WO2021172164A1 - Fuel tank and ship - Google Patents

Abstract

In the present invention, a fuel tank mounted in a ship comprises: a storage unit in which fuel is stored; a piping unit that extends downward from the bottom of the storage unit, fuel circulating in the piping unit; a valve initially provided to the piping unit in the direction in which the piping unit extends from the bottom of the storage unit; and a protective wall part that enables airtight coverage to be provided from the bottom of the storage unit to at least the valve, the protective wall part being installed below the storage unit in a protective-wall-part-installation part, which is a part of the ship.

Description

Fuel tanks and ships

This disclosure relates to a fuel tank and a ship on which the fuel tank is mounted.

The fuel tank mounted on a ship may be provided with a storage unit for storing liquefied gas such as liquefied natural gas (LNG) and liquefied propane gas (LPG). A pipe for injecting liquefied gas into the storage unit and discharging the liquefied gas from the storage unit is connected to the storage unit. Patent Document 1 discloses a ship including a storage unit for storing liquefied gas and a pipe for circulating the liquefied gas stored in the storage unit toward the main engine.

When mounting a fuel tank on a ship, the storage section is often placed on the saddle in consideration of heat shrinkage due to low-temperature liquefied gas. Further, in the extending direction of the pipe, it is necessary to provide a barrier that airtightly covers up to the valve (first valve) provided at the position closest to the storage portion on the pipe. A space called a tank connection space (TCS) is formed in this barrier. Even if liquefied gas leaks from the connection between the fuel tank and the first valve, it is stored in the TCS.

JP-A-2018-176900

The piping may extend downward from the bottom of the storage section. This makes it possible to utilize the gravity of the liquefied gas when discharging the liquefied gas, and it is known that the number of installed pumps can be reduced. In this case, in order to airtightly cover up to the first valve with the barrier as described above, the barrier also extends from the bottom of the storage portion, that is, it has a suspended structure. The barrier needs to be airtight. In addition, the barrier is also required to have a structure that prevents significant deformation even when the low-temperature and high-pressure liquefied gas leaked from the storage portion is stored. For this purpose, it is necessary to increase the wall thickness of the barrier and to firmly combine the barriers with each other, and since a space for providing a TCS is required below the storage portion, it is stored from the floor surface or the like where the saddle is fixed. The height to the mounting position of the part becomes higher. As the capacity of the storage unit is increased, the capacity of the TCS also needs to be increased, so that the height needs to be further increased. The higher the height, the greater the acceleration received by the storage unit or the like due to the shaking of the hull. Therefore, in order to ensure the soundness of the storage section and piping, it is necessary to make the support structure of the storage section stronger. That is, the measures required in the configuration as in Patent Document 1 lead to higher cost and weight of the fuel tank.

The present disclosure has been made in view of the above-mentioned problems, and by configuring the storage unit at a lower cost and lighter weight in a fuel tank mounted on a ship and having a pipe extending from the bottom of the storage unit. , The purpose is to provide a fuel tank that can ensure more soundness.

In order to achieve the above object, the fuel tank according to the present disclosure is a fuel tank mounted on a ship, and the fuel is stored in a storage portion and extends downward from the bottom of the storage portion. A barrier that airtightly covers the circulating piping, the valve that is first provided in the piping in the direction in which the piping extends from the bottom of the storage, and at least the valve from the bottom of the storage. The barrier portion is installed below the storage portion in the barrier portion installation portion which is a part of the ship.

According to the fuel tank of the present disclosure, since the wall portion is installed below the storage portion and at the wall portion installation portion which is a part of the ship, the barrier portion can be supported from below by the barrier portion installation portion. can. For this reason, the wall portion can be constructed at a lower cost and lighter weight than when the barrier portion is not installed in the barrier portion installation portion and is hung in the storage portion, so that the fuel tank is sounder. Sex can be ensured.

