KR20170050381A - Mud cutting treatment system and method - Google Patents

Abstract

The present invention relates to a mud cutting object treatment system, and a mud cutting object treatment method. The present invention comprises a bi-directional screw conveyor structure and enables each discharge unit to be formed on both sides of the bi-directional screw conveyor to enable an oil mud cutting object discharge line and a clean cutting blower line to be disposed on each discharge unit in order to enable the mud cutting object discharge line to easily and simply be arranged. Moreover, supplies of the discharge line and an isolation valve are reduced to more flexibly respond to the arrangement of equipment.

Description

[0001] MUD CUTTING TREATMENT SYSTEM AND METHOD [0002]

The present invention relates to a mud cutting water treatment system and method, and more particularly to a bi-directional screw conveyor structure, wherein a discharge portion is formed on both sides of a bi-directional screw conveyor, The present invention relates to a mud-cutting water treatment system and a treatment method, which are capable of sorting and discharging mud-cutting water through a portion of the mud-cutting water treatment apparatus, thereby simplifying and simplifying the discharge piping line of the mud-cutting water.

In recent years, limited global resources have gradually come to the bottom due to rapid industrialization and industrial development trends internationally, and the stable production and supply of resources is becoming a very important issue.

In recent years, along with the development of oil exploration technology on the sea floor, development of marginal field or deep sea oil field, which has lost economical efficiency up to now, is being actively promoted.

FIG. 1 is a side view showing a drill ship which is currently performing a drilling operation at sea level.

1, a worker moves the riser 4 and the drill pipe 5 downward through the doorpipe 3 formed at the center of the drill ship 1, thereby moving the rock bed 12 under the sea bed 6 (Not shown) located in the well 13.

The riser 4 is a member that advances to the bottom 6 before reaching the well 13 and prevents the drill pipe 5 from being exposed to seawater and serves as a feed path for the recovery mud . When the riser 4 is installed, the drill pipe 5 advances downward into the riser 4 through the seam bottom layer 11 to the well 13.

Bottom bottom 6 is provided with a blowout preventer (BOP) 7 to prevent abnormal high pressure from rising on the drill pipe 5.

In the seam layer 11, after the casing 8 is fixed by cement, a drill pipe 5 equipped with a drill bit 10 is inserted into the casing to drill the seabed resources.

The mud 9 is inserted into the drill pipe 5 in order to prevent the drill bit 10 from being overheated by the heat generated when the drill bit 10 penetrates the ground, .

The mud exits through the drill bit 10 and is filled in the casing 8, and is recovered as a drill through the inside of the riser. When the drilling operation is completed, the drill pipe 5 is transported to the drill floor through the door frame 3, disassembled, and then transported to the loading site.

When crude oil drilling is carried out, not only pure crude oil is raised from the drilling point to the drill ship, but the mixture of the crude oil mixture and the mud, gravel and seawater is mixed, that is, the mud cutting water (drill cutting) is raised. Therefore, in the drilling line, a device for treating the mud cutting material is operated to remove the rock contained in the mud cutting material, and seawater, crude oil and mud are separated from each other to discharge seawater to the outside of the hull.

As described above, in semi-submersible drilling rigs and drill rigs, coolant that cools drill bits, lubricant that facilitates drilling, and mud cutting that comes out during drilling The mud is used as a mediator. It is very expensive, so after cutting off the cutting material contained in the recovered mud after drilling, it is reprocessed and used again. The mud supplied to the borehole goes through a mud recovery system for reuse.

2 is a block diagram schematically illustrating a conventional mud-cutting water treatment system of a drilling rig.

2, the conventional mud cutting water treatment system 10 is used to remove a piece of rock such as gravel or coarse stone contained in a recovered mud cutting from a gumbo box 11 It filters out.

The shale, clay, or rock fragments contained in the mud cut material that has passed through the gumbo box 11 are divided and supplied to a maximum of 8 shale shakers 13 by a flow divider 12.

The flow divider 12 serves to distribute the mud cutting material to the respective water separator 13, and the water separator 13 serves to separate and supply the pieces of rock contained in the distributed mud cutting material.

The mud cutting material that has passed through the flow divider 12 passes through the mud, oil based mud and cutting (OBM), water based mud and cutting (WBM) . ≪ / RTI >

The mud separated from the water separator 13 is recovered to a mud tank (not shown), and then supplied to the borehole through the mud treatment system.

