KR102426558B1 - Mud cutting treatment system and method - Google Patents

Abstract

The present invention relates to a system and method for processing mud cuttings, having a bi-directional screw conveyor structure, forming discharge units on both sides of the bi-directional screw conveyor, and forming oily mud at each discharge unit By configuring the cutting material discharge line and the clean cutting blower line to be arranged, the arrangement of the discharging piping line of the mud cuttings is easy and simple, and the quantity of the discharge line and the quantity of the isolation valve is reduced, making the equipment arrangement more convenient. be able to respond flexibly.

Description

Mud cutting material treatment system and method

The present invention relates to a mud-cutting material treatment system and treatment method, and more specifically, to a bi-directional screw conveyor structure, forming discharge units on both sides of the bi-directional screw conveyor, and discharging each The present invention relates to a system and a treatment method for treating mud cuttings that facilitate and simplify arrangement of a discharging piping line for mud cuttings by configuring so that the mud cuttings can be sorted and discharged through a section.

In recent years, limited global resources are gradually running out due to rapid international industrialization and industrial development, and the stable production and supply of resources is becoming a very important issue.

Recently, along with the development of oil extraction technology on the seabed, the development of small marginal fields or deep-sea oil fields, which have lost economic feasibility so far, are being actively developed.

1 is a side view showing a conventional drilling vessel performing drilling at sea level.

Referring to FIG. 1 , an operator advances a riser 4 and a drill pipe 5 downward through a moonpool 3 formed in the center of the rig 1 to thereby advance the bedrock 12 under a sea bed 6 . ) drilling the seabed resources stored in the well (13) located in the.

The riser 4 is a member that advances to the seabed 6 in advance before advancing the drill pipe 5 to the oil well 13, and prevents the drill pipe 5 from being exposed to seawater and serves as a transport path for the recovery mud. . When the riser 4 is installed, the drill pipe 5 advances downward to the oil well 13 through the subsea stratum 11 into the riser 4 .

A blowout preventer (BOP) 7 is installed on the seabed 6 to prevent the abnormal high pressure from coming up on the drill pipe 5 .

In the seabed layer 11, after fixing the casing 8 with cement, a drill pipe 5 equipped with a drill bit 10 is inserted into the casing to drill a seabed resource.

Mud 9 is inserted into the drill pipe 5 to prevent the drill bit 10 from being overheated by the heat generated when the drill bit 10 drills the ground and to lubricate the drilling to make drilling easier. .

Mud exits through the drill bit (10) and fills the inside of the casing (8), and is returned to the drilling vessel through the inside of the riser. When the drilling operation is completed, the drill pipe 5 is transported to the drill floor through the moonpool 3, dismantled, and then transported to the loading site.

When drilling for crude oil, not only pure crude oil comes up from the drilling point to the drilling vessel, but a mixture of crude oil mixture, mud, gravel, and seawater, that is, mud cuttings (drill cutting). Therefore, the drilling vessel operates a device for processing the mud cuttings to remove rocks included in the mud cuttings, separate seawater, crude oil, and mud, and discharge the seawater to the outside of the hull.

As described above, in the drilling operation of a semi-submersible rig or drilling vessel, it is a coolant that cools the drill bit, a lubricant that makes drilling smooth, and transports the mud cuttings produced during drilling. Mud is used as a medium, and the price is very high, so the cutting material contained in the mud recovered after drilling is separated and reprocessed for use. The mud fed into the borehole goes through a mud recovery treatment system for reuse.

2 is a block diagram schematically showing a system for processing mud cuttings of a conventional drilling vessel.

As shown in FIG. 2 , the conventional mud cutting water treatment system 10 removes a piece of rock such as gravel or coarse stone contained in the recovered mud cutting material from a gumbo box 11 . filter it out

The pieces of shale, clay or rock contained in the mud cuttings that have passed through the gumbo box 11 are divided by a flow divider 12 into up to 8 shale shakers 13 and supplied.

The flow divider 12 serves to distribute the mud cuttings to each of the water separators 13 , and the water separator 13 serves to separate and supply the rock pieces included in the distributed mud cuttings.

The mud cuttings that have passed through the flow divider 12 pass through the water separator 13 to the mud, oil based mud and cutting (OBM), and water based mud and cutting (WBM). can be separated into

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

The aqueous mud cutting material (WBM) separated by the water separator 13 is discharged to the sea (overboard) through the cutting chute 14.

A one-way screw conveyor 15 is installed in the water separator 13, and by the driving of the one-way screw conveyor 15, discharge located at the end of the one-way screw conveyor 15 It is configured to discharge the mud cuttings through the portion 15a.