It is the schematic which showed the structure of the fuel tank which concerns on 1st Embodiment of this disclosure. FIG. 1 is a cross-sectional view taken along the line AA of FIG. It is the schematic which showed the structure of the fuel tank which concerns on some embodiments of this disclosure. It is the schematic which showed the structure of the fuel tank which concerns on 1st modification of 1st Embodiment of this disclosure. It is the schematic which showed the structure of the fuel tank which concerns on the 2nd modification of 1st Embodiment of this disclosure. It is a figure which showed the structure of the barrier part which concerns on the 3rd modification of 1st Embodiment of this disclosure, and is the figure which enlarged a part of the structure of the fuel tank for the explanation of the wall part. It is a figure which showed the structure of the barrier part which concerns on 4th modification of 1st Embodiment of this disclosure, and is the figure which enlarged a part of the structure of the fuel tank for the explanation of the wall part. It is a figure which showed the structure of the piping part which concerns on 5th modification of 1st Embodiment of this disclosure, and is the figure which enlarged a part of the structure of a fuel tank for explanation of a piping part. It is a figure which showed the structure of the bottom part of the storage part which concerns on the 6th modification of 1st Embodiment of this disclosure, and is the figure which enlarged a part of the structure of a fuel tank for explanation of the bottom part of a storage part. .. It is a figure which showed the structure of the bottom part of the storage part which concerns on another embodiment of the 6th modification.

Hereinafter, the fuel tank according to the embodiment of the present disclosure and the ship on which the fuel tank is mounted will be described with reference to the drawings. Such an embodiment shows one aspect of the present disclosure, does not limit the disclosure, and can be arbitrarily modified within the scope of the technical idea of the present disclosure.

<First Embodiment>
The configuration of the fuel tank 1 according to the first embodiment of the present disclosure will be described with reference to FIGS. 1 and 2. As shown in FIG. 1, the fuel tank 1 is mounted on the ship 100. The fuel tank 1 includes a storage unit 2, a piping unit 4, a first valve 6, and a barrier portion 8. In the present disclosure, the direction from the stern of the ship 100 to the bow is the front, and the direction from the bow to the stern of the ship 100 is the rear.

A storage space 3 is formed inside the storage unit 2, and the fuel F is stored in the storage space 3 (see FIG. 2). Such a storage unit 2 has a cylindrical shape extending in the front-rear direction, and has a single-shell structure. The storage unit 2 is placed on two saddles 10A and 10B arranged side by side in the front-rear direction. A heat insulating material 14 is arranged between the storage unit 2 and the two saddles 10A and 10B. The saddles 10A and 10B are installed on the upper deck 12 (wall portion installation portion) of the hull 7 of the ship 100. Here, the upper deck 12 is the uppermost deck that constitutes the main part of the hull. The fuel F stored in the storage unit 2 can be used for navigation of the ship 100, and liquefied gas of LNG or LPG is exemplified.

The storage unit 2 is fixed to the rear saddle 10A (fixed saddle) located on the rear side. As the fixing means, for example, a structure in which a convex portion is provided in the lower portion of the storage portion 2 and sandwiched from the front and rear of the rear saddle 10A, a structure in which both are fixed by bolts, and the like are adopted. Further, the storage unit 2 is in contact with the front saddle 10B (contact saddle) located on the front side. The saddle for fixing the storage unit 2 is not limited to the rear saddle 10A, and may be the front saddle 10B. The fixed saddle extends from below the storage section 2 of the piping section 4 to the contact saddle in consideration of the influence of stress generated on the piping section 4 due to the displacement of the storage section 2 in the front-rear direction due to heat shrinkage. It is desirable that the saddle is close to the location.

The piping portion 4 extends downward from the bottom portion 5 (lower wall surface) of the storage portion 2. The piping section 4 can connect the storage section 2 (bottom 5 of the storage section 2) and the fuel adjusting section 20. The fuel adjusting unit 20 performs processing such as compression, vaporization, and pressure adjustment on the fuel F supplied from the storage unit 2 (fuel tank 1), and then supplies the fuel F to an engine (not shown).

The first valve 6 is the one closest to the storage section 2 in the extending direction D in which the piping section 4 extends from the bottom portion 5 of the storage section 2 among one or more valves provided in the piping section 4. The first valve 6 can adjust the flow amount of the fuel F flowing through the piping portion 4.

The barrier portion 8 is formed in a box shape by the barrier, and a storage space 9 (tank connection space) is formed inside the barrier portion 8. The barrier portion 8 airtightly covers from the bottom portion 5 of the storage portion 2 to at least the first valve 6. The barrier portion 8 is installed below the storage portion 2 on the upper deck 12 (wall portion installation portion) which is a part of the ship 100. That is, in the first embodiment, the barrier portion 8 airtightly covers the first valve 6 and the portion of the piping portion 4 located above the upper deck 12. In the first embodiment, a part of the upper deck 12 can be made to function as a barrier of the barrier portion 8. Specifically, the upper surface (installation surface) of the upper deck 12 facing the bottom portion 5 of the storage portion 2 at the location where the barrier portion 8 is installed can function as one surface of the box-shaped body. Further, the barrier portion 8 is made of an appropriate material according to the temperature of the fuel F stored in the storage portion 2. For example, when the fuel F is LNG, it is composed of stainless steel, 9% nickel steel, etc., which are particularly excellent in low temperature toughness. Further, when the fuel F is LPG, it is composed of a low-temperature steel material or the like, which is relatively low in cost. As shown in FIG. 3, in some embodiments, the barrier portion 8 may be installed on the barrier portion installation body 13 (wall portion installation portion) in which at least a part thereof is arranged on the upper deck 12. The barrier portion installation body 13 is, for example, a stand installed on the upper deck 12. At this time, a part of the barrier portion installation body 13 can also function as a barrier of the barrier portion 8.