The aqueous mud cutting material WBM separated by the water separator 13 is discharged overboard through the cutting chute 14. [

A one-way screw conveyor 15 is installed in the water separator 13 and is driven by the unidirectional screw conveyor 15 to discharge the exhausted water at the end of the unidirectional screw conveyor 15 And to discharge the mud cutting material through the portion 15a.

The unidirectional screw conveyor 15 rotates only in one direction and discharges the mud cut material only through the discharge portion 15a located at the end of the unidirectional screw conveyor 15. [

The mud-cut mud-cutting material OBM discharged from the discharge portion 15a of the one-directional screw conveyor 15 after being separated by the water separator 13 is supplied to the cutting conveyor 16 when the mud content is relatively small Stored in a container (cutting box) 17, and then processed onshore.

The mud-cut mud-cutting material OBM discharged from the discharging portion 15a of the one-directional screw conveyor 15 after being separated by the water separator 13 is discharged to a cutting dryer (18), the planetary mud is transferred to the mud processing system, and the cutting material is discharged to the outside of the hull.

A branch line L2 for feeding clean cutting is branched and installed in the inlet side line L1 of the cutting dryer 18 and is conveyed to a clean cutting blower The clean cut material is supplied to the ISO pump (P). The clean cut material is discharged to the discharge portion 15a of the one-direction screw conveyor 15 via the water separator 13 and the branch line L2 transfers the clean cut material to the clean cut blower 19 do.

However, in the prior art, since the unidirectional screw conveyor 15 is provided to feed the mud cutting material and the mud cut material is discharged only through the discharge portion 15a of the unidirectional screw conveyor 15, The line L2 must be diverged from the inlet side line L1 of the cutting dryer 18. For this reason, discharging piping line routing is unnecessarily long and the line layout is complicated, which makes it difficult to design the line layout and raises the drying cost.

Korean Patent Registration No. 10-1392892

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a bi-directional screw conveyor structure, in which a discharge portion is formed on both sides of a two-directional screw conveyor, A mud cutting water treatment system capable of easily arranging a discharging piping line of the mud cutting material and simplifying arrangement of the mud cutting material and reducing the discharge line quantity and the isolation valve quantity to cope with equipment arrangement more flexibly And a method of processing the same.

In order to achieve the above-mentioned object, the present invention provides a mud cutting water treatment system and a treatment method.

The mud cutting water treatment system of the present invention comprises an iso-separator for separating and supplying a piece of rock contained in a mud cutting; A bidirectional screw conveyor installed to be movable forward and backward for conveying the mud cutting material separated from the water separator and having discharge portions for discharging the mud cutting material at both ends thereof; A cutting conveyor disposed at a discharge portion of one end of the bi-directional screw conveyor for containing and processing the oil-based mud cutting material (OBM) having a relatively small content of mud in the container; A cutting dryer disposed at a discharge side of one end of the bidirectional screw conveyor for discharging oily mud cutting material (OBM) having a relatively large content of mud to the sea; And a clean cutting water blower disposed at a discharge side of the other end of the bi-directional screw conveyor for conveying the clean cut material separated by the water separator.

In the mud cutting water treatment system of the present invention, during the muddy mud cutting (OBM) treatment mode, the forward mover of the bi-directional screw conveyor conveys the muddy mud cutting object OBM through the discharge port of one end of the bi- And the clean cut material is discharged through the discharge port at the other end of the two-way screw conveyor in the reverse rotation of the two-way screw conveyor during the clean cut material processing mode.

In the meantime, the mud cutting water treatment method of the present invention is provided to be able to rotate forward and backward in order to separate the oil mud cutting object (OBM) and the clean cut material, and has a discharge portion for discharging mud- Direction screw conveyor is rotated in a forward direction to discharge the mud-cut mud-cutting material OBM through a discharge portion of one end of the bidirectional screw conveyor, and in the muddy mud cutting (OBM) treatment mode, In the clean cutting water treatment mode, the bidirectional screw conveyor is rotated in the reverse direction to discharge the clean cut material through the discharge portion at the other end of the bidirectional screw conveyor.

In the method of treating a mud cutting material of the present invention, a muddy mud cutting material (OBM) having a relatively small mud content is transported to a cutting conveyor, and then the mud-cutting material is transported into a container, (OBM) can be discharged to the sea through the cutting dryer.

In the method of treating mud cutting water of the present invention, a piece of rock such as gravel or coarse stone contained in the recovered mud cutting material is filtered out of a gumbo box, and a shale, Clay or rock fragments are divided into up to 8 shale shakers by a flow divider.

