluctuation of the liquefied gas.

The water removal bulkhead was provided in the form of a bulkhead in the middle of the liquefied gas storage tank, and as a member of high weight, it was difficult to construct inside the liquefied gas storage tank, and there was a problem in that the manufacturing cost increased.

Therefore, in order to solve or improve the above-mentioned problems, it is necessary to study a liquefied gas storage tank and a ship including the same.

An object of the present invention is to provide a liquefied gas storage tank and a ship including the same, which prevent the problem of collision between the inner wall of the liquefied gas storage tank and the flowing liquefied gas due to the flow of the liquefied gas.

In another aspect, the present invention prevents the problem of collision between the inner wall of the liquefied gas storage tank and the flowing liquefied gas due to the flow of liquefied gas without using a conventional swash bulkhead, and supports the liquefied gas storage tank. An object of the present invention is to provide a liquefied gas storage tank and a ship including the same.

A liquefied gas storage tank according to an embodiment of the present invention includes a tank body member in which liquefied gas is stored and an inner frame unit provided inside the tank body member to replace the water-removing bulkhead and to guard the flow of the liquefied gas. may include

Specifically, the inner frame unit of the liquefied gas storage tank according to an embodiment of the present invention is coupled to a ring support member continuously provided in the circumferential direction of the inside of the tank body member and the ring support member, and includes a curved surface It is provided in the form of a liquefied gas may include a division guide member for guiding the liquefied gas to be returned to the flow inflow direction riding on the curved portion.

Here, the division inducing member of the liquefied gas storage tank according to an embodiment of the present invention has one end coupled to the ring support member, and the other end is provided in a bent shape toward the short side wall portion of the tank body member. can be

And, the division inducing member of the liquefied gas storage tank according to an embodiment of the present invention is provided in plurality along the inner circumferential direction of the tank body member, the curved surface forming direction of the other dividing inducing member adjacent to the curved surface forming direction Conversely, it can be formed.

Alternatively, the division inducing member of the liquefied gas storage tank according to an embodiment of the present invention is provided in plurality along the inner circumferential direction of the tank body member, and the curved surface forming direction of the other division inducing member adjacent to the curved surface forming direction may be formed in the same direction as

Here, the ring support member of the liquefied gas storage tank according to an embodiment of the present invention may be formed in a "T" shape in cross section.

In addition, an inlet pipe connecting the inside and the outside of the tank body member of the liquefied gas storage tank according to an embodiment of the present invention is provided, and the liquefied gas stored inside the tank body member is sucked through the inlet pipe to the outside. It further includes a pump unit for delivering to the, wherein the inner frame unit is disposed on the bottom of the tank body member, the residual water formed with a depression in which the liquefied gas is contained so that the end of the inlet pipe is immersed in the liquefied gas. It may include a accommodating member and an upper guiding member coupled to the upper end of the residual water accommodating member.

Here, the upper guiding member of the liquefied gas storage tank according to an embodiment of the present invention may be provided in a shape including a curved surface, and the liquefied gas may be guided so that the liquefied gas rides the curved portion and returns to the flow inflow direction.

And, the residual water accommodating member of the liquefied gas storage tank according to an embodiment of the present invention may be formed with a residual water flow hole through which the liquefied gas moves at an upper end.

In addition, the inner frame unit of the liquefied gas storage tank according to an embodiment of the present invention is provided at least at the bottom of the tank body member, the bottom support member and the bottom support member formed in a “T” shape in cross section Doedoe coupled to a horizontal portion of the upper end, one end is coupled to one end of the horizontal portion of the floor support member and the other end is coupled to the bottom of the tank body member, so that the liquefied gas passes over the floor support member It may include an inclination inducing member for guiding it.

A ship according to another embodiment of the present invention may include a hull in which the liquefied gas storage tank and the liquefied gas storage tank are installed, and including an engine unit providing a driving force.