According to the first embodiment, since the wall portion 8 is installed on the upper deck 12 of the ship 100 or the wall portion installation body 13 below the storage unit 2, the wall portion 8 can be supported from below. .. Further, a part of the upper deck 12 and the barrier portion installation body 13 can be used as the barrier portion 8. Therefore, it is possible to provide the fuel tank 1 which can ensure the soundness of the storage unit 2 at a lower cost and lighter weight than when the barrier portion 8 is suspended from the storage unit 2.

In the first embodiment, the piping unit 4 is a piping for discharging the fuel F from the storage unit 2, but the present disclosure is not limited to this embodiment. The piping unit 4 may be a pipe for injecting the fuel F into the storage unit 2, or may be a pipe configured to enable both injection and discharge of the fuel F into the storage unit 2. Further, in the first embodiment, the two saddles 10A and 10B are installed on the upper deck 12 of the hull 7 of the ship 100, but the present disclosure is not limited to this embodiment. The same applies when at least one of the two saddles 10A and 10B is provided on the structure provided on the upper deck 12. Further, although saddles 10A and 10B have shown two cases in the first embodiment, the present disclosure is not limited to this embodiment. An arbitrary number of members may be provided according to the dimensions of the storage unit 2 in the front-rear direction. Further, in the first embodiment, the barrier portion 8 is located between the rear saddle 10A and the front saddle 10B in the front-rear direction, but the present disclosure is not limited to this embodiment. The barrier portion 8 may be positioned other than between the two saddles 10A and 10B. Further, in the first embodiment, the barrier portion 8 is configured to cover a single piping portion 4, but the present disclosure is not limited to this embodiment. The barrier portion 8 may be configured to cover a plurality of piping portions 4.

(First modification)
The fuel tank 1 according to the first modification of the first embodiment of the present disclosure will be described with reference to FIG. In the first embodiment, the barrier portion 8 is installed on the upper deck 12, but the present disclosure is not limited to the first embodiment. In the first modification, the same components as those of the first embodiment are designated by the same reference numerals, and detailed description thereof will be omitted.

As shown in FIG. 4, the wall portion 8 is installed on the lower deck 22 (wall portion installation portion) of the hull 7 of the ship 100. Here, the lower deck 22 is a deck located below the upper deck 12. For convenience, both the upper deck 12 and the lower deck 22 are collectively referred to as decks. That is, a part of the barrier portion 8 is inserted inside the hull 7. The capacity of the storage unit 2 is preferably as large as possible in order to secure the navigation distance of the ship 100, for example. At this time, the diameters of the first valve 6 and the piping portion 4 are also increased. In this case, the volume required for the storage space 9 also increases, and it is necessary to provide a large barrier portion 8. The volume required for the storage space 9 also changes depending on the pressure resistance and temperature resistance of the storage unit 2. In particular, when the storage unit 2 has a high pressure resistance, when the fuel F leaks. Since the amount of leakage may increase, it is necessary to further increase the volume of the storage space 9.

When the heights (vertical dimensions) of the two saddles 10A and 10B are increased in order to increase the size of the storage portion 2 and the barrier portion 8, that is, when the storage portion 2 is raised, for example, the hull 7 is shaken. At that time, the acceleration of the storage unit 2 in the ship width direction becomes large. Therefore, conventionally, in addition to the two saddles 10A and 10B, another support member for supporting the storage unit 2 may be provided, or the two saddles 10A and 10B may be reinforced. However, according to the configuration of the first modification, even if the storage portion 2 and the barrier portion 8 are enlarged, a part of the barrier portion 8 is inserted into the hull 7, so that the storage portion 2 is not raised. It is not necessary to install the support member and reinforce the two saddles 10A and 10B as described above. Further, the heights of the two saddles 10A and 10B can be reduced. Therefore, in the present embodiment, even when the capacity of the storage unit 2 is increased, it is possible to provide the fuel tank 1 which is inexpensive and lightweight and can ensure the soundness of the storage unit 2. ..