In the mud cutting water treatment method of the present invention, the aqueous mud cutting material (WBM) separated from the water separator can be discharged to the sea via the cutting chute.

As described above, a bi-directional screw conveyor structure is provided, and discharge portions are formed on both sides of the bi-directional screw conveyor, and the muddy mud cutting material and the clean cut material are sorted through each discharge portion Thereby simplifying and simplifying the arrangement of the discharge piping line of the mud cutting material and reducing the discharge line quantity and the isolation valve quantity, so that the equipment arrangement can be more flexibly coped with.

FIG. 1 is a side view showing a drill ship which is performing a drilling operation in the past sea level
2 is a block diagram schematically illustrating a conventional mud-cutting water treatment system for a drilling line
3 is a block diagram illustrating a mud cutting water treatment system and method in accordance with the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a mud cutting object processing system and a processing method according to the present invention will be described in detail with reference to the accompanying drawings.

3 is a block diagram illustrating a mud cutting water treatment system and method in accordance with the present invention.

3, the mud cutting water treatment system 100 of the present invention includes a gumbo box 110, a flow divider 120, a water separator 130, a bi-directional screw conveyor bi cutting screw conveyor 150, cutting conveyor 160, cutting dryer 180, and clean cutter blower 190.

As mentioned above, the mud is used in semi-submersible drilling rigs and drill rigs as a coolant that cools the drill bit, a lubricant that facilitates drilling, and a medium that carries cuttings that come out during drilling As a result, the mud cutting material contained in the recovered mud after the drilling operation is separated, is reprocessed again, and is subjected to a mud recovery process for reuse.

In the gumbo box 110, a piece of rock such as gravel or coarse stone contained in the recovered mud cutting material is filtered out, and the shale, clay or rock fragments contained in the mud cutting water passing through the gumbo box 110 Is divided into a maximum of eight shale shakers 130 by a flow divider 120 and supplied.

The flow divider 120 serves to distribute the mud cutting material to the respective water separator 130, and the water separator 130 separates and supplies the pieces of rock contained in the mud cutting material.

The mud cutting material that has passed through the flow divider 120 passes through the mud, oil based mud and cutting (OBM), water based mud and cutting (WBM) .

The mud separated from the water separator 130 is recovered by a mud tank (not shown) and then supplied to the borehole through the mud treatment system.

The aqueous mud cut material (WBM) separated by the water separator (130) is discharged to the sea via the cutting chute (140).

The bidirectional screw conveyor 150 is connected to the water separator 130 so that it can rotate in the forward and reverse directions and the discharged water is discharged at one end of the bidirectional screw conveyor 150 by driving the bidirectional screw conveyor 150. (151).

The mud-cut mud-cutting material OBM discharged from the discharging portion 151 of the two-way screw conveyor 150 after being separated by the water separator 130 is supplied to the cutting conveyor 160 when the mud content is relatively small Stored in a container (cutting box) 170, and then processed on land.

The mud-cut mud-cutting material OBM discharged from the discharging portion 151 of the two-directional screw conveyor 150 after being separated by the separator 130 is discharged to a cutting dryer when the content of the mud is relatively large. The muddy mud is transferred to the mud processing system and the cut material is discharged to the outside of the hull.

Further, a clean cutting water blower 190 is disposed at the discharge portion 152 side of the other end of the bidirectional screw conveyor 150 to transport the clean cut material separated by the water separator 130.

The present invention has a bidirectional screw conveyor 150 and is capable of sorting and discharging the mud cut through discharge portions 151 and 152 formed on both sides of the bidirectional screw conveyor 150, Feature.

More specifically, the bidirectional screw conveyor 150 of the present invention includes a polarity switch, and can be driven in a forward or reverse direction. Although not shown in the drawings, a component called a reversible starter is additionally provided on the panel of the NOV, so that the vehicle can be driven in the forward and reverse directions.

The bidirectional screw conveyor 150 has a discharge part 151 at one end and a discharge part 152 at the other end. Here, the forward direction and the reverse direction are arbitrary directions for convenience of explanation. The forward direction is a direction in which the bidirectional screw conveyor 150 rotates so that the mud cutting water is discharged through the discharge portion 151, and the reverse direction refers to the discharge portion 152 Directional screw conveyor 150 so that the mud-cut material is discharged through the two-way screw conveyor 150.

The inlet side line L3 of the cutting dryer 180 may be branched from the cutting conveyor line L4 and may be directly connected to the discharge unit 151 although not shown in the drawing.

The line L5 of the clean cutting blower (CCB) 190 may be connected to the discharge portion 152 of the bidirectional screw conveyor 150.

