KR20160029910A - Cleaning system for mud pit - Google Patents

Abstract

A cleaning system for a mud pit according to an embodiment of the present invention comprises: a circulation line which supplies fluid to clean, adsorb, and discharge mud inside a mud pit; and a holding tank which stores the fluid circulating in the mud pit and the circulation line and discharged. The cleaning system for a mud pit according to the present invention allows the fluid to repetitively circulate in the mud pit and the circulation line in order to sweep and adsorb the mud inside the mud pit, thereby cleaning the mud pit using a minimum amount of fluid as a large amount of the fluid for fully filling the mud pit is not required. Therefore, the present invention reduces the amount of contaminated water generated through a cleaning work.

Description

Cleaning system for mud pit

The present invention relates to a mudfit cleaning system.

Due to the recent rapid industrialization, the use of resources such as oil has skyrocketed, and the stable production and supply of oil is becoming a very important issue. However, the oil field in the continental or coastal waters has already been drilled. In recent years, interest has been focused on the development of a deep-sea deep-sea oil field. Drilling is generally used to drill deep-sea oilfields.

Drill ship is an offshore structure that is equipped with advanced drilling equipment and is built in a shape similar to that of a ship so that it can be sailed by its own power. It is capable of collecting raw oil or gas in deep sea area where an offshore platform can not be installed, It is advantageous that the drilling can be terminated and the drilling can be carried out by moving to another point.

Such drillings include Derrick, which has a Moonpool structure in a vertically penetrating form and is located above the drum and has drilling rigs. Hereinafter, the process of drilling the bottom of the drill ship will be described.

First, the drill ship uses its own power to move to the drilling area and drives a Dynamic Positioning System (DPS) using a plurality of thrusters to maintain the position.

Thereafter, the drill bit is connected to a drill pipe by a drill bit, and a plurality of drill pipes are connected by a sufficient length by using a Hoisting System and a Handling System provided in Derrick, And the drilling pipe is rotated through a rotating system to form a borehole.

Once drilling is completed, Derek picks up the drill pipe, installs the casing pipe on the borehole, and performs the cementing process to fill the concrete between the casing pipe and the borehole. The drilling operation used and the casing and cementing work for installing the casing pipe are repeatedly performed to maintain the shape of the borehole having a certain depth.

When the casing pipe is installed enough to prevent the borehole from falling down, BOP (Blow Out Preventer) is connected to the riser to be connected to the borehole. In this case, the inside of the riser becomes the path of movement of the drill pipe and casing pipe.

However, lubrication and cooling of the drill bit in the drilling process, and processing of the crushed material such as rock mass produced in the borehole are required. Therefore, the drill feeds the mud to the inside of the drill pipe so that the mud is discharged at the end of the drill bit, and after the mud performs lubrication and cooling of the drill bit, (Mud Circulation System) is used. The recovered mud is re-used after the pulverized material is filtered.

The drillship repeatedly performs drilling, casing and cementing operations until the drill bit reaches the well, while driving this mud circulation system. In this case, as the diameter of the casing pipe used in the casing work becomes smaller, Drilling can be implemented continuously by replacing small drill bits.

As such, the drill rig has a system for installing and using pipes and risers, a system using a mud, and the like. In order to smoothly perform drilling work using such a system, a drill hole structure, a derrick structure, and a load structure Is required to be disposed within a certain space, so that research and development are being continuously carried out as a result of a high technological power being required.

However, in the mud circulation system, the mud inside the mud pit storing the mud is supplied to the pipe during the drilling operation to prevent the drill bit from overheating. The mud inside the mud pit is supplied to the pipe during the drilling operation, Due to its viscosity, the mud sticks to the inner wall of the mud pit and remains. When the time elapses, the mud inside the mud pit becomes hardened and the condition of the mud pit deteriorates. Therefore, it is necessary to clean the mud pit due to the deterioration of the quality of the mud during the additional mud mixing process. There is a need for improvement.

It is an object of the present invention to provide a mudfit cleaning system capable of improving the quality of a mud while minimizing the amount of seawater used for cleaning the mud pit.

A mudpit cleaning system according to an embodiment of the present invention includes a circulation line for supplying fluid to clean / suck and discharge a mud inside the mud pit, and supplying and discharging the fluid to the mud pit to circulate the fluid; And a holding tank for storing the fluid discharged through the circulation of the mud pit and the circulation line.

Specifically, the circulation line is connected to a suction line for sucking fluid from the mud pits and a supply line for supplying fluid to the mud pits, respectively.

The apparatus may further include a temporary storage tank provided between the circulation line and the holding tank for temporarily storing the fluid discharged from the circulation line.

Specifically, the present invention is characterized by further comprising an emulsifier supply unit for supplying an emulsifier to the circulation line.