The liquefied gas storage tank of the present invention and a ship including the same have an advantage in that it is possible to prevent the problem of collision of the flowing liquefied gas with the inner wall of the liquefied gas storage tank due to the flow of the liquefied gas.

In another aspect, the liquefied gas storage tank of the present invention and the ship including the same cause the collision of the flowing liquefied gas with the inner wall of the liquefied gas storage tank due to the flow of liquefied gas without using a conventional swash bulkhead. There is an advantage that can prevent and support the liquefied gas storage tank.

Thereby, there is an effect of facilitating the manufacture of the liquefied gas storage tank and preventing damage to the liquefied gas storage tank while reducing the manufacturing cost.

However, the various and beneficial advantages and effects of the present invention are not limited to the above, and will be more easily understood in the course of describing specific embodiments of the present invention.

1 is a side view showing an embodiment including a ring support member and a division guiding member in a liquefied gas storage tank of the present invention, wherein the adjacent division guiding members have different curved surface formation directions.
2 is a perspective view illustrating an embodiment in which the ring support member and the division guide member of FIG. 1 are shown, in which the adjacent division guide members have different curved surface formation directions.
3 is a side view showing an embodiment including a ring support member and a division guide member in the liquefied gas storage tank of the present invention, wherein the adjacent division guide members have the same curved surface formation direction.
4 is a perspective view illustrating an embodiment in which the ring support member and the division inducing member of FIG. 3 are shown, wherein the adjacent division inducing members have the same curved surface formation direction.
5 is a front view showing an embodiment including a residual water accommodating member and an upper guiding member in the liquefied gas storage tank of the present invention.
6 is a front view showing an embodiment including a floor support member and an inclined induction member in the liquefied gas storage tank of the present invention.
7 is a side view showing a liquefied gas storage tank of the present invention and a ship including the same.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. However, the embodiments of the present invention may be modified in various other forms, and the scope of the present invention is not limited to the embodiments described below. In addition, the embodiments of the present invention are provided in order to more completely explain the present invention to those of ordinary skill in the art. The shapes and sizes of elements in the drawings may be exaggerated for clearer description.

Also, in this specification, the singular expression includes the plural expression unless the context clearly dictates otherwise, and the same reference signs or reference signs assigned in a similar manner throughout the specification refer to the same element or corresponding element. do it by doing

The present invention relates to a liquefied gas storage tank (1) and a ship including the same, wherein an inner frame unit (20) replacing a swash bulk head wall is provided inside the tank body member (10), Since the inner frame unit 20 guards the flow of the liquefied gas, it is possible to prevent a problem of collision of the flowing liquefied gas with the inner wall of the liquefied gas storage tank 1 due to the flow of the liquefied gas.

In another aspect, the liquefied gas storage tank (1) of the present invention and a ship including the same are provided with the inner frame unit (20), so that the liquefied gas storage tank ( 1), it is possible to prevent the collision between the inner wall part and the flowing liquefied gas from occurring, and to support the liquefied gas storage tank (1).

Thereby, it is possible to facilitate the manufacture of the liquefied gas storage tank (1), and to prevent damage to the liquefied gas storage tank (1) while reducing the manufacturing cost.

Specifically, the liquefied gas storage tank 1 of the present invention may include a tank body member 10 and an inner frame unit 20 .

1 and 3 are side views showing an embodiment including a ring support member 21 and a division guide member 22 in the liquefied gas storage tank 1 of the present invention, Figure 1 is a division guide member 22 3 shows an embodiment in which the curved surface formation direction of is formed opposite to the curved surface formation direction of other neighboring division inducing members 22, and FIG. 3 shows an embodiment formed in the same direction.

And, FIGS. 2 and 4 are perspective views showing the ring support member and the division guide member of FIG. 1 or FIG. 3, respectively.

The tank body member 10 of the liquefied gas storage tank 1 according to an embodiment of the present invention may store liquefied gas.

And, the inner frame unit 20 of the liquefied gas storage tank 1 according to an embodiment of the present invention is provided inside the tank body member 10 to replace the water-removing bulkhead, and guard the flow of the liquefied gas. can do.