The method for treating mud-cutting water according to the present invention includes a discharge unit 151 for discharging mud-cutting water to both ends of a mud-cutting water OBM and a clean- Direction screw conveyor 150 in which the two-way screw conveyor 150 is formed and the two-way screw conveyor 150 in which the two-way screw conveyor 150 is formed, Directional screw conveyor 150 is rotated in the opposite direction to discharge the mud-cut mud-cutting object OBM through the discharge unit 151. In the clean cutting water treatment mode, The clean cut material is discharged through the discharge port 152.

In the mud cutting water treatment method of the present invention, the oil-based mud cutting material (OBM) having a relatively small mud content is transported to the cutting conveyor (160), and then the mud-cutting material is transported into the container, And the oil-based mud cutting material (OBM) having a relatively large content of mud can be discharged to the sea through the cutting dryer (180).

In the method for treating mud cutting water according to the present invention, a piece of rock such as gravel or coarse stone contained in the recovered mud cutting material is filtered out of the gumbo box 110, The shale, clay or rock fragments are divided into a maximum of eight water separators 130 by the flow divider 120 and supplied.

In the mud cutting water treatment method of the present invention, the aqueous mud cutting material (WBM) separated by the water separator (130) can be discharged to the sea via the cutting chute (140).

As described above, a bi-directional screw conveyor structure is provided, and a discharge portion is formed on both sides of the two-directional screw conveyor, and a discharge line of a planetary mud cut and a clean cutting blow line The arrangement of the discharging piping line of the mud cutting material is facilitated and simplified, and the discharge line quantity and the isolation valve quantity are reduced, so that equipment arrangement can be more flexibly coped with.

100: Mud cutting water treatment system
110: Gumbo Box
120: Flow divider
130: Isolation separator
140: Cutting Suit
150: Bi-directional screw conveyor
151, 152:
160: Cutting conveyor
170: Container
180: Cutting dryer
190: Clean Cutting Water Blower
L3: inlet side line of the cutting dryer
L4: Cutting conveyor line
L5: Line of clean cutting blower

Claims (6)

A water separator for separating and supplying a piece of rock contained in the mud cutting;
A bidirectional screw conveyor installed to be movable forward and backward for conveying the mud cutting material separated from the water separator and having discharge portions for discharging the mud cutting material at both ends thereof;
A cutting conveyor disposed at a discharge portion of one end of the bi-directional screw conveyor for containing and processing the oil-based mud cutting material (OBM) having a relatively small content of mud in the container;
A cutting dryer disposed at a discharge side of one end of the bidirectional screw conveyor for discharging oily mud cutting material (OBM) having a relatively large content of mud to the sea; And
And a clean cutting water blower disposed at a discharge side of the other end of the bi-directional screw conveyor for conveying the clean cut material separated by the water separator. The method according to claim 1,
In the planetary mud cutting (OBM) processing mode, the planar mud cutting (OBM) is configured to be discharged through the discharge portion at one end of the bi-directional screw conveyor by forward rotation of the bi-directional screw conveyor,
Wherein the clean cutting water is discharged through the discharge part at the other end of the two-way screw conveyor by the reverse rotation of the two-way screw conveyor during the clean cutting water treatment mode. A mud cutting water treatment method for separating a muddy mud cutting material (OBM) and a clean cutting material,
And a bi-directional screw conveyor installed to be rotatable in the forward and reverse directions and having discharge portions for discharging the mud cutting material at both ends thereof,
In the muddy mud cutting (OBM) processing mode, the bidirectional screw conveyor is rotated in the normal direction to discharge the muddy mud cutting material (OBM) through the discharge portion at one end of the bidirectional screw conveyor,
Wherein in the clean cutting water treatment mode, the bidirectional screw conveyor is rotated in the reverse direction to discharge the clean cut material through the discharge portion at the other end of the bidirectional screw conveyor. The method of claim 3,
The oil-based mud cutting material (OBM) having a relatively small amount of mud is transported to a cutting conveyor, and then the mud-cutting material is transported into a container,
Wherein the oil-based mud cutting material (OBM) having a relatively large content of mud is discharged to the sea through a cutting dryer. The method of claim 3,
The shale, clay or rock fragments contained in the mud cut through the gumbo box are filtered by a flow divider into a maximum of eight separators And then supplying the water to the mud cutting water. The method of claim 3,
Wherein the aqueous mud cutting material (WBM) separated from the water separator is discharged to the sea via the cutting chute.

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