A mudfit cleaning system according to the present invention is a system for cleaning a mudfit and a circulation line by repeatedly passing the fluid through the mudfit and the circulation line, The amount of contaminated water generated through cleaning can be reduced.

In addition, since the present invention circulates using a small amount of fluid, unlike the case where the fluid is not circulated, regardless of the degree of contamination or the amount of the fluid in the mud pit, the amount of the sum of the holding tank and the temporary storage tank is The space can be made small in comparison with the capacity of the pit, and space can be efficiently utilized in the hull having a limited space.

1 is a view showing a drill provided with a mud-foot cleaning system according to an embodiment of the present invention.
2 is a diagram illustrating a mud-foot cleaning system according to an embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The objects, particular advantages and novel features of the present invention will become more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG. It should be noted that, in the present specification, the reference numerals are added to the constituent elements of the drawings, and the same constituent elements have the same numerical numbers as much as possible even if they are displayed on different drawings. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a view showing a drill bit provided with a mud-foot cleaning system according to an embodiment of the present invention, and FIG. 2 is a diagram illustrating a mud-foot cleaning system according to an embodiment of the present invention.

1 and 2, a mud-fit cleaning system 100 according to an embodiment of the present invention includes a circulation line 120, an emulsifier supply unit 130, a temporary storage tank 140, and a holding tank 150 ).

The mud pit cleaning system 100 of the present embodiment can be provided in a drill ship or an offshore structure provided with a moon pool 12. In the present embodiment, (10) will be described as an example, but the present invention is not limited thereto.

The hull 11 of the drill string 10 is provided with a door 12 between a forward bow and a stern and the door 12 is formed as an opening formed through the hull 11 vertically. Here, the drum 12 is provided with a drill rig for performing a drilling operation. The drill equipment may be provided in a derrick 13 located above the platform 12.

The hull 11 of the ship is provided with a separate propeller (not shown) such as a thruster (not shown) to adjust the position of the hull 11 and is fixed to the sea to perform a drilling operation. At this time, a pipe (not shown) is connected to a sufficient length by a handling system (not shown) through the door cloth 12 provided perpendicularly to the hull 11, And the gripper yoke (not shown) carries the pipe to the handling system.

That is, each of pipes such as a drill pipe and a casing pipe is loaded on a pipe rack (not shown) of the pipe, and moved from the rack, erected and assembled to the seabed, A BOP gantry crane (not shown) carries the pipe loaded in the enemy cage on a conveyor (not shown) on top of a catwalk (not shown). Here, the crane 14 is provided on the hull 11 separately from the BOP gantry crane (not shown), and the equipment on the hull 11 can be carried, shipped, and unloaded.

The hull 11 pulls up a mud mass such as mud, crushed rock, and the like obtained through the pipe excavation operation through a pipe and a riser (not shown). Here, the mud is continuously supplied by a mud pump (not shown) during the drilling operation in order to prevent the drill bit (not shown) from being overheated and to prevent the abnormal high pressure from rising on the pipe, These muds are fed into the pipe and back through the riser through the holes in the drill bit.

In the recovery process of the mud, the liquid mud properly mixed to enable the drilling operation is generated as a high-pressure mud by the mud pump and is introduced into the pipe, and the mud introduced into the pipe is supplied to the various cuts cuttings, such as rock fragments, gravel, sand, silt, gas, and various impurities.

In order to process the pulled up mud, the mud can flow into a mud treatment tank (not shown) through a mud gutter (not shown). The mud gutter is a passage through which the mud is moved, and is provided in the hull 11 in the form of a pipe, and the mud flowing from the seabed is moved. The mud can be pulled up through the mud gutters, and the puddle can be purified through sedimentation in the mud treatment tank.

Here, in order to process the pulled up mud, the mud treatment tank processes the incoming mud in communication with the mud gutters. At this time, the mud treatment tank may be provided on the deck of the hull 11 adjacent to the door frame 12, and the mud including various cuts may be conveyed through a shale shaker, a sand trap, By removing the cuts, they are reproduced. The regenerated mud enters the mud pit or mud treatment tank through the mud return line and is stored, then pressurized by the mud pump and fed back into the pipe.

Here, the mud treatment tank includes a mud pit 110, which may include an oil base pit and a water base pit that differently store the liquid into which the mud is mixed. The oil base pit stores the oil base mud supplied in a tank line (not shown) supplying the mud to the pipe 14. Here, the oil base mud is a mixture of oil and mud, which is a type of mud supplied to the mud line, and supplied separately from the water base mud, for example, when a water base mud is supplied, When the oil base mud is supplied, the supply of the water base mud is stopped and can be individually supplied and used.

