KR20150138979A - Storage tank sturucture for mud treatment - Google Patents

Abstract

A storage tank structure for regenerating mud is disclosed. According to one aspect of the present invention, the storage tank structure for regenerating mud comprises: a first tank having a first chamfer to store mud; a second tank having a second chamfer, wherein one surface having the second chamfer is coupled to one surface having the first chamfer in the first tank to store the mud; and a mud discharge unit formed between the first tank and the second tank.

Description

{STORAGE TANK STURUCTURE FOR MUD TREATMENT}

The present invention relates to a storage tank structure for mud regeneration.

As depletion of underground resources on land has increased and interest in undersea resources has increased, various offshore plants are under study to develop seabed resources. Among marine plants, drilling rigs, semi-submersible drilling rigs, and jack-up rigs are examples of drilling equipment.

The drilling rig is equipped with a drill pipe with a drill bit at the end. A mud is used as the drilling fluid of the drill bit. The mud includes barite, bentonite, etc. and is stored in a mud tank mounted on the drilling rig and is supplied as a drill bit by a mud pump.

The mud discharged through the drill bit is recovered through a riser and circulated back to the mud tank via the mud regeneration system. The mud regeneration system may include a shale shaker, a sand desander, a degasser, and a fine sand deserter.

Korean Patent Publication No. 10-2013-0049890 (Feb.

The present invention provides a storage tank structure for mud regeneration capable of increasing stirring efficiency in a storage tank for storing a mud during a regeneration process of a drilling mud.

According to an aspect of the present invention, there is provided a mud tank, comprising: a first tank in which a first chamber is formed to receive a mud; A second tank in which a second chamber is formed and one surface of the first tank on which the first chamber is formed is coupled to one surface of the second chamber on which the second chamber is formed to accommodate the mud; And a mud discharge portion between the first tank and the second tank.

Here, the first tank and the second tank each have a discharge port connected to the mud discharge unit to discharge the mud to the mud discharge unit, and the inner surface of the mud discharge unit can be watertight.

The mud discharge unit may include a main discharge pipe installed along the longitudinal direction of the mud discharge unit and a branch pipe branched from the main discharge pipe to the first tank and the second tank.

The first chamfer and the second chamfer may be formed symmetrically with respect to each other.

According to the embodiment of the present invention, since the chamfer is formed at the bottom edge of each tank to minimize sticking of the mud to the lower edge of each tank, the stirring efficiency in the storage tank storing the mud during the regeneration process of the drilling mud .

1 shows a drilling rig.
2 is a perspective view showing a storage tank structure for mud regeneration according to an embodiment of the present invention;
3 is a plan view schematically showing a storage tank structure for mud regeneration according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Referring now to the drawings, wherein like reference numerals designate identical or corresponding parts throughout the several views, The description will be omitted.

It is also to be understood that the terms first, second, etc. used hereinafter are merely reference numerals for distinguishing between identical or corresponding components, and the same or corresponding components are defined by terms such as first, second, no.

In addition, the term " coupled " is used not only in the case of direct physical contact between the respective constituent elements in the contact relation between the constituent elements, but also means that other constituent elements are interposed between the constituent elements, Use them as a concept to cover each contact.

1 is a view showing a drilling rig.

1, the drilling rig 10 may include a drill pipe 12 having a drill bit 11 at its end.

The drill pipe 12 can extend from the sea to the seabed, and the drill bit 11 can excavate the seabed using the rotational force. As the drilling fluid of the drill bit 11, a drilling mud may be used. The drilling mud may include barite, bentonite, and the like.

The drilling mud is supplied from the mud tank 18 to the drill bit 11 through the drill pipe 12 and is recovered through the riser 13 and circulated back to the mud tank 18 via the mud regeneration system. The mud regeneration system may include a shale shaker 14, a desander 15, a degasser 16 and a fine sand desilter 17.

The mud tank 18 can perform an operation such as receiving and stirring the drilling mud by installing the storage tank structure for mud regeneration according to an embodiment of the present invention. The storage tank structure for mud regeneration according to an embodiment of the present invention may be a mud tank 18 itself and may be connected to the mud tank 18 through various pipes so that the drilling mud may be discharged from the mud tank 18, To the storage tank structure for mud regeneration according to the embodiment.

The drilling rig 10 may be, for example, a drillship, a semi-submersible drilling rig or a jack-up rig.

2 is a perspective view showing a storage tank structure for mud regeneration according to an embodiment of the present invention. 3 is a plan view schematically showing a storage tank structure for mud regeneration according to an embodiment of the present invention.

2 and 3, the storage tank structure for mud regeneration 1000 according to an embodiment of the present invention includes a first tank 100, a second tank 200, and a mud discharge unit 300 .

The first tank 100 can be partitioned into a side wall, a front wall, a rear wall, a ceiling, and a floor, as shown in Fig. 2, as a portion in which a first chamfer 110 is formed at a lower corner have. In this case, the first chamfer 110 refers to the lower edge of the first tank 100, that is, the inclined surface formed between the side wall and the bottom, and the first chamfer 110 is formed by the lower edge of the first tank 100 Can be continuously formed.

The mud contained in the general tank structure may be fixed to the lower edge of the tank by sedimentation or the like. However, in the case of the first tank 100, the mud can flow down along the first chamfer 110 formed at the lower edge, so that sticking of the mud to the lower edge can be minimized.