In the first modification, the barrier portion 8 is installed on the lower deck 22, but the present disclosure is not limited to this embodiment. The same applies when it is installed on a wall-breaking portion installation body (wall-prevention portion installation portion) (not shown) provided on the lower deck 22. An installation stand or the like is exemplified as a wall installation body. Further, a part of the barrier of the barrier portion 8 is similarly established even when the lower deck 22 or the barrier portion installation body is used.

(Second modification)
The fuel tank 1 according to the second modification of the first embodiment of the present disclosure will be described with reference to FIG. The second modified example further limits the configuration of the barrier portion 8 described in the first modified example, but the other configurations are the same as the configurations described in the first modified example. In the second modification, those having the same constituent requirements as the first modification are designated by the same reference numerals, and detailed description thereof will be omitted. The second modification may further limit the configuration of the barrier portion 8 described in the first embodiment.

As shown in FIG. 5, the barrier portion 8 is configured such that the area of the cross section (hereinafter referred to as the cross section S) orthogonal to the vertical direction is the smallest in the connecting portion 24 in which the barrier portion 8 and the storage portion 2 are connected. Will be done. In the present embodiment, the barrier portion 8 is composed of a small diameter portion 8a and a large diameter portion 8b. The small diameter portion 8a is a portion that is connected to the bottom portion 5 of the storage portion 2 and extends downward from the bottom portion 5 of the storage portion 2 while maintaining the shape of the cross section S of the small diameter portion 8a. The large-diameter portion 8b is a portion that expands the area of the cross section S of the small-diameter portion 8a and extends downward from the tip of the small-diameter portion 8a.

According to the configuration of the second modification, when the bottom portion 5 of the storage portion 2 is displaced due to heat shrinkage or hull shaking, the stress generated at the connection portion between the storage portion 2 and the barrier portion 8 can be reduced. The present disclosure is not limited to the second modification as long as the area of the cross section S is the smallest at the connecting portion 24. For example, the small diameter portion 8a may be configured such that the area of the cross section S increases toward the bottom, such as in a tapered shape.

(Third modification example)
The fuel tank 1 according to the third modification of the first embodiment of the present disclosure will be described with reference to FIG. The third modified example further limits the configuration of the barrier portion 8 described in the second modified example, but the other configurations are the same as the configurations described in the second modified example. The third modification may further limit the configuration of the barrier portion 8 described in the first embodiment and the first modification.

As shown in FIG. 6, the barrier portion 8 is divided into an upper barrier portion 26 and a lower barrier portion 28 located below the upper barrier portion 26. In the present embodiment, the small diameter portion 8a is divided into an upper portion 8c and a lower diameter portion 8d, the upper portion 8c of the small diameter portion 8a is the upper barrier portion 26, and the lower diameter portion 8a and the large diameter portion 8b are the lower barrier portion. It is configured as a part 28. That is, the upper wall portion 26 (the upper portion 8c of the small diameter portion 8a) has a smaller cross-sectional area orthogonal to the vertical direction than a part of the lower barrier portion 28 (large diameter portion 8b). Further, the piping portion 4 is formed with a first valve flange portion 27 for attaching the first valve 6 described above, which is located inside the barrier portion 8. Here, the first valve flange portion 27 of the piping portion 4 can be positioned below the second flange portion 32. In the present embodiment, the flange portion 27 for the first valve of the piping portion 4 is located in the large diameter portion 8b of the barrier portion 8. In the following, the portion of the piping portion 4 on the upstream side in the extending direction D from the flange portion 27 for the first valve will be referred to as the upstream piping portion 4a. In the present embodiment, the small diameter portion 8a maintains the shape of the cross section S, but the upper portion 8c and the lower portion 8d of the small diameter portion 8a may have different cross-sectional shapes. In this case, the upper barrier portion 26 may be smaller than the area of the smallest cross section of the cross sections orthogonal to the vertical direction of the lower barrier portion 28. Further, in some embodiments, although not shown, the outer diameter of the first valve flange portion 27 may be equal to or larger than the inner diameter of the lower portion 8d of the small diameter portion 8a of the barrier portion 8.

