KR101593976B1 - Evaluation apparatus and method for agitator of drillship - Google Patents

Abstract

The apparatus for evaluating the performance of a stirrer for a drilling rig according to the present invention comprises a conveying unit for circulating a mud supplied to a mud tank of a drill ship for a predetermined time and a conveying unit for continuously mixing the mud received in the mud tank Continuously measures the physical properties of the stirring unit and the mud accommodated in the mud tank and calculates the time required from the initial measurement point to the point at which the physical error of the mud is generated when the physical properties of the mud fall within a predetermined error range And a measurement unit.
A method for evaluating the performance of a stirrer for a drill rig according to the present invention includes the steps of circulating a mud supplied to a mud tank of a drill ship for a preset time, Continuously measuring the physical properties of the mud contained in the mud tank at the same time as the stirring, and, when the physical properties of the mud are within a predetermined error range, And calculating the time required to complete the process.

Description

TECHNICAL FIELD [0001] The present invention relates to an apparatus for evaluating the performance of a stirrer,

The present invention relates to an apparatus and method for evaluating the performance of a stirrer, and more particularly, to a method and apparatus for evaluating the performance of a stirrer by simulating the time required for measuring the initial property of the stirrer, And more particularly, to an apparatus and method for evaluating the performance of a stirrer for a drill rig.

In general, a drill ship (also referred to as a drill ship) refers to a vessel for drilling a hole in the bottom of an aquarium (ocean, etc.) to explore oil.

The drill rig is drilled using a drill bit installed on the drill pipe during drilling. The inside of the drill pipe is supplied with a mud for preventing overheating of the drill bit and for lubricating. .

The drilling mud has a lubrication function, a function of removing debris generated when drilling, and a function of stabilizing a hole as mentioned above.

The drilling mud is composed of Bento-nite dissolved in water or fuel, and colloidal clay.

These drilling muds must meet the requirements for drilling the stratum by keeping the viscosity and density at an appropriate level by mixing bentonite and baritie.

For this purpose, a mud tank is used for storing the mud in the drill ship, and a mud agitator for mixing the mud stored in the mud tank to have a certain physical property (density, viscosity) is used.

However, the conventional mud stirrer may be deteriorated in performance during a certain period of use, making it difficult to maintain the physical properties of the mud at an appropriate level during long-term use.

Accordingly, there is a need for a technique capable of optimally maintaining the physical properties of the mud supplied to the drill pipe by improving the performance of the stirrer after evaluating the performance of the mud stirrer applied to the drill rig in advance.

Prior art related to the present invention is Korean Patent Laid-Open No. 10-2013-0049890 (May 15, 2013), which discloses a mud tank of a drill ship.

SUMMARY OF THE INVENTION An object of the present invention is to provide a method and apparatus for measuring the initial physical property and a time required until an error occurs when detecting a change in the physical properties of the mud within an error range in a stirring process, And to improve the performance of a stirrer to be practically applied to the apparatus, and to provide a method and apparatus for evaluating the performance of a stirrer for a drill rig.

The apparatus for evaluating the performance of a stirrer for a drill rig according to an embodiment of the present invention includes an agitating unit for continuously mixing the mud received in a mud tank of a drill ship, and a controller for continuously measuring physical properties of the mud received in the mud tank, And a measuring unit for calculating a time required for the initial measurement point and the time point at which the physical property error of the mud is generated when the physical property falls within a predetermined error range.

Preferably, the stirring unit further includes a transfer unit for circulating the mud supplied to the mud tank of the drill ship for a predetermined time, and the stirring unit starts driving when the transfer unit is stopped.

It is preferable that the measurement unit calculates a time required until the initial driving time of the stirring unit and the time at which the physical property error of the mud occurs.

In addition, the measurement unit may set a reference time and display the difference between the required time and the reference time externally.

It is also preferable that the measurement unit measures whether the density and viscosity of the mud fall within the error range.

In addition, the measurement units may be arranged in a plurality of vertically through the top of the mud tank, and the sensing ends extending downward may be located at the same or different heights inside the mud tank.

In addition, the measurement units may be arranged at equal intervals around the stirring unit at corresponding positions.

In addition, the measurement unit may further include a display unit for externally showing the physical properties of the mud and the required time.

