KR101922028B1 - Polluted water drain equipments in drilling ship - Google Patents

Abstract

A contaminated water drainage device for a drill ship including a rotary table and a diverter is disclosed. Wherein the contaminated water drainage device of the drill ship comprises a drip pan located between the rotary table and the diverter; A drain port formed in the drip pan; And a drain line connected to the drain port on the back side of the drip pan. The drip pan has an inclined surface extending downward at an inclination angle, and the drain port is located at an inclined end base region of the drip pan.

Description

BACKGROUND OF THE INVENTION Field of the Invention [0001] The present invention relates to a polluted water drainage apparatus,

The present invention relates to a polluted water drainage device for a drill ship, and more particularly, to a polluted water drainage device for a drill ship configured to smoothly discharge polluted water from a drip pan.

Generally, drill ship refers to a ship or an offshore structure equipped with drilling equipment suitable for development of underwater oil fields. These drills can be stably located at certain drilling points in the ocean, allowing exploration or drilling of seabed. There are self-propelled drilling rigs and drilling rigs that drill at specific locations in the ocean with the help of other vessels.

Typically, the drill ship includes a portal and a drill rig for drilling is installed at the top of the portal. The drill rig includes a drill and drill tube for drilling and a rotary table for transferring rotational power to the drill and drill tube. When drilling using these drilling equipment, the mud used to protect the drill circulates through the drill tube, which generates polluted water including mud and cuttings containing oil . At this time, the generated polluted water flows into the mud process module through the divertor, and oil and / or pulverized water or the like is filtered there and regenerated as a reusable mud.

In this process, there is a problem that the polluted water falls into the sea through a gap between the rotary table and the diverter housing to cause pollution of the environment. In order to solve such a problem, a drip pan pan) on the bottom of the rotary table has been proposed.

However, this technology requires the operator to periodically clean the dirty water collected in the drip pan, the working environment is contaminated by the dirty water that has fallen to the divertor platform, the floor is slipped due to the contaminated water, and the working environment is deteriorated There are disadvantages.

On the other hand, a technique has been proposed in which a plurality of scuppers are provided in a drip pan and a drain line is connected to each of the drains. Such conventional technology has been proposed by Daewoo Shipbuilding Co., Korean Patent Registration No. 10-1097383, filed on May 26, 2011 and registered on December 23,

In applying the above technique to the solid line, a drip pan having a flat upper surface was used, but due to the high viscosity of the mud, it was difficult to drain the contaminated water containing the mud through the drain hole. Although a large number of six to seven drains were installed midway through the entire area of the drip pan, it was still difficult to solve the problem that the viscous mud was not drained to various areas of the drip pan. Depleted mud in the drip pan and contaminated water containing it can cause access to equipment and maintenance and repair of the equipment. Also, a large number of drains installed in the middle of the area of the drip pan and a large number of complicated drain lines connected thereto reduce the diverter housing space under the drip pan to allow access to the diverter housing side and maintenance / repair of the diverter housing It makes it difficult. Also, since the drains are widely distributed in the drip pan area, it has been difficult to efficiently inspect and maintain these drains.

Therefore, it is an object of the present invention to provide a drip pan between a rotary table of a drill ship and a drip pan, which can smoothly discharge highly viscous contaminated water falling on a drip pan by a simple structure, Device.

According to an embodiment of the present invention, there is provided a polluted water drainage apparatus of a drill ship including a rotary table and a diverter, wherein the polluted water drainage apparatus of the drill ship includes a drip pan positioned between the rotary table and the diverter; A drain port formed in the drip pan; And a drain line connected to the drain port on the back side of the drip pan. The drip pan has an inclined surface extending downward at an inclination angle, and the drain port is located at an inclined end base region of the drip pan.

According to one embodiment, the drilling water drainage system of the drill rig further comprises a foundation positioned between the drip pan and the rotary table, wherein the foundation comprises a lower surface that is inclined to the sloped surface of the drip pan, And a top surface that is aligned horizontally with the rotary table.

According to one embodiment, the inclination angle is preferably set to 4 to 6 degrees, and the inclined surface may include a flat surface.

According to one embodiment, the contaminated water drainage device may further include a level sensor located near the base area and measuring or sensing the level of the contaminated water.

According to one embodiment, it is preferable that the number of the drains is two or three.