That is, the inner frame unit 20 is provided inside the tank body member 10 to replace the conventional water-removing bulkhead, and serves to guide the flow of the liquefied gas.

Thereby, the problem that the liquefied gas applies an impact to one side of the inside of the tank body member 10 can be improved, and since it does not have a heavy water-removing bulkhead, the manufacture of the liquefied gas storage tank 1 is facilitated and manufactured. cost can be reduced.

Specifically, the inner frame unit 20 may include a ring support member 21 and a division guide member 22 as an embodiment.

Here, the ring support member 21 may be continuously provided in the circumferential direction of the inside of the tank body member 10 . And, the division guide member 22 is coupled to the ring support member 21, is provided in a shape including a curved surface, it is possible to induce the liquefied gas to ride the curved portion and return to the flow inflow direction (D).

That is, the ring support member 21 serves to support the tank body member 10, thereby removing the conventional water-removing bulkhead and replacing the tank body member 10 with the inner frame unit 20 of the present invention. ) can be supported. The support function of the ring support member 21 can be more firmly supported by the ring support member 21 being provided in the form of a continuous ring in the circumferential direction of the inside of the tank body member 10 .

The ring support member 21 may limit the shape of the cross-section, thereby further increasing the support force. That is, the ring support member 21 of the liquefied gas storage tank 1 according to an embodiment of the present invention may be formed in a "T" shape in cross section.

The division inducing member 22 of the present invention serves to improve the problem that the liquefied gas is suddenly moved from one side to the other side of the tank body member 10 to apply an impact to the tank body member 10 . To this end, the division guide member 22 is formed in a shape including a curved surface, thereby guiding the liquefied gas to flow along the curved portion of the division guide member 22 . In addition, according to this, the liquefied gas is guided to be sent back to the flow inflow direction (D) that has been delivered to the division guide member 22 .

Accordingly, the problem that the liquefied gas is suddenly biased from one side of the tank body member 10 to the other side is improved, and the problem that the liquefied gas applies an impact to the tank body member 10 is improved.

Specifically, the division guide member 22 of the liquefied gas storage tank 1 according to an embodiment of the present invention has one end coupled to the ring support member 21, and the short side side wall portion of the tank body member 10 ( 10b) may be provided with the other end in a bent form toward the direction. Here, the short side wall portion 10b means a side wall portion of the tank body member 10 having a relatively short length in the top view of the tank body member 10 . In addition, the long side wall portion 10c means a side wall portion of the tank body member 10 having a relatively long length in the top view of the tank body member 10 .

That is, the division inducing member 22 may be formed in a shape bent toward any one of the short side wall portions 10b on both sides of the tank body member 10 . Accordingly, when a flow occurs in which the liquefied gas stored in the short side wall portion 10b on one side is suddenly moved in the direction of the short side wall portion 10b on the other side, the liquefied gas flows along the curved surface of the division guide member 22 and flows to the original It is returned in the direction of the one side short side wall portion 10b, which is the position. Accordingly, it is possible to prevent the problem that the liquefied gas applies an impact to the other side short side wall portion 10b.

In addition, as an example, the division inducing member 22 may be formed in a curved shape bent in the opposite direction to the other neighboring division inducing member 22 .

That is, a plurality of division inducing members 22 of the liquefied gas storage tank 1 according to an embodiment of the present invention are provided along the inner circumferential direction of the tank body member 10, and the curved surface forming direction is adjacent to another. It may be formed opposite to the direction in which the curved surface of the division guide member 22 is formed.

According to this, it is possible to prevent the impact problem caused by the liquefied gas suddenly delivered in either direction by the division guide member 22 in either direction.