Further, a control unit for controlling the drive is electrically connected to the transfer unit, the agitation unit and the measurement unit, and the control unit can stop the stirring unit at the time of occurrence of a physical property error of the mud .

The transfer unit may include a circulation pipe connected to both the inlet and the outlet of the mud tank to circulate the mud, and a circulation pipe installed on the circulation pipe and circulating the mud along the circulation pipe through a pumping operation A mixing pump, and an on-off valve installed on the circulation pipe and closing the circulation pipe when the mixing pump stops driving.

In addition, a mud supply unit may be further provided on the circulation pipe for additionally supplying a mud.

In addition, the circulation pipe may be connected to the inlet and the outlet of the mud tank, respectively, with the circulation pipe connected to the mud using equipment of the drill ship.

The stirring unit may include an impeller installed vertically through an upper portion of the mud tank and mixing the mud contained in the mud tank by rotation, and an upper end coupled to the upper end of the impeller, And a drive motor for driving the motor.

Meanwhile, the apparatus for evaluating the performance of the stirrer for a drill rig according to another embodiment of the present invention may be configured such that the mud supplied to the mud tank of the drill ship is circulated for a predetermined period of time, and the mud tank accommodated in the mud tank is continuously mixed, When the physical property of the mud falls within a predetermined error range, calculates the time required from the initial measurement point to the point at which the physical property error of the mud is generated.

According to another aspect of the present invention, there is provided a method for evaluating the performance of a stirrer for a drilling rig, comprising the steps of continuously stirring the mud received in a mud tank of a drill ship, And calculating a time required until an initial measurement time point and a physical property error occurrence point of the mud when a physical property of the mud falls within a predetermined error range.

Here, before the step of continuously stirring the mud, it may further include circulating the mud supplied to the mud tank for a preset time.

In addition, it is preferable that the step of continuously stirring the mud starts driving when the circulation of the mud is stopped in the circulating step.

Also, in the circulating step, the circulation of the mud may be stopped upon reaching the predetermined time.

The present invention is capable of easily grasping the performance of the stirrer to be inspected by calculating the time of the first physical property measurement and the time when the mud is changed within the error range in the stirring process .

In addition, since the performance of the stirrer conventionally applied to the field can be easily compared and analyzed with respect to the performance of the newly developed stirrer, the performance of the stirrer to be actually put in the field can be improved.

In addition, since the performance can be evaluated even when the agitator is put into the actual work site as needed, it is possible to eliminate the process of manufacturing and installing the virtual equipment, thereby reducing the cost.

1 is a front view showing an apparatus for evaluating the performance of a stirrer for a drill rig according to the present invention.
Fig. 2 is a plan view according to Fig. 1; Fig.
3 is a front view for illustrating another exemplary arrangement of the measurement unit in the apparatus for evaluating the performance of the stirrer for a drill rig according to the present invention.
Fig. 4 is a plan view according to Fig. 3; Fig.
FIG. 5 is a use state diagram showing a state where a device for evaluating the performance of a stirrer for a drill rig according to the present invention is applied to a mud using equipment.
FIG. 6 is a block diagram schematically illustrating the relationship between the performance evaluation apparatuses of the stirrer for a drill rig according to the present invention.
FIG. 7 is a block diagram schematically showing each step of the method for evaluating the performance of a stirrer for a drill rig according to the present invention.

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

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention and the manner of achieving it will become apparent with reference to the embodiments described in detail below with reference to the accompanying drawings.

The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. To fully disclose the scope of the invention to those skilled in the art, and the invention is only defined by the scope of the claims.

In the following description, well-known functions or constructions are not described in detail to avoid obscuring the subject matter of the present invention.

1 is a front view showing an apparatus for evaluating the performance of a stirrer for a drill rig according to an embodiment of the present invention, and FIG. 2 is a plan view according to FIG.

1 and 2, an apparatus for evaluating the performance of a stirrer for a drill rig according to the present invention includes a mud tank 100, a conveying unit 200, a stirring unit 300, a measuring unit 400, .

First, the mud tank 100 has a receiving space 110 therein, and a certain amount of mud M is received in the receiving space 110.

Here, the mud tank 100 may be formed into a rectangular shape as shown in FIGS. 1 and 2. However, the shape and size of the mud tank 100 may be variously manufactured as needed.

