KR20130016821A - Structure for restraining the flow in moonpool - Google Patents

Abstract

PURPOSE: A flow restraining structure for a moonpool is provided to restrain flow by installing a flow guide space to guide some of seawater entered into the moonpool toward a stem. CONSTITUTION: A flow restraining structure for a moonpool(100) restrains flow generated in a moonpool when a vessel(V) sails. A flow guide space gradually getting higher toward a stem is arranged and is gradually widened toward the stem. [Reference numerals] (AA) Stem; (BB) Stern

Description

Flow Restriction Structure for Moonpool {STRUCTURE FOR RESTRAINING THE FLOW IN MOONPOOL}

The present invention relates to a door pool, and more particularly to a structure for suppressing flow in the door pool.

Ships such as drill ships that drill down the sea to drill seabeds are equipped with moonpools for drilling operations. The door pool is a hollow rectangular parallelepiped or cylindrical structure formed to penetrate vertically between the upper deck and the bottom of the ship.

As the size of the ship increases, the size of the door pool also increases, and in the case of the cuboid moon pool, a large door pool having a width of 12 to 13 m and a length of 14 to 15 m in length (front and rear length of the ship) It is used.

However, as the size of the door pool increases, there is a problem in that the resistance increases due to the flow generated inside the door pool during the movement of the ship, thereby adversely affecting the propulsion of the ship.

In order to solve this problem, it is most effective to block the bottom of the door pool so that the bottom of the ship forms a horizontal plane.However, for the drilling work, the bottom of the door pool needs to be open, so it is difficult to operate, the load increase due to water pressure, watertightness, etc. Considering this as a whole, the method of blocking the bottom of the door pool is not the most desirable.

Therefore, it is necessary to design the door pool so that the flow inside the door pool can be suppressed as much as possible, while at the same time, the door pool is easy to work with.

An object of the present invention is to provide a structure that facilitates work through the door pool while suppressing the flow inside the door pool during vessel movement.

In order to achieve the above object of the present invention,

According to one aspect of the present invention, as a structure for suppressing the flow generated in the door pool during the operation of the ship, there is provided a flow restraint structure for the door pool, characterized in that the flow guide space is increased toward the bow.

The flow guide space may be wider toward the bow.

The flow inhibiting structure for the door pool has a first wall and a second wall facing away from each other while facing each other to form the flow guide space, connecting the top of the first wall and the top of the second wall and toward the bow It may include a third wall that rises.

The first, second and third wall surfaces may be flat.

The flow inhibiting structure for the door pool may further include a bottom surface connecting the bottom edge of the flow guide space and the bottom of the vessel.

According to the present invention, all of the objects of the present invention described above can be achieved. Specifically, since the flow restraint structure for the door pool with a flow guide space that increases toward the bow is provided, a part of the flow of seawater introduced into the door pool is guided toward the bow, leading to interference between the fluids, thereby suppressing the flow.

In addition, since the flow guide space is wider toward the bow, the flow rate of the flow guided to the bow is reduced, so that the flow in the door pool can be effectively suppressed.

1 is a bottom view showing a part of a vessel having a flow restraint structure for a door pool according to an embodiment of the present invention.
FIG. 2 is a longitudinal cross-sectional view of the ship of FIG. 1 taken along line AA ′. FIG.
3 is a perspective view of the flow inhibiting structure for the door pool shown in FIG.

Hereinafter, the configuration and operation of an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a bottom view showing a portion of a vessel having a flow restraint structure for a door pool according to an embodiment of the present invention, Figure 2 is a longitudinal cross-sectional view showing the vessel of Figure 1 cut along the line AA '. to be. 1 and 2, the vessel V, such as a drilling line, is formed with a door pool M penetrating between the upper deck D and the bottom B. FIG. In the present embodiment, the moon pool M is described as having a rectangular cross-sectional shape, but the present invention is not limited thereto. Inside the door pool M, a flow suppression structure 100 according to an embodiment of the present invention is installed.