The one-way screw conveyor 15 rotates only in one direction, and the mud cutting material is discharged only through the discharge part 15a located at the end of the one-way screw conveyor 15 .

After being separated by the water separator 13, the oil-based mud cutting material (OBM) discharged from the discharge part 15a of the one-way screw conveyor 15 is supplied to the cutting conveyor 16 when the content of mud is relatively small. After being stored in a container (cutting box) 17, it is processed on land.

In addition, the oil-based mud cutting material (OBM) discharged from the discharge part 15a of the one-way screw conveyor 15 after being separated from the water separator 13 is a cutting dryer when the content of mud is relatively high. ) (18), the oily mud and the cutting water are separated, and the oily mud is transferred to the mud treatment system and the cutting material is discharged to the outside of the hull.

A branch line (L2) for transferring clean cutting is branched and installed in the inlet line (L1) of the cutting dryer (18), and transferred to a clean cuttings blower (CCB) (19) The cleaned cutting material is supplied to the ISO pump (P). The clean cutting material passes through the water separator 13 and is discharged to the discharge part 15a of the one-way screw conveyor 15, and the branch line L2 serves to transfer the clean cutting material to the clean cutting blower 19. do.

However, in the related art, a one-way screw conveyor 15 is installed to transport the mud-cutting material, and the mud-cutting material is discharged only from the discharge part 15a of the one-way screw conveyor 15, so the branch serving as the transfer line of the clean cutting blower The line L2 is bound to branch from the inlet side line L1 of the cutting dryer 18 . For this reason, discharging piping line routing is unnecessarily long, and the line arrangement becomes complicated, which causes difficulties in line arrangement design and increases construction cost.

Domestic Patent Registration No. 10-1392892

The present invention is to solve the above-mentioned problems, has a bi-directional screw conveyor structure, and forms discharging portions on both sides of the bi-directional screw conveyor, respectively, to classify the mud cuttings through each discharging portion A mud-cutting material handling system that enables easier and simpler arrangement of discharging piping lines and a more flexible arrangement of equipment by reducing the amount of discharge lines and isolation valves. And it aims to provide a processing method.

The present invention provides a mud cutting water treatment system and treatment method in order to achieve the above object.

The mud-cutting water treatment system of the present invention comprises: a water separator for separating and supplying rock fragments included in mud cutting; a two-way screw conveyor which is installed to be able to rotate forward and backward to transport the mud-cutting material separated from the water separator, and having discharging parts formed at both ends for discharging the mud-cutting material, respectively; a cutting conveyor disposed at the discharge part of one end of the bidirectional screw conveyor in order to process the oily mud cutting material (OBM) having a relatively small content of mud in a container; a cutting dryer disposed on the discharge side of one end of the bidirectional screw conveyor in order to discharge the oily mud cutting material (OBM) having a relatively large content of mud to the sea; and a clean cutting water blower disposed on the discharge side of the other end of the bidirectional screw conveyor in order to transport the clean cutting material separated by the water separator.

In the mud cutting material processing system of the present invention, in the planetary mud cutting material (OBM) processing mode, the planetary mud cutting material (OBM) is discharged through the discharge part of one end of the two-way screw conveyor with the forward rotation of the two-way screw conveyor. configured to be discharged, and in the clean cutting material processing mode, the clean cutting material is discharged through the discharge part of the other end of the bidirectional screw conveyor by reverse rotation of the bidirectional screw conveyor.

On the other hand, the mud-cutting material treatment method of the present invention is installed to be able to rotate forward and reverse in order to separate the oil-based mud-cutting material (OBM) and the clean cutting material, and both ends are formed with discharge parts for discharging the mud-cutting material, respectively. Provided with a screw conveyor, but in the planetary mud cutting material (OBM) processing mode, rotate the bidirectional screw conveyor in the forward direction to discharge the oily mud cutting material (OBM) through the discharge part of one end of the bidirectional screw conveyor, In the clean cutting material processing mode, the clean cutting material is discharged through the discharge part of the other end of the bidirectional screw conveyor by rotating the bidirectional screw conveyor in the reverse direction.

In the mud-cutting method of the present invention, the oil-based mud-cutting material (OBM) having a relatively small content of mud is transported to the cutting conveyor, then the oil-based mud-cutting material is placed in a container, and the container is transported on land for treatment, and the mud Oil-based mud cuttings (OBM) with a relatively high content of can be discharged to the sea through a cutting dryer.

In the mud-cutting water treatment method of the present invention, rock fragments such as gravel or coarse stones contained in the recovered mud-cutting material are filtered out of a gumbo box, and shale contained in the mud-cutting material that has passed through the gumbo box, Clay or rock pieces are divided and fed into up to eight shale shakers by a flow divider.