The first flange portion 30 is formed at the lower end portion of the upper barrier portion 26, and the second flange portion 32 is formed at the upper end portion of the lower barrier portion 28. Then, the second flange portion 32 is fixed to the first flange portion 30 by fastening the first flange portion 30 and the second flange portion 32 with a fastening member such as a bolt 33. The position where the first flange portion 30 is formed is not limited to the lower end portion of the upper barrier portion 26. The first flange portion 30 is formed at an arbitrary position of the upper barrier portion 26. Similarly, the position where the second flange portion 32 is formed is not limited to the upper end portion of the lower barrier portion 28. The second flange portion 32 is formed at an arbitrary position of the lower barrier portion 28.

According to the configuration of the third modification, the upper barrier portion 26 and the lower barrier portion 28 can be easily separated. Therefore, it is possible to improve the work efficiency at the time of initial assembly and maintenance of the piping portion 4, the first valve 6 and the barrier portion 8 with respect to the storage portion 2. In particular, by locating the first valve flange portion 27 of the piping portion 4 below the second flange portion 32, it is possible to increase the maintenance efficiency of the first valve 6. Further, since the cross section S of the upper portion 8c of the small diameter portion 8a can be reduced to near the cross section of the piping portion 4, the stress generated at the connection portion between the storage portion 2 and the barrier portion 8 can be reduced as much as possible.

(Fourth modification)
The fuel tank 1 according to the fourth modification of the first embodiment of the present disclosure will be described with reference to FIG. 7. The fourth modified example further limits the configuration of the barrier portion 8 described in the third modified example, but the other configurations are the same as the configurations described in the third modified example.

As shown in FIG. 7, a joint 34 that can be expanded and contracted in the vertical direction is provided between the first flange portion 30 and the second flange portion 32. The joint 34 is, for example, a bellows having a bellows shape in which a plurality of mountain folds 35 and valley folds 36 are alternately formed. Further, the upper end portion of the joint 34 is fastened to the first flange portion 30 by a fastening member such as a bolt 38. Similarly, the lower end of the joint 34 is fastened to the second flange 32 by a fastening member such as a bolt 40. The joint 34 is made of a metal, an organic material (eg, rubber, resin) or the like.

According to the configuration of the fourth modification, the displacement generated in the lower wall portion 28 due to the hull shaking or the like is absorbed by the joint 34. Therefore, the stress generated at the connection point between the storage portion 2 and the barrier portion 8 can be further reduced. Further, it is possible to improve the work efficiency at the time of initial assembly and maintenance of the piping portion 4, the first valve 6 and the barrier portion 8 with respect to the storage portion 2. The joint 34 is not limited to the bellows structure. Other means may be used as long as it is a stretchable joint such as a sleeve type telescopic pipe joint.

(Fifth modification)
The fuel tank 1 according to the fifth modification of the first embodiment of the present disclosure will be described with reference to FIG. The fifth modified example further limits the configuration of the piping portion 4 described in the fourth modified example, but the other configurations are the same as the configurations described in the fourth modified example. The fifth modification may further limit the configuration of the piping portion 4 described in the first embodiment and the first to third modifications.

As shown in FIG. 8, one end 42 of the piping unit 4 on the storage unit 2 side is located in the storage unit 2 (inside the storage space 3). The airtight flange portion 44 formed at one end 42 of the piping portion 4 is configured so that an airtightness test flange (not shown) that can make the storage space 3 airtight can be attached and detached. Further, the airtight flange portion 44 is configured to be attached with a first strainer 45 configured so that foreign matter mixed in the fuel F can be removed by the flow of the fuel F. In the present embodiment, the first strainer 45 is fastened to the airtight flange portion 44 by a fastening member such as a bolt 47. The first strainer 45 may be directly attached to one end 42 of the piping portion 4.

According to the configuration of the fifth modification, since one end 42 of the piping portion 4 is located in the storage portion 2, even if particulate foreign matter is mixed in the fuel F, it is inserted into the storage portion 2. A part of the piping section 4 is blocking the movement of foreign matter in the storage section 2, and it is possible to prevent the foreign matter from being discharged from the storage section 2.

By the way, when the fuel tank 1 is mounted on the ship 100, the first valve 6 is often attached to the flange portion 27 for the first valve. Then, after the first valve 6 is attached, the airtightness of the upstream piping portion 4a is tested. This airtightness test is performed by pressurizing the inside of the upstream piping portion 4a with a gas pumped by a pump or the like, but since the upstream piping portion 4a communicates with the storage space 3, the conventional airtightness test is performed. Then, it was necessary to inject gas into the entire storage space 3, which took a lot of time. However, according to the fifth modification, by attaching the airtightness test flange to the airtightness flange portion 44 at the time of the airtightness test, the airtightness of the upstream piping portion 4a is tested without injecting gas into the storage space 3. can do. Therefore, the time required to perform the airtightness test can be significantly reduced.