For example, some division inducing members 22 form a curved surface toward one side of the short side wall portion 10b, and the remaining partial division inducing members 22 adjacent to this form a curved surface toward the other side short side wall portion 10b. do. According to this, the partial division inducing member 22 induces some of the liquefied gas suddenly delivered from the one side short side wall portion 10b to be returned back to the one side short side side wall portion 10b, and the remaining partial division induction members adjacent to it ( 22) can induce a part of the liquefied gas suddenly delivered from the other side short side wall portion 10b to be sent back to the other side short side side wall portion 10b.

Alternatively, as an example, the plurality of division guide members 22 may all be formed in a curved shape bent in the same direction.

That is, a plurality of division inducing members 22 of the liquefied gas storage tank 1 according to an embodiment of the present invention are provided along the inner circumferential direction of the tank body member 10, and the curved surface forming direction is adjacent to another. It may be formed in the same direction as the direction in which the curved surface of the division guide member 22 is formed.

According to this, it is possible to prevent an impact problem caused by the liquefied gas that is suddenly delivered from one direction by the division guide member 22 .

For example, when the plurality of division guide members 22 form a curved surface toward the one side short side wall portion 10b, the liquefied gas suddenly delivered from the one side short side wall portion 10b is returned to the one side short side wall portion 10b. You can be tempted to send it back.

This embodiment of the division inducing member 22 is transmitted from one side of the short side wall portion 10b compared to the embodiment of the division inducing member 22 formed to be bent in the opposite direction to the other neighboring division inducing member 22 described above. It is possible to induce a greater flow of liquefied gas to be returned.

5 is a front view showing an embodiment including the residual water accommodating member 23 and the upper guiding member 24 in the liquefied gas storage tank 1 of the present invention. Referring to FIG. 5 , the liquefied gas storage tank 1 of the present invention may further include a pump unit 30 . In addition, the inner frame unit 20 of the present invention may include a residual water accommodating member 23 and an upper guiding member 24 .

Here, the pump unit 30 of the liquefied gas storage tank 1 according to an embodiment of the present invention may be provided with an inlet pipe 31 connecting the inside and the outside of the tank body member 10 . And the pump unit 30 may suck the liquefied gas stored in the tank body member 10 through the inlet pipe part 31 and deliver it to the outside.

The residual water accommodating member 23 of the present invention is disposed on the bottom portion 10a of the tank body member 10, so that the end of the inlet pipe portion 31 is immersed in the liquefied gas, the depressed portion 23a containing the liquefied gas. can be formed.

And the upper guiding member 24 of the present invention may be coupled to the upper end of the residual water accommodating member (23). In addition, the upper guiding member 24 of the present invention is provided in a shape including a curved surface, so that the liquefied gas rides the curved portion and can be guided to return to the flow inflow direction (D).

Some of the liquefied gas stored in the tank body member 10 is transmitted to the outside through the inlet pipe part 31 of the pump unit 30 , and the remaining liquefied gas remains in the bottom part 10a of the tank body member 10 . . Furthermore, the residual liquefied gas converges to the recessed portion 23a of the residual water accommodating member 23, which is located lower than the bottom portion 10a of the tank body member 10, and accordingly, even if the remaining liquefied gas is small, the inlet pipe portion The end of (31) can be immersed in the liquefied gas.

And, in order for the liquefied gas to converge into the recessed portion 23a of the residual water accommodating member 23 , a residual water flow hole 23b may be formed in the residual water accommodating member 23 .

That is, the residual water accommodating member 23 of the liquefied gas storage tank 1 according to an embodiment of the present invention may have a residual water flow hole 23b through which the liquefied gas moves at an upper end thereof.

Accordingly, the liquefied gas positioned adjacent to the bottom portion 10a of the tank body member 10 can be moved to the depression 23a of the residual water accommodating member 23 through the residual water flow hole 23b.

The upper guiding member 24 of the present invention serves to return the liquefied gas, which suddenly flows by the inclination of a transport organ such as a ship, to its original position.

Specifically, the upper guiding member 24 of the present invention includes a curved portion of a bent form. And, when the liquefied gas suddenly flows and is delivered to the curved portion of the upper guiding member 24 , the liquefied gas is moved along the curved portion of the upper guiding member 24 .