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

As described above, it has a bi-directional screw conveyor structure, forms discharging portions on both sides of the bi-directional screw conveyor, and classifies oily mud cuttings and clean cuttings through each discharging unit. By enabling the discharge, the arrangement of the discharging piping line of the mud cuttings becomes easy and simple, and the quantity of the discharge line and the quantity of the isolation valve are reduced, so that the arrangement of the equipment can be handled more flexibly.

1 is a side view showing a conventional drilling vessel performing drilling at sea level;
2 is a block diagram schematically showing a system for processing mud cuttings of a conventional drilling vessel;
3 is a block diagram illustrating a system and method for processing mud cuttings according to the present invention;

Hereinafter, with reference to the accompanying drawings will be described in detail with respect to the mud-cutting water treatment system and treatment method according to the present invention.

3 is a block diagram illustrating a system and method for processing mud cuttings according to the present invention.

Referring to Figure 3, the mud cutting water treatment system 100 of the present invention is a gumbo box (gumbo box) 110, a flow divider (flow divider) 120, a water separator 130, a two-way screw conveyor (bi) -directional screw conveyor) 150 , a cutting conveyor 160 , a cutting dryer 180 , and a clean cutting water blower 190 .

As described above, mud is a medium that transports a coolant that cools a drill bit, a lubricant that facilitates drilling, and a cutting material that is produced during drilling in a semi-submersible rig or drilling operation of a drilling vessel. After drilling, the mud cuts contained in the recovered mud are separated and reprocessed, and the mud recovery process is performed for reuse.

The gumbo box 110 filters out pieces of rock such as gravel or coarse stones contained in the recovered mud cuttings, and shale, clay, or rock fragments contained in the mud cuttings that have passed through the gumbo box 110 . Silver is divided and supplied by a flow divider (120) up to 8 shale shakers (130).

The flow divider 120 serves to distribute the mud cuttings to each of the water separators 130 , and the water separator 130 serves to separate and supply the rock pieces included in the mud cuts.

The mud cuttings that have passed through the flow divider 120 pass through the water separator 130 to the mud, oil based mud and cutting (OBM), and water based mud and cutting (WBM). is separated into

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

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

A bi-directional screw conveyor 150 that can rotate in the forward and reverse directions is connected to the water separator 130 and is discharged located at one end of the bi-directional screw conveyor 150 by driving the bi-directional screw conveyor 150 . It is configured to discharge the mud cuttings through the portion 151 .

After being separated from the water separator 130, the oily mud cutting material (OBM) discharged from the discharge unit 151 of the bidirectional screw conveyor 150 is supplied to the cutting conveyor 160 when the content of mud is relatively small. After being stored in a container (cutting box) 170, it is processed on land.

And after being separated from the water separator 130, the oil-based mud cutting material (OBM) discharged from the discharge unit 151 of the bidirectional screw conveyor 150 is a cutting dryer when the content of mud is relatively high. Through 180, the oily mud and the cutting water are separated, and the oily mud is transferred to the mud treatment system and the cutting material is discharged to the outside of the hull.

In addition, a clean cutting water blower 190 is disposed on the discharge part 152 side of the other end of the bidirectional screw conveyor 150 in order to transport the clean cutting material separated by the water separator 130 .

The present invention is technical in that it is provided with a two-way screw conveyor 150, and the mud-cutting material can be classified and discharged through the discharge parts 151 and 152 formed on both sides of the two-way screw conveyor 150. There is a characteristic.

In more detail, the two-way screw conveyor 150 of the present invention is configured with a polarity switch, and the direction can be switched to be driven in a forward or reverse direction. Although not shown in the drawing, by additionally installing a component called a reversible starter on the panel of the NOV, it can be driven in the forward and reverse direction.

The bidirectional screw conveyor 150 is provided with a discharge unit 151 at one end and a discharge unit 152 at the other end. Here, the forward and reverse directions are directions arbitrarily determined for convenience of explanation, and the forward direction is the direction in which the two-way screw conveyor 150 rotates so that the mud cutting material is discharged through the discharge unit 151, and the reverse direction is the discharge unit 152 ) is defined as the direction in which the two-way screw conveyor 150 rotates so that the mud cutting material is discharged.