Further, according to the configuration of the fifth modification, since the first strainer 45 is attached to the airtight flange portion 44, when the fuel F is discharged from the storage portion 2, foreign matter is discharged from the storage portion 2 together with the fuel F. Can be suppressed.

(6th modification)
The fuel tank 1 according to the sixth modification of the first embodiment of the present disclosure will be described with reference to FIG. The sixth modification further limits the configuration of the bottom portion 5 of the storage unit 2 described in the fifth modification, but the other configurations are the same as those described in the fifth modification. The sixth modification may further limit the configuration of the bottom portion 5 of the storage unit 2 described in the first embodiment and the first to fourth modifications.

As shown in FIG. 9, the bottom portion 5 of the storage portion 2 is provided with a recessed portion 50 for partitioning the depressed space 48 by sinking from a part 46a of the inner surface 46 of the bottom portion 5 of the storage portion 2. One end 42 of is located in the depressed space 48. In the embodiment shown in FIG. 9, the airtight flange portion 44 and the first strainer 45 are also located in the depressed space 48.

The depressed portion 50 includes a lower wall portion 52 that surrounds the depressed space 48 from below, and a side wall portion 54 that extends upward from the peripheral edge of the lower wall portion 52 and surrounds the depressed space 48 from a direction intersecting the vertical direction. , Equipped with. The lower wall portion 52 is penetrated by the piping portion 4. An upper barrier portion 26 is connected to the side wall portion 54, and a first flange portion 30 is formed on the outer peripheral edge of the upper barrier portion 26.

When one end 42 of the piping portion 4 is configured to be located in the storage portion 2, the water level of the fuel F capable of discharging the fuel F from the storage portion 2 rises. Therefore, not all the fuel F can be discharged from the storage unit 2, and a part of the fuel F may remain in the storage unit 2. In this regard, according to the configuration of the sixth modification, since one end 42 of the piping portion 4 is located in the depressed space 48 partitioned by being depressed from a part 46a of the inner surface 46 of the bottom portion 5, the fuel F Most of the fuel can be discharged from the storage unit 2, and the amount of fuel F remaining in the storage unit 2 can be made very small.

As shown in FIG. 10, in another embodiment of the sixth modification, a second strainer 56 is further configured to cover the depressed space 48 from above and remove foreign matter mixed in the fuel F by the flow of the fuel F. It may be included. In the present embodiment, a second strainer flange portion 58 is formed on the inner surface of the side wall portion 54. Then, the second strainer 56 is fixed on the second strainer flange portion 58 by fastening the second strainer 56 and the second strainer flange portion 58 with a fastening member such as a bolt 60.

According to such a configuration, since the second strainer 56 covers the depressed space 48 from above, it prevents foreign matter from moving to the depressed space 48 when the fuel F is discharged from the storage unit 2, and the storage unit 2 It is possible to prevent foreign matter from being discharged together with the fuel F. If the depressed portion 50 for partitioning the depressed space 48 is provided at the bottom 5 of the storage portion 2, the second strainer 56 can be provided so as to cover the depressed space 48 from above. It is not limited to another embodiment of the sixth modification. That is, the airtight flange portion 44 and the first strainer 45 are not indispensable configurations for providing the second strainer 56.

The contents described in each of the above embodiments are grasped as follows, for example.

(1) The fuel tank (1) according to the present disclosure is a fuel tank mounted on a ship (100), and has a storage portion (2) for storing fuel (F) and a bottom portion (5) of the storage portion. ), And a valve (6) first provided in the pipe portion in the direction in which the pipe portion extends from the bottom of the storage portion to the pipe portion (4) through which the fuel flows downward. A barrier portion (8) that airtightly covers from the bottom portion (5) of the storage portion to at least the valve is provided, and the barrier portion is below the storage portion and is a part of the ship. It is installed in the installation section (12, 13, 22).

According to the configuration described in (1) above, the wall portion is installed below the storage portion and at the wall portion installation portion which is a part of the ship, so that the barrier portion can be supported from below. For this reason, the wall portion can be constructed at a lower cost and lighter weight than when the barrier portion is not installed in the barrier portion installation portion and is hung in the storage portion, so that the fuel tank is sounder. Sex can be ensured.

(2) In some embodiments, in the configuration described in (1) above, the barrier portion installation portion includes an installation surface facing the bottom portion of the storage portion, and a part of the barrier portion is the installation. It consists of faces.