Such a mud tank 100 is for storing the mud M and is used for driving the mud M by means of a drill pipe or the like 20 of a drill rig through the driving of a transfer unit 200 ).

Equipment adjacent to the mud tank 100 for supplying the mud M to the used equipment and for purifying the mud M may be additionally connected to the mud tank 100.

The Mud M is a fluid that acts as a lubricant during drilling, and may be a mixture of bentonite, barite and water.

The transfer unit 200 circulates the mud M contained in the mud tank 100 for a predetermined period of time using a predetermined pumping pressure.

The transfer unit 200 may include a circulation pipe 210, a mixing pump 220, and an on-off valve 230.

First, the circulation pipe 210 continuously circulates the mud M for a predetermined time with both ends connected to the inlet and the outlet of the mud tank 100 as shown in FIG.

Here, a mud supply unit (not shown) for additionally supplying the mud M may be further connected to the circulation pipe 210.

The mud supply unit may directly supply the mud M mixed with bentonite, barite, etc. with water to the circulation pipe 210.

Of course, the mud supply unit may directly supply the mud M to the mud tank 100 without passing through the circulation pipe 210.

Such a circulation pipe 210 may be connected to the inlet and the outlet of the mud tank 100 at both ends, respectively, in a state where the circulation pipe 210 is connected to the use equipment (drill pipe, etc.) 20 of the drill rig 10 .

That is, the mud M stored in the mud tank 100 can be circulated to the mud tank 100 through the use equipment 20 of the drill rig 10 by the pumping pressure of the mixing pump 220 .

The mixing pump 220 is installed on the circulation pipe 210 and the mixing pump 220 moves the mud M along the circulation pipe 210 when the pumping operation is ON.

Here, the mixing pump 220 moves along the circulation pipe 210 while mixing the mud M delivered from the mud tank 100.

An on-off valve 230 is provided on the circulation pipe 210 and controls the opening / closing state of the circulation pipe 210 through an ON / OFF operation.

Here, the on-off valve 230 may be turned off to close the circulation pipe 210 when the mixing pump 220 is stopped.

The open / close valve 230 may be installed at a part of the circulation pipe 210 connected to the outlet of the mud tank 100.

Such a transfer unit 200 can be stopped before the stirring unit 300, which will be described later, is driven after the transfer unit 200 is driven for the measurement preparation time of the measurement unit 400 to be described later.

The stirring unit 300 continuously mixes the mud M contained in the receiving space 110 of the mud tank 100 while the driving of the mixing pump 220 is stopped.

For this purpose, the stirring unit 300 may include an impeller 310 and a driving motor 320.

First, the impeller 310 is for rotating the mud M by rotation, and may be installed vertically in the receiving space 110 through the upper part of the mud tank 100.

That is, the impeller 310 mixes the mud M contained in the receiving space 110 of the mud tank 100 with a uniform distribution through rotation.

The driving motor 320 may be connected to the upper end of the impeller 310 in a vertically installed state on the upper part of the mud tank 100.

In this state, the driving motor 320 transmits rotational force so that the impeller 310 can be rotated horizontally.

As described above, the mud M contained in the receiving space 110 of the mud tank 100 can be distributed at an appropriate level of density and viscosity by the stirring operation of the impeller 310.

Further, a power supply unit (not shown) for supplying driving power to the driving motor 320 and the above-described mixing pump 220 may be further electrically connected.

The measurement unit 400 is for continuously measuring the physical properties (density, viscosity, etc.) of the mud M contained in the mud tank 100.

Here, the measurement unit 400 may be installed vertically in the accommodation space 110 through the upper part of the mud tank 100.

At this time, the sensing unit 410 located at the lower end of the measurement unit 400 can measure the physical property in a state where the sensing unit 410 is locked to the mud M.

The measurement unit 400 may use a densimeter, a viscometer, or the like to measure the physical properties of the mud M, that is, the density and the viscosity.

The measuring unit 400 may be installed vertically through the upper part of the mud tank 100 as shown in FIG.

In addition, the measurement units 400 may be installed vertically to the bottom surface of the accommodation space 110 while being locked to the mud M.

At this time, the sensing units 410 may be positioned in the upper and lower layers of the mud M accommodated in the accommodation space 110 at a certain level.