The water base pit can be stored separately from the oil base feet by storing the water base mud supplied as a tank in the same mud line as the oil base pit. Here, a water base mud is a mixture of a water component (such as sea water) and a mud, and is a type of mud supplied to the mud line. On the other hand, it is necessary to clean the mud pit 14 to sweep away the remaining mud within the mud pit 110 where the mud is stored to improve the environment inside the mud pit 110.

For this, the circulation line 120 sucks and discharges the mud inside the mud pit 110 by circulating fluid such as seawater after the mud inside the mud pit 110 exits during the drilling operation. The circulation line 120 supplies fluid to the mud pit 110 and supplies and discharges the fluid to the mud pit 110 to circulate the fluid, thereby efficiently cleaning with a small amount of fluid.

The circulation line 120 is connected to a suction line 111 for drawing fluid from the mud pit 110 and a supply line 112 for supplying fluid to the mud pit 110, Is supplied back to the mud pit 110 via the circulation line 120 so that the fluid circulates through the mud pit 110 and the circulation line 120 to clean / adsorb and clean the mud inside the mud pit 110 .

Here, the circulation line 120 may include a circulation pump (not shown) to drain and re-supply the fluid from the mud pit 110, and when the fluid circulates, The line communicating from the circulation line 120 to the temporary storage tank 140 may be closed so as to flow in and out of the inside of the mud pit 110 repeatedly. Here, a valve (not shown) is provided on a line discharged to the temporary storage tank 140 so that discharge of the fluid can be controlled by regulating the opening degree of the valve. On the other hand, when the cleaning operation of the mud pit 110 is completed or when the mud inside the mud pit 110 is supplied to the drill bit, the opening degree of the valves 1111, 1121 on the suction line 111 and the supply line 112 The moving path may be closed.

The emulsifier supply unit 130 may supply the emulsifier to the circulation line 120. The emulsifier mixes with the mud to lower the viscosity of the mud, preventing the mud inside the mud pit 110 from hardening, but it can be difficult to reuse the mud.

The emulsifier supplied from the emulsifier supply unit 130 is supplied to the diesel circulation line 120 in which the mud inside the mud pit 110 is excessively hardened and the mud pit 110 ) Clean the inside with a fluid to prevent the mud from sticking.

The temporary storage tank 140 may be provided between the circulation line 120 and the holding tank 150 to temporarily store the fluid discharged from the circulation line 120. The temporary storage tank 140 may be a general tank, a pressure tank, or the like. A line (not shown) and a valve 141 for discharging fluid may be provided between the temporary storage tank 140 and the holding tank 150, and the discharge amount of the fluid may be controlled by regulating the opening degree of the valve .

The holding tank 150 may store the fluid that is circulated through the mud pit 110 and the circulation line 120 to be discharged. The holding tank 150 circulates through the mud pit 110 and the circulation line 120 and sucks the mud inside the mud pit 110 and then discharges the fluid discharged through the circulation line 120 to the drill 10, To prevent contamination of seawater. The fluid discharged after being cleaned after cleaning the mud pit 110 may be discharged to the sea via a separate discharge device or may be discharged after the drill 10 is moored on the land. A valve (not shown) may be provided on a path line (not shown) of the fluid discharged from the holding tank 150 to adjust the discharge amount.

As such, fluids flow through the circulation line 120 repeatedly through the mud pit 110 and the circulation line 120 to sweep and adsorb the mud within the mud pit 110, There is no need to fill up. That is, the amount of the polluted water generated through the cleaning can be reduced by cleaning the mud pit 110 with a small amount of fluid through circulation of the fluid. In addition, since a small amount of fluid is used by circulating the fluid, it is necessary to fill the inside of the mud pit 110 when the fluid does not circulate due to a small number of dirt discharged from the mud pit 110, The capacity of the sum of the holding tank 150 and the temporary storage tank 140 can be made small as compared with the capacity of the mud pit 110 because the small amount of fluid is used.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the same is by way of illustration and example only and is not to be construed as limiting the present invention. It is obvious that the modification and the modification are possible.

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: Drill ship 11: Hull
12: Temple of Prayer 13: Derrick
14: Crane 100: Mud Pit Cleaning System
110: Mudfit 120: Circulation line
130: Emulsifier supply unit 140: Temporary storage tank
150: Holding tank 111: Suction line
112: supply line 141, 1111, 1121: valve

Claims (4)

A circulation line for supplying a fluid for washing / sucking and discharging the mud inside the mud pit, and supplying and discharging the fluid to the mud pit to circulate the fluid; And
And a holding tank for storing the fluid discharged through the circulation of the mud pit and the circulation line. The apparatus according to claim 1,
A suction line for sucking fluid from the mud pits and a supply line for supplying fluid to the mud pits, respectively. The method according to claim 1,
And a temporary storage tank provided between the circulation line and the holding tank for temporarily storing the fluid discharged from the circulation line. The method according to claim 1,
And an emulsifier supply unit for supplying an emulsifier to the circulation line.

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