According to the configuration described in (2) above, a part of the barrier portion installation portion can function as the barrier portion.

(3) In some embodiments, in the configuration described in (1) or (2) above, the barrier portion installation portion is a deck (12, 22).

According to the configuration described in (3) above, it is relatively easy to install the barrier portion on the deck, so that it is possible to easily construct the barrier portion at low cost and light weight.

(4) In some embodiments, in the configuration according to any one of (1) to (3) above, the storage unit is a plurality of saddles (10A, 10B) installed in the barrier installation unit. ), The plurality of saddles include a fixed saddle (10A) fixed to the storage portion and an abutting saddle (10B) abutting the storage portion, and the piping portion is the same. It extends downward from the bottom of the storage section, which is closer to the fixed saddle than the tangent saddle.

According to the configuration described in (4) above, the displacement of the bottom of the storage portion is smaller when it is closer to the fixed saddle than to the contact saddle, so that the stress generated in the piping portion can be reduced.

(5) In some embodiments, in the configuration according to any one of (1) to (4) above, the barrier portion has a cross-sectional area orthogonal to the vertical direction of the barrier portion and the storage portion. It is configured to be the smallest at the connection portion (24) to which and is connected.

According to the configuration described in (5) above, it is possible to reduce the stress generated at the connection point between the storage portion and the barrier portion when the bottom portion of the storage portion is displaced due to heat shrinkage or hull shaking.

(6) In some embodiments, in the configuration according to any one of (1) to (5) above, the barrier portion is located below the upper barrier portion (26) and the upper barrier portion. It is divided into two parts, a lower barrier portion (28), a first flange portion (30) is formed on the upper barrier portion, and a second flange portion (32) is formed on the lower barrier portion. One flange portion is configured to be fixed to the second flange portion.

According to the configuration described in (6) above, the upper barrier portion and the lower barrier portion can be easily separated. Therefore, it is possible to improve the work efficiency at the time of initial assembly and maintenance of the barrier portion.

(7) In some embodiments, in the configuration described in (6) above, the upper barrier portion has a smaller cross-sectional area orthogonal to the lower barrier portion in the vertical direction.

According to the configuration described in (7) above, the cross section of the upper barrier portion can be reduced to near the cross section of the piping portion, so that the stress generated at the connection portion between the storage portion and the barrier portion can be reduced as much as possible. ..

(8) In some embodiments, in the configuration described in (6) or (7) above, a stretchable joint (34) is provided between the first flange portion and the second flange portion. Be done.

According to the configuration described in (8) above, the displacement generated in the lower wall portion due to the hull shaking or the like is absorbed by the joint, so that the stress generated at the connection portion between the storage portion and the barrier portion can be further reduced.

(9) In some embodiments, in the configuration according to any one of (1) to (8) above, one end (42) of the piping portion on the storage portion side is located in the storage portion. ..

According to the configuration described in (9) above, since one end of the piping section is located in the storage section, even if particulate foreign matter is mixed in the fuel, when the fuel is discharged from the storage section, the fuel is discharged. A part of the piping portion inserted in the storage portion can block the movement of foreign matter and prevent the foreign matter from being discharged from the storage portion.

(10) In some embodiments, in the configuration described in (9) above, the piping portion is attached to one end of the piping portion on the storage portion side so that foreign matter mixed in the fuel can be removed by the flow of the fuel. Includes the first strainer (45).

According to the configuration described in (10) above, since the first strainer is attached to one end of the piping portion, it is possible to suppress the discharge of foreign matter together with the fuel from the storage portion when the fuel is discharged from the storage portion. Can be done. Alternatively, when injecting fuel into the storage unit, it is possible to prevent foreign matter from being injected into the storage unit together with the fuel from the piping unit.

(11) In some embodiments, in the configuration described in (9) or (10) above, the bottom portion of the storage portion is recessed from a part (46a) of the inner surface (46) of the bottom portion. A recessed portion (50) for partitioning the depressed space (48) is provided, and one end of the piping portion on the storage portion side is located in the depressed space.

If one end of the piping section is configured to be located inside the storage section, the water level of fuel that can discharge fuel from the storage section rises. Therefore, not all the fuel can be discharged from the storage unit, and a part of the fuel may remain in the storage unit. However, according to the configuration described in (11) above, since one end of the piping portion is located in the depressed space partitioned by being depressed from a part of the inner surface of the bottom portion, most of the fuel is stored from the storage portion. It can be discharged and the amount of fuel remaining in the storage can be reduced.