4, the measuring unit 400 may be disposed at equal intervals at positions corresponding to the impeller 310 and the driving motor 320 of the stirring unit 300, as shown in FIG.

In addition, the measurement unit 400 can be positioned at different heights in the receiving space 110 of the mud tank 100, as shown in FIG.

That is, since the sensing ends 410 of the measurement units 400 simultaneously measure the physical properties of the upper and lower layers of the mud M, it is possible to measure the physical properties as well as the local physical properties.

Of course, the number and location of the measuring unit 400 can be variously changed according to the capacity, shape, size, etc. of the mud tank 100.

When the physical properties of the measured mud (M) fall within a predetermined error range, the measurement unit (400) measures the time required until the time of occurrence of the physical error of the mud (M) .

Here, the error range may include a range in which the proper physical properties (density, viscosity, etc.) of the mud M are out of range, that is, the density or viscosity of the mud M is excessively lowered or increased.

For example, the measuring unit 400 can calculate the time required until the initial driving time of the agitation unit 300 and the physical property error of the mud M occur.

In addition, the reference time can be set in the measurement unit 400, and the difference between the time required until the physical property error of the mud M is generated and the reference time can be externally displayed.

To this end, the measurement unit 400 may further include a display unit 420 for externally showing the physical properties of the mud M, the required time, and the difference between the required time and the reference time.

That is, the operator can easily confirm the information such as the physical property error value and the time required through the display unit 420 from the outside.

The control unit 500 for controlling the operation as shown in FIG. 6 may be further electrically connected to the transfer unit 200, the agitation unit 300, and the measurement unit 400 described above.

Hereinafter, a method for evaluating the performance of a stirrer for a drill rig according to another embodiment of the present invention will be described as follows, and the same configuration as the above-described structures will not be repeatedly described.

7, a method for evaluating the performance of a stirrer for a drill rig according to another embodiment of the present invention includes a step S100 of circulating the mud M, a step S200 of stirring the mud M, And calculating the required time (S300).

First, the step of circulating the mud M (S100) drives the mixing pump 220 to circulate the mud M supplied to the mud tank 100 of the drill rig 10 for a preset time.

At this time, the mud M accommodated in the accommodation space 110 is moved back along the circulation pipe 210 through the outlet of the mud tank 100 and is re-introduced into the accommodation space 110 through the inlet of the mud tank 100 do.

In this step S100, the muds M continuously moving along the circulation pipe 210 can be reintroduced into the accommodation space 110 while being mixed by the mixing pump 220.

Next, in step S200 of stirring the mud M, the driving motor 320 of the stirring unit 300 is operated to stop the impeller 310 in the mud tank 100 when the mixing pump 220 is stopped .

In this step S200, the impeller 310 is rotated at a predetermined speed by the rotational force of the driving motor 320 to continuously mix the mud M contained in the receiving space 110 of the mud tank 100.

That is, the particles of the mud M accommodated in the accommodation space 110 by the rotation of the impeller 310 can be distributed with a certain physical property (density, viscosity).

Next, the step S300 of measuring the physical properties of the mud M is performed by using the measuring unit 400 at the time when the driving motor 320 is driven, and the mud M stored in the receiving space 110 of the mud tank 100 ) Is continuously measured.

At this time, the sensing unit 410 of the measuring unit 400 continuously measures physical properties while being locked at each position of the mud M.

Finally, the calculation of the required time (S400) measures the physical properties of the mud (M) transmitted from the sensing stage (410) of the measuring means (400) in real time.

Here, the calculation of the required time (S400) may calculate the time required to measure the initial physical property and the physical property error of the mud (M) when the measured time falls within a predetermined error range.

The step S400 of calculating the required time may stop the stirring of the mud M at the time when the measuring unit 400 generates an error measuring the physical property error of the mud M. [

As a result, the present invention calculates the time required for the first physical property measurement time and the performance deterioration time of the agitation unit 300 after the performance deterioration point where the physical property of the mud M changes within the error range in the stirring process is detected .

As a result, it is possible to easily grasp the stirring performance of the equipment, and it is possible to easily compare the performance of the stirrer conventionally applied to the field and the performance of the newly developed stirrer, thereby improving the performance of the stirrer have.