According to embodiments of the present invention, the water containing mud, oil, or contaminated water containing oil flows down from the rotary table to the drip pan, and then smoothly flows along the slope of the drip pan to the slope end base area. Further, the contaminated water collected in the base area can be drained smoothly by the drainage port (s) provided in the base area and the drainage line (s) connected to the drainage port (s) from the backside thereof.

Accordingly, it is possible to eliminate the phenomenon that the viscous mud or the like is accumulated on the drip pan, and the drainage can be smoothly performed.

It is possible to eliminate the mud that has been held in the middle of the drip pan as described above, so that access to the vicinity of the rotary table is facilitated, and maintenance of the rotary table or other peripheral equipment is facilitated.

In addition, since the drain hole is provided only at the slope end of the drip pan, the number of drain holes and the number of drain lines connected thereto can be reduced, thereby greatly reducing the material cost.

 It is also possible to reduce the number of complicated and large number of drainage lines behind the deck and to clean up the drainage lines since drainage lines and drains can be provided only at the slope end base area. Due to the well-organized small number of drain lines, access to the divertor (or divertor housing) side is facilitated and the maintenance of the divertor is also facilitated.

1 is a side view showing an example of a drill ship to which a contaminated water drainage apparatus according to an embodiment of the present invention is applied,
2 is a partial cross-sectional view for explaining a contaminated water drainage apparatus for a drill ship according to an embodiment of the present invention,
3 is a plan view for explaining a drilling line contaminated water drainage apparatus according to an embodiment of the present invention,
4 is an enlarged cross-sectional view of "A"

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. The following embodiments are provided as examples for allowing a person skilled in the art to sufficiently convey the idea of the present invention. Therefore, the present invention is not limited to the embodiments described below, but may be embodied in other forms. In the drawings, the width, length, thickness, and the like of the components may be exaggerated for convenience.

FIG. 1 is a side view showing an example of a drill ship to which a contaminated water drainage apparatus according to an embodiment of the present invention is applied, FIG. 2 is a partial cross-sectional view illustrating a drilling water drainage apparatus according to an embodiment of the present invention FIG. 3 is a plan view for explaining a drilling line contaminated water drainage apparatus according to an embodiment of the present invention, and FIG. 4 is an enlarged cross-sectional view of "A" in FIG.

The polluted water drainage device according to one embodiment of the present invention is applied as part of the polluted water treatment facilities, for example, at a drilling line 50 as shown in FIG. The polluted water treatment facilities treat polluted water generated during the drilling of the drill ship (50) to prevent contamination of the ocean.

The drill rig 50 includes a moon pool 56 between the bow 52 and the stern 54. The door frame (56) is formed so as to vertically penetrate substantially the center of the drill string (50). A drill floor 64 is provided at the upper part of the door frame 56, and a drill rig 58 for drilling is installed.

The drill equipment 58 includes a rotary table 66 (see FIG. 2) that transmits rotational power to a drill and drill (not shown) for drilling and a drill string (not shown) do. The rotary table 66 is installed at a central portion in the drill floor 64. The drill equipment 58 circulates a mud or the like used for drill protection during a drilling operation through a drill string. In this process, contaminated water containing crushed water or oil is generated. The mud lubricates the drilling bit, removes debris from the drilling, stabilizes the borehole, and prevents safety barriers from entering the well bore. Function.

When drilling using the drill equipment 58 as described above, the mud used for drill protection circulates through the drill pipe, and during this process, the mud including the oil and the cuttings Contaminated water is generated.

2 and 3, a rotary table 66 and a diverter 62 and a polluted water drainage device 80 according to an embodiment of the present invention disposed therebetween can be seen. The contaminated water flows into the mud process module 70 (see FIG. 1) through the diverter 62, and oil and / or pulverized water is filtered by the processing equipment in the mud process module 70 to be reused as reusable mud do. The mud is leaked and mixed with waste oil and foreign matter in the oil floor 64 and flows down through the gap in the middle of the rotary table 66 again.

2 and 3, the drainage device 80 of the drill rig according to the present embodiment is provided for collecting and discharging the contaminated water flowing down through the rotary table 66, A plurality of drain holes 84, and a plurality of drain lines 86. The drain line 86 is connected to a solid treatment tank 72 (see FIG. 1) to send the contaminated water there. The contaminated water collected and stored in the solid treatment tank is transported overland or used for mud reprocessing. It is preferable that the drip pan 74 is installed higher than the solid treatment tank.