Accordingly, the flow of the liquefied gas is induced in the direction in which the curved portion of the upper guiding member 24 faces. For example, the curved portion of the upper guiding member 24 may be formed in a bent shape toward any one of the short side wall portions 10b of both sides, and thus the liquefied gas stored in the one side short side wall portion 10b is reduced. When the flow suddenly moves in the direction of the other short side wall portion 10b occurs, the liquefied gas flows along the curved surface of the upper guiding member 24 and is returned to the original position in the direction of the one side short side wall portion 10b. Accordingly, it is possible to prevent the problem that the liquefied gas applies an impact to the other side short side wall portion 10b.

6 is a front view showing an embodiment including the floor support member 26 and the inclination induction member 25 in the liquefied gas storage tank (1) of the present invention. Referring to FIG. 6 , the inner frame unit 20 of the liquefied gas storage tank 1 of the present invention may include a floor support member 26 and an inclination guide member 25 .

Here, the bottom support member 26 is provided at least on the bottom portion 10a of the tank body member 10, and may be formed in a "T" shape in cross section. The inclination induction member 25 is coupled to the horizontal portion of the upper end of the floor support member 26 , one end is coupled to one end of the horizontal portion of the floor support member 26 , and the other end is the tank body member 10 . Coupled to the bottom portion (10a), it is possible to induce the liquefied gas to ride over the floor support member (26).

That is, the bottom support member 26 serves to support the tank body member 10, thereby removing the conventional water-removing bulkhead and replacing the tank body member 10 with the inner frame unit 20 of the present invention. ) can be supported. The bottom support member 26 may be provided only in the bottom portion 10a of the tank body member 10 or may be provided in the form of a continuous ring in the circumferential direction of the tank body member 10 .

The bottom support member 26 has a cross-sectional shape limited to a “T” shape, thereby further increasing the support force.

And, when the liquefied gas from one side of the tank body member 10 suddenly flows in the other direction of the tank body member 10, the inclination guide member 25 has a flow path of the liquefied gas by the bottom support member 26 . After being blocked and agglomerated around the bottom support member 26, the aggregation overcomes the bottom support member 26 with an increased flow rate and suddenly moves to the other side of the tank body member 10, causing a greater impact to the tank body member 10 ) to improve the problem applied to the other side.

That is, even if a small amount of liquefied gas remains inside the tank body member 10, the liquefied gas is located at least in the bottom portion 10a of the tank body member 10. At this time, the liquefied gas located in the bottom portion 10a is It can be agglomerated by the bottom support member 26 during sudden flow, and the problem of applying an amplified impact to the tank body member 10 by the aggregation of the liquefied gas can be improved by the inclination induction member 25 .

In other words, the inclination guide member 25 includes the upper horizontal portion of the bottom support member 26 and the tank body member 10 so that the flowing liquefied gas is not caught by the “T” shape of the bottom support member 26 . It is to connect the bottom portion (10a) of the inclined form. Accordingly, since the liquefied gas can pass from one side of the tank body member 10 to the other side on the inclination guide member 25 , the problem of aggregation around the bottom support member 26 is prevented.

On the other hand, this inclination induction member 25 is only located around the bottom 10a of the tank body member 10, and is not located around the sidewalls such as the long side wall 10c of the tank body member 10. . This is because, when the liquefied gas is stored up to the periphery of the long side wall portion 10c, the flow rate of the liquefied gas is relatively large without considering the aggregation of the liquefied gas. That is, if the liquefied gas is stored up to the periphery of the long side wall portion 10c of the tank body member 10, it is necessary to block the flow of the liquefied gas in order to prevent an impact caused by the sudden flow of the liquefied gas. is not

7 is a side view showing the liquefied gas storage tank (1) of the present invention and a ship including the same. Referring to FIG. 7 , the ship of the present invention may include a liquefied gas storage tank 1 and a hull 2 .