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

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

On the other hand, the mud-cutting material treatment method of the present invention is installed rotatably forward and reverse in order to separate the oil-based mud-cutting material (OBM) and the clean cutting material, and a discharge unit 151 for discharging the mud-cutting material at both ends, respectively. Provided with a bidirectional screw conveyor 150 formed with 152, but in the oily mud cutting material (OBM) processing mode, by rotating the bidirectional screw conveyor 150 in the forward direction, one end of the bidirectional screw conveyor 150 The oily mud cutting material (OBM) is discharged through the discharge unit 151, and in the clean cutting material processing mode, the bidirectional screw conveyor 150 is rotated in the reverse direction to discharge the other end of the bidirectional screw conveyor 150. A clean cut is discharged through (152).

In the mud-cutting method of the present invention, the oil-based mud-cutting material (OBM) having a relatively small content of mud is transported to the cutting conveyor 160, then the oil-based mud-cutting material is placed in a container and the container is transported to land for processing. And, the oil-based mud cutting material (OBM) having a relatively large content of mud may be discharged to the sea through the cutting dryer 180 .

In the mud-cutting method of the present invention, rock fragments such as gravel or coarse stone contained in the recovered mud-cutting material are filtered out from the gumbo box 110, and the mud-cutting material that has passed through the gumbo box 110 contains Shale, clay or rock fragments are divided and supplied by the flow divider 120 into up to eight water separators 130 .

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

As described above, it has a bi-directional screw conveyor structure, and has discharging units on both sides of the bi-directional screw conveyor, so that the oil-based mud cutting material discharging line and the clean cutting blower line are connected to each discharging unit. By configuring it so that it can be arranged, the arrangement of the discharging piping line of the mud cuttings becomes easy and simple, and the quantity of the discharge line and the quantity of the isolation valve is reduced, so that the arrangement of the equipment can be handled more flexibly.

100: mud cutting water treatment system
110: gumbo box
120: flow divider
130: water separator
140: cutting suit
150: two-way screw conveyor
151, 152: discharge part
160: cutting conveyor
170: container
180: cutting dryer
190: clean cutting water blower
L3: Line on the inlet side of the cutting dryer
L4: Cutting Conveyor Line
L5: line of clean cutting blower

Claims (6)

a water separator for separating and supplying pieces of rock included in mud cutting;
a two-way screw conveyor which is installed to be able to rotate forward and backward to transport the mud-cutting material separated from the water separator, and having discharging parts formed at both ends for discharging the mud-cutting material, respectively;
a cutting conveyor disposed at the discharge part of one end of the bidirectional screw conveyor in order to process the oily mud cutting material (OBM) having a relatively small content of mud in a container;
a cutting dryer disposed on the discharge side of one end of the bidirectional screw conveyor in order to discharge the oily mud cutting material (OBM) having a relatively large content of mud to the sea; and
and a clean cutting water blower disposed on the discharge side of the other end of the bidirectional screw conveyor in order to transport the clean cutting material separated by the water separator. The method according to claim 1,
In the planetary mud-cutting material (OBM) processing mode, the oil-based mud-cutting material (OBM) is discharged through the discharge part of one end of the two-way screw conveyor by forward rotation of the two-way screw conveyor,
In the clean cutting material processing mode, the clean cutting material is discharged through the discharge part of the other end of the bi-directional screw conveyor due to the reverse rotation of the bi-directional screw conveyor. As a mud cutting material processing method for separating oil-based mud cutting material (OBM) and clean cutting material,
Provided with a two-way screw conveyor installed so as to be able to rotate forward and backward and having discharge portions formed at both ends for discharging the mud cuttings, respectively,
In the oil-based mud-cutting material (OBM) processing mode, the oil-based mud-cutting material (OBM) is discharged through the discharge part of one end of the two-way screw conveyor by rotating the two-way screw conveyor in the forward direction,
In the clean cutting water treatment mode, the two-way screw conveyor is rotated in a reverse direction to discharge the clean cut material through the discharge part of the other end of the two-way screw conveyor. 4. The method of claim 3,
Oil-based mud cuttings (OBM) with a relatively low content of mud are transported to a cutting conveyor, then placed in a container for oil-based mud cuttings, and the container is transported on land for processing.
A method for treating mud cuttings, characterized in that the oil-based mud cuttings (OBM) with a relatively large content of mud are discharged to the sea through a cutting dryer. 4. The method of claim 3,
Rock fragments such as gravel or coarse stones contained in the recovered mud cuttings are filtered out of the gumbo box, and the shale, clay or rock fragments contained in the mud cuttings that have passed through the gumbo box are separated by a flow divider by a flow divider for up to 8 separations. Mud cutting material processing method, characterized in that divided into supply. 4. The method of claim 3,
The water-based mud-cutting material (WBM) separated in the water separator is discharged to the sea through a cutting chute.

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