The second tank 200 can also be partitioned into a side wall, a front wall, a rear wall, a ceiling, and a floor, as shown in FIG. 2, as a portion where the second chamfer 210 is formed at the lower corner to accommodate the mud. have. In this case, the second chamfer 210 refers to the lower edge of the second tank 200, that is, the inclined surface formed between the side wall and the bottom, and the second chamfer 210 refers to the lower edge of the second tank 200 Can be continuously formed.

The second tank 200 can minimize sticking of the mud to the lower edge by the second chamfer 210, like the first tank 100 described above.

Since chamfers 110 and 210 are formed at lower corners of the tanks 100 and 200 to minimize the fixing of the mud to the bottom edge of each tank 100 and 200, The stirring efficiency can be increased in the storage tank storing the mud.

Also, the effect of reducing the sloshing impact pressure applied to the tanks 100 and 200 by the mud can be exerted. That is, when the mud in each of the tanks 100 and 200 flows and a sloshing phenomenon occurs, the mud does not vertically collide with the side walls of the respective tanks 100 and 200, and the inclined surfaces formed by the chamfers 110 and 210 So that it is possible to mitigate the impact pressure by the sloshing.

2 and 3, the second tank 200 may have one surface formed with the second chamfer 210 on one surface of the first tank 100 on which the first chamfer 110 is formed. have. That is, the first chamfer 110 and the second chamfer 210 may be formed to be in contact with each other.

The mud discharging unit 300 is a part partitioned by the bottom surface 20 on which the first tank 100 and the second tank 200 are installed and the first chamfer 110 and the second chamfer 210, The first chamfer 110 and the second chamfer 210 may be partitioned into a portion where the first chamfer 110 and the second chamfer 210 abut against each other and the bottom surface 20.

When chamfers 110 and 210 are formed in the lower corners of the tanks 100 and 200, a space defined by the first chamfer 110 and the second chamfer 210 and the bottom surface 20 The storage tank structure 1000 for mud regeneration according to the present embodiment can utilize such space as the mud discharge unit 300, which is the discharge passage of the mud.

The first tank 100 and the second tank 200 are connected to the mud discharge unit 300 such that the mud can be discharged to the mud discharge unit 300, respectively, in the storage tank structure 1000 for mud regeneration according to the present embodiment. A connecting outlet is formed, and the inner surface of the mud discharging part 300 can be watertight.

That is, the first tank 100 and the second tank 200 can be moved to the mud discharge unit 300 through the discharge port, and the inner surface of the mud discharge unit 300 is watertight, It can perform the discharge pipe function of the mud.

Therefore, the storage tank structure 1000 for mud regeneration according to the present embodiment can discharge the mud by only the mud discharge unit 300 without the separate piping, and can transfer the mud to the subsequent process unit.

In the storage tank structure 1000 for mud regeneration according to the present embodiment, the mud discharge unit 300 includes a main discharge pipe 310 and a main discharge pipe 310 installed along the longitudinal direction of the mud discharge unit 300 And a branch pipe 320 branched from the first tank 100 and the second tank 200, respectively.

It may be necessary to provide a piping to the mud discharge unit 300 for ease of repair or replacement. In this case, there is no need to provide a separate pipe for each tank 100, 200, and a branch pipe 320 branched to each tank 100, 200 is connected to the main discharge pipe 310 formed along the longitudinal direction of the mud discharge unit 300 ) Can be installed to minimize the required piping.

3, in the case where the first tank 100 and the second tank 200 are arranged in a plurality of rows, even when the tanks are relatively far from the mud conveying pipe 30 from which the mud is conveyed, If the main discharge pipe 310 is connected through the pipe 320, the mud can be discharged from the tank more easily while minimizing the required piping.

In this case, a separate valve is provided in each branch pipe 320 so that whether the mud is discharged from each of the tanks 100 and 200 can be individually controlled.

In the storage tank structure 1000 for mud regeneration according to the present embodiment, the first chamfer 110 and the second chamfer 210 are formed symmetrically with each other to ensure structural stability.

That is, the inside of each of the tanks 100 and 200 and the inside of the mud discharging unit 300 can continuously apply the pressure by the mud such as a sloshing impact pressure or the like. In this case, the pressure caused by the mud may deform or break the portion that is relatively vulnerable to pressure.

Therefore, the storage tank structure 1000 for mud regeneration according to the present embodiment is formed by symmetrically forming the first chamfer 110 and the second chamfer 210 so that the inside of each tank 100, 200 and the mud discharge portion 300 to prevent the occurrence of eccentricity, thereby minimizing deformation or breakage.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

10: Drilling rig 11: Drill bit
12: Drill pipe 13: riser
14: rock remover 15: sand remover
16: Gas eliminator 17: Fine sand remover
18: mud tank 20: bottom surface
100: first tank 110: first chamfer
200: second tank 210: second chamfer
300: mud discharge unit 310: main discharge pipe
320: Branch 1000: Storage tank structure for mud regeneration

Claims (4)

A first tank in which a first chamber is formed to receive the mud;
A second tank in which a second chamber is formed and one surface of the first tank on which the first chamber is formed is coupled to one surface of the second chamber on which the second chamber is formed to accommodate the mud; And
And a mud discharge portion between the first tank and the second tank. The method according to claim 1,
Wherein the first tank and the second tank each have an outlet connected to the mud discharge unit to discharge the mud to the mud discharge unit,
And the inner surface of the mud discharging portion is watertight. 3. The method according to claim 1 or 2,
The mud-
A main discharge pipe installed along the longitudinal direction of the mud discharge portion and
And a branch pipe branched from the main discharge pipe to the first tank and the second tank, respectively. 3. The method according to claim 1 or 2,
Wherein the first chamfer and the second chamfer are formed symmetrically with respect to each other.

Images