Here, the liquefied gas storage tank (1) is replaced with the description of the liquefied gas storage tank (1) described above.

In addition, the hull 2 is provided with a liquefied gas storage tank 1 and may include an engine unit 2a for providing a driving force.

That is, by including the above-described liquefied gas storage tank 1, the ship of the present invention flows with the inner wall of the liquefied gas storage tank 1 due to the sudden flow of liquefied gas without using a conventional swash bulkhead. It is possible to prevent the problem of collision of liquefied gas.

As described above, since the ship of the present invention does not need to use the conventional swash bulkhead, it is possible to facilitate the manufacture of the liquefied gas storage tank 1, reduce the manufacturing cost, and prevent damage to the liquefied gas storage tank 1 do.

In addition, it is possible to reduce the weight of the liquefied gas storage tank (1), it is possible to increase the operating efficiency of the vessel.

Although the embodiments of the present invention have been described above, the scope of the present invention is not limited thereto, and it is within the scope of the art that various modifications and variations are possible without departing from the technical spirit of the present invention described in the claims. It will be obvious to those of ordinary skill.

1: liquefied gas storage tank 2: hull
10: tank body member 20: inner frame unit
21: ring support member 22: division guide member
23: residual water receiving member 24: upper guide member
25: inclination induction member 26: floor support member
30: pump unit 31: inlet pipe part

Claims (11)

delete a tank body member for storing liquefied gas; and
an inner frame unit provided inside the tank body member to replace the water-removing bulkhead and guide the flow of the liquefied gas;
including,
The inner frame unit,
a ring support member continuously provided in a circumferential direction inside the tank body member; and
Split induction coupled to the ring support member and provided in plurality along the inner circumferential direction of the tank body member, provided in a shape including a curved surface, so that the liquefied gas rides the curved portion and returns to the flow inflow direction absence;
A liquefied gas storage tank comprising a. 3. The method of claim 2,
The division inducing member is a liquefied gas storage tank having one end coupled to the ring support member and having the other end bent toward the short side wall portion of the tank body member. 3. The method of claim 2,
The division inducing member is a liquefied gas storage tank formed in a curved surface formation direction opposite to the curved surface formation direction of other division inducing members adjacent thereto. 3. The method of claim 2,
The division guide member is a liquefied gas storage tank formed in the same direction as the curved surface formation direction of the other division guide member adjacent to the curved surface formation direction. 3. The method of claim 2,
The ring support member is a liquefied gas storage tank in which the cross section is formed in a "T" shape. 3. The method of claim 2,
a pump unit having an inlet pipe connecting the inside and the outside of the tank body member, and sucking the liquefied gas stored in the tank body member through the inlet pipe and transferring it to the outside;
further comprising,
The inner frame unit,
a residual water accommodating member disposed on the bottom of the tank body member and having a depression in which the liquefied gas is contained so that an end of the inlet pipe is immersed in the liquefied gas; and
an upper guiding member coupled to the upper end of the residual water accommodating member;
A liquefied gas storage tank comprising a. 8. The method of claim 7,
The upper guiding member is provided in a shape including a curved surface, the liquefied gas storage tank for guiding the liquefied gas to be returned to the flow inflow direction riding the curved portion. 8. The method of claim 7,
The residual water accommodating member is a liquefied gas storage tank having a residual water flow hole through which the liquefied gas moves at an upper end thereof. 3. The method of claim 2,
The inner frame unit,
a bottom support member provided at least at the bottom of the tank body member and having a cross-section formed in a “T” shape; and
Doedoe coupled to a horizontal portion of the upper end of the floor support member, one end is coupled to one end of the horizontal portion of the floor support member and the other end is coupled to the bottom of the tank body member, the liquefied gas is coupled to the floor support Incline guiding member for guiding to pass over the member;
A liquefied gas storage tank comprising a. The liquefied gas storage tank of any one of claims 2 to 10; and
The liquefied gas storage tank is installed, the hull including an engine unit for providing a driving force;
ships containing

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