(12) In some embodiments, in the configuration described in (11) above, a second strainer configured to cover the depressed space from above and remove foreign matter mixed in the fuel by the flow of the fuel (12). 56) is included.

According to the configuration described in (12) above, the second strainer covers the depressed space from above, so that when the fuel is discharged from the storage portion, foreign matter is prevented from moving to the depressed space, and the fuel is discharged from the storage portion. At the same time, it is possible to suppress the discharge of foreign matter. Alternatively, when injecting fuel into the storage unit, it is possible to prevent foreign matter from entering a space other than the depressed space in the storage unit.

(13) In some embodiments, the ship (100) is equipped with the fuel tank according to any one of (1) to (12) above.

According to the configuration described in (13) above, in a fuel tank in which a pipe extends from the bottom of the storage section, the storage section can be constructed at a lower cost and lighter weight to ensure more soundness. Ships can be provided.

1 Fuel tank 2 Storage section 3 Storage space 4 Piping section 4a Upstream piping section 5 Bottom of storage section 6 First valve (valve)
7 Hull 8 Barrier 9 Storage space 10A Rear saddle (fixed saddle)
10B front saddle (contact saddle)
12 Upper deck (wall installation part)
14 Insulation material 20 Fuel adjustment part 22 Lower deck (wall part installation part)
26 Upper barrier 27 First valve flange 28 Lower barrier 30 First flange 32 Second flange 34 Joint 35 Mountain fold 36 Valley fold 44 Airtight flange 45 First strainer 46 Bottom of storage Inner surface 48 Sink space 50 Sink 56 Second strainer 100 Ship D Extension direction F Fuel

Claims (13)

1. A fuel tank mounted on a ship
   A storage area where fuel is stored and
   A piping section extending downward from the bottom of the storage section and through which the fuel flows,
   A valve first provided in the pipe portion in a direction extending from the bottom portion of the storage portion to the pipe portion.
   A barrier portion that airtightly covers from the bottom portion of the storage portion to at least the valve is provided.
   A fuel tank characterized in that the barrier portion is installed below the storage portion and at a barrier portion installation portion that is a part of the ship.
2. The wall portion installation portion includes an installation surface facing the bottom portion of the storage portion.
   The fuel tank according to claim 1, wherein a part of the barrier portion is composed of the installation surface.
3. The fuel tank according to claim 1 or 2, wherein the barrier portion installation portion is a deck.
4. The storage portion is mounted on a plurality of saddles installed in the barrier portion installation portion.
   The plurality of saddles include a fixed saddle fixed to the storage portion and an abutting saddle abutting the storage portion.
   The fuel according to any one of claims 1 to 3, wherein the piping portion extends downward from the bottom portion of the storage portion closer to the fixed saddle than the contact saddle. tank.
5. Any of claims 1 to 4, wherein the barrier portion is configured such that the area of the cross section orthogonal to the vertical direction is the smallest at the connection portion where the barrier portion and the storage portion are connected. The fuel tank described in item 1.
6. The barrier portion is divided into an upper barrier portion and a lower barrier portion located below the upper barrier portion.
   A first flange portion is formed on the upper barrier portion, and the upper barrier portion is formed with a first flange portion.
   A second flange portion is formed on the lower barrier portion, and a second flange portion is formed.
   The fuel tank according to any one of claims 1 to 5, wherein the first flange portion is configured to be fixed to the second flange portion.
7. The fuel tank according to claim 6, wherein the upper barrier portion has a smaller cross-sectional area orthogonal to the lower barrier portion in the vertical direction.
8. The fuel tank according to claim 6 or 7, wherein a stretchable joint is provided between the first flange portion and the second flange portion.
9. The fuel tank according to any one of claims 1 to 8, wherein one end of the piping portion on the storage portion side is located in the storage portion.
10. The fuel according to claim 9, further comprising a first strainer attached to one end of the piping portion on the storage portion side and configured to be able to remove foreign matter mixed in the fuel by the flow of the fuel. tank.
11. The bottom portion of the storage portion is provided with a recessed portion that divides the recessed space by sinking from a part of the inner surface of the bottom portion.
    The fuel tank according to claim 9 or 10, wherein one end of the piping portion on the storage portion side is located in the depressed space.
12. The fuel tank according to claim 11, further comprising a second strainer that covers the depressed space from above and is configured to be able to remove foreign substances mixed in the fuel by the flow of the fuel.
13. A ship equipped with the fuel tank according to any one of claims 1 to 12.

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