The drip pan 82 may be installed as a part of a deck below the rotary table 66 to receive contaminated water from the rotary table 66. The dirty water may be introduced into the sea through a well center It serves to prevent falling. Further, the drip pan 82 includes an inclined surface having a predetermined inclination angle (a °) and extending downward for smooth drainage of viscous or contaminated water containing oil contained in the contaminated water. For example, the drip pan 82 can be installed in a structure similar to a structure in which a drip pan having a rectangular parallelepiped structure, which was previously installed horizontally, is tilted. The inclination angle a ° of the drip pan 82 is set to 10 ° or less, preferably 4 to 6 °, and most preferably 5 °.

The base area having the lowest height is formed at one end of the drip pan 82, that is, in the vicinity of the end of the slope, by the inclined arrangement of the drip pan 82 and the inclined plane by the inclined arrangement, ) Flows smoothly to the lower end region. In the base region of the drip pan 82, a small number, preferably two to three drainage openings 84 are provided.

The drain holes 84 are connected to corresponding drain lines 86 on the backside of the drip pan 82. The contaminated water separated from the rotary table 66 to the drip pan 82 flows smoothly downward and collects in the base area of the drip pan 82. Even if only a plurality of drain holes 84 are provided in the base area , It is possible to prevent the mud and the like from stagnating in the drip pan (82).

At this time, for smooth drainage, the inclined surface of the drip pan 82 is preferably a flat surface having a large flatness. According to the above configuration, only a small number of drain holes 84 provided in the base area of the drip pan 82 and a small number of drain lines 86 connected thereto can be checked or monitored. Can be greatly reduced.

The drilling device 80 of the drill ship is sloped in conformity with the inclined drip pan 82 at the bottom so that the rotary table 66 can be horizontally disposed on the inclinedly installed drip pan 82, And a foundation 83 that meets the table 66 horizontally.

The foundation 83 includes an upper horizontal surface 832 facing the rotary table 66 and a lower inclined surface 834 facing the drip pan 82.

In addition, the drill pipe drainage device 80 may include a level sensor 87 in the base region of the drip pan 82. 4, the level sensor 87 may be attached to the bulkhead in the vicinity of the base region on the lower side of the inclined plane of the drip pan 82. As shown in Fig. The level sensor 87 senses or measures the level of the contaminated water W when there is a problem with the drainage port 84 or the drain line 86 or the like and the contaminated water W containing the mud in the drip pan 82 is high , To inform the drill crew or operator.

That is, the level sensor 87 always monitors the contaminated water in the base region of the drip pan 82, thereby making the drainage management more efficient. On the other hand, in the conventional case, there is no level sensor, and furthermore, it was impossible to specify a position at which the level of the mud or the contaminated water can be sensed or measured, that is, a position at which the level sensor can be installed.

66: Rotary table 80: Polluted water drainage device
82: Drip pan 84: Drain
86: Drain line 87: Level sensor

Claims (6)

In a contaminated water drainage device (80) of a drill ship (50) including a rotary table (66) and a diverter (62)
A drip pan (82) positioned between the rotary table (66) and the diverter (62);
A drain port 84 formed in the drip pan 82; And
A drain line 86 connected to the drain port 84 on the back side of the drip pan 82; And
And a level sensor (87) for measuring or sensing the position of the contaminated water,
The drip pan 82 has an inclined surface having an inclination angle and extending downward,
The drain port (84) is located in the base end region of the sloped surface of the drip pan (82)
Wherein the level sensor (87) is located in the vicinity of the basal area to confirm that a problem occurs in the drain port (84) or the drain line (86). The method according to claim 1,
Further comprising a foundation positioned between the drip pan and the rotary table,
Wherein the foundation comprises a lower surface adapted to be inclined with respect to an inclined surface of the drip pan and an upper surface horizontally aligned with the rotary table. The apparatus according to claim 1, wherein the inclination angle is set to 4 to 6 degrees. The apparatus according to claim 1, wherein the inclined surface includes a flat surface. delete The apparatus according to claim 1, wherein the number of the drain ports is two to three.

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