In addition, since the performance can be evaluated even when the agitator is put into the actual work site as needed, it is possible to eliminate the process of manufacturing and installing the virtual equipment, thereby reducing the cost.

It is to be understood that various embodiments may be made without departing from the scope of the present invention, as long as the apparatus and method for evaluating the performance of a stirrer for a drill rig according to the present invention have been described.

Therefore, the scope of the present invention should not be limited to the above-described embodiments, but should be determined by the scope of the appended claims and equivalents thereof.

It is to be understood that the foregoing embodiments are illustrative and not restrictive in all respects and that the scope of the present invention is indicated by the appended claims rather than the foregoing description, It is intended that all changes and modifications derived from the equivalent concept be included within the scope of the present invention.

10: Drill pipe 20: Drill pipe
100: mud tank 110: accommodation space
200: transfer unit 210: circulation pipe
220: mixing pump 230: opening / closing valve
300: stirring unit 310: impeller
320: Driving motor 400: Measuring unit
410: Detection unit 420: Display unit
500: Control unit M: Mud

Claims (18)

A stirring unit for continuously mixing the mud contained in the mud tank of the drill ship, and a controller for continuously measuring the physical properties of the mud contained in the mud tank, and when the physical properties of the mud are within a predetermined error range, And a measuring unit for calculating a time required until the physical error of the mud is generated,
Wherein the stirring unit further includes a transfer unit for circulating the mud supplied to the mud tank of the drill ship for a preset time period, and the stirring unit starts driving when the transfer unit is stopped to be driven. Performance evaluation device. delete The method according to claim 1,
Wherein the measurement unit comprises:
And calculates the time required for the initial driving time of the stirring unit and the time point at which the physical property error of the mud is generated. The method according to claim 1,
Wherein the measurement unit comprises:
Wherein the reference time is previously set, and the difference between the required time and the reference time is displayed as an external. The method according to claim 1,
Wherein the measurement unit comprises:
And measures whether the density and viscosity of the mud come within the error range. The method according to claim 1,
Wherein the measurement unit comprises:
Wherein a plurality of sensing stages arranged vertically through an upper portion of the mud tank and extending downward are positioned at the same or different heights in the interior of the mud tank. The method according to claim 1,
Wherein the measurement unit comprises:
Wherein the agitating unit is disposed at equal intervals at positions corresponding to the agitating unit. The method according to claim 1,
In the measurement unit,
Further comprising a display unit for externally showing physical properties of the mud and the time required for the performance of the mud. The method according to claim 1,
Wherein the transfer unit, the stirring unit,
A control unit for controlling the driving is further electrically connected,
Wherein the control unit comprises:
And stops the driving of the stirring unit at the time of occurrence of a physical property error of the mud. The method according to claim 1,
The transfer unit
A circulation pipe connected to both the inlet and the outlet of the mud tank to circulate the mud,
A mixing pump installed on the circulation pipe for circulating the mud along the circulation pipe through a pumping operation,
And an on-off valve installed on the circulation pipe for closing the circulation pipe when the mixing pump stops driving. The method of claim 10,
On the circulation pipe,
Further comprising a mud supply unit for additionally supplying the mud. The method of claim 10,
The circulation piping includes:
Wherein both ends of the mud tank are connected to an inlet and an outlet of the mud tank, respectively, while being connected to the mud using equipment of the drill ship. The method according to claim 1,
The stirring unit includes:
An impeller installed vertically through an upper portion of the mud tank for mixing the mud contained in the mud tank by rotation,
And a driving motor coupled to an upper end of the impeller and transmitting a rotational force to an upper end of the impeller. delete Continuously measuring the physical properties of the mud received in the mud tank at the same time as stirring the mud contained in the mud tank of the drill ship; and, when the physical properties of the mud are within a predetermined error range, Calculating a time required until an initial measurement time point and a physical property error occurrence point of the mud are generated,
Further comprising the step of circulating the mud supplied to the mud tank for a predetermined period of time prior to the step of continuously stirring the mud,
Wherein the step of continuously stirring the mud starts driving when the circulation of the mud is stopped in the circulating step. delete delete 16. The method of claim 15,
In the circulating step,
And stopping the circulation of the mud upon reaching the preset time.

Images