3 is a perspective view of the flow inhibiting structure for the door pool shown in FIG. 1 to 3, the flow inhibiting structure 100 for the door pool is installed in contact with the stern end and the bottom (B) side in the door pool (M). The flow inhibiting structure 100 for the door pool has a flow guide space 100a that increases and widens from the stern end toward the bow. The flow guide space 100a is open at the bottom B side and the bow side. In order to form the flow guide space 100a of this shape, the flow inhibiting structure 100 for the door pool has a flat right triangle shape first wall surface 110, a flat right triangle shape second wall surface 120, and a flat A third wall surface 130 having an isosceles triangle shape is provided.

The first wall surface 110 and the second wall surface 120 meet at the stern end bottom B of the door pool M and incline further away from the bow. The upper end 111 of the first wall surface 110 and the upper end 121 of the second wall surface 120 become higher toward the bow.

The third wall surface 130 connects the upper end 111 of the first wall surface 110 and the upper end 121 of the second wall surface 121. The third wall surface 130 is inclined away from the floor B toward the bow. The space formed by the first wall surface 110, the second wall surface 120, and the third wall surface 130 becomes the flow guide space 100a.

In addition, the flow inhibiting structure 100 for the door pool is the bottom of the first bottom surface 140a and the second wall surface 120 connecting the bottom 112 of the first wall 110 and the bottom (B) of the vessel (V). A second bottom surface 140b connecting the 122 and the bottom B of the ship V is provided. The first bottom surface 140a and the second bottom surface 140b connect the bottom edge of the flow guide space 100a with the bottom of the ship V to reduce resistance.

Now, the operation of the above embodiment will be described in detail with reference to FIGS.

When the ship V is moved toward the bow as shown by the solid arrows in Figs. 1 and 2, as the door pool M of the ship V is indicated by the dashed-dotted arrows in Fig. 2. The seawater flowing from the bow side to the stern flows in. At this time, some of the seawater introduced into the door pool (M) flows by changing the direction toward the bow by the flow guide space (100a) formed in the flow prevention structure (100). At this time, the flow guide space 100a becomes wider toward the bow, so the flow velocity is reduced. In this way, the flow rate is reduced by the flow guide space (100a) flows toward the bow and the flow component flows into the stern from the inside of the door pool (M) and eventually flow in the door pool (M) is suppressed.

In the above embodiment, the flow guide space 100a of the flow inhibiting structure 100 for the door pool has a flat right triangle shape first wall surface 110, a flat right triangle shape second wall surface 120 and a flat isosceles triangle shape product. Although described as being formed by the two wall surface 130, the present invention does not limit the flow guide space (100a) to such a shape. The flow guide space formed in the flow inhibiting structure 100 for the door pool may be all wider and higher in the bow direction. For example, the flow guide space may be in the form of a semi-cone.

Although the present invention has been described with reference to the above embodiments, the present invention is not limited thereto. It will be understood by those skilled in the art that the foregoing embodiments are susceptible to modifications and variations that do not depart from the spirit and scope of the invention.

V: Ship M: Moonful
100: flow suppression structure 100a: flow guide space
110: first wall surface 120: second wall surface
130: third wall surface 140a: first bottom surface
140b: second bottom surface

Claims (5)

As a structure for suppressing the flow generated in the door pool during the operation of the ship,
Flow restraint structure for a door pool characterized in that the flow guide space is increased toward the bow. The method according to claim 1,
The flow guide space is a flow restraint structure for a door pool, characterized in that the wider toward the bow. The method according to claim 2,
A first wall surface and a second wall surface facing away from each other while facing each other to form the flow guide space, and a third wall surface connecting the upper end of the first wall surface with the upper end of the second wall surface and increasing toward the bow direction; Flow restraint structure for a door pool, characterized in that. The method according to claim 3,
And said first, second and third wall surfaces are flat. The method according to claim 1,
And a bottom surface connecting the bottom edge of the flow guide space with the bottom of the vessel.

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