KR20150021302A - General-purpose drilling system consisting of modular derrick - Google Patents

Abstract

The present invention relates to a universal drilling system having a modularized derrick and, more specifically, to a universal drilling system having a modularized derrick to improve the availability of the system by separating functions to secure a free space on the upper deck of a ship by changing the position of a derrick which is conventionally positioned on the center of the hull; and to increase the drilling speed using a plurality of derricks. According to the present invention, the universal drilling system having a modularized derrick comprises: a main platform positioned on the sea which has a plurality of module attaching parts around the edge; and a derrick module joined to each module attaching part to be detached.

Description

[0001] The present invention relates to a general-purpose drilling system consisting of a modular derrick,

The present invention relates to a drilling system, and more particularly to a general purpose drilling system comprising a modular derrick configured to improve system availability through separation of functions and to improve the speed of drilling operations.

In general, drilling of energy resources, which has been done only on land, is taking place on the coast and gradually spreading from the coast to the sea. Many drilling rigs have been newly developed, especially in the ocean, where drilling operations have become feasible in deep deep sea areas. Among them, drillship is now becoming one of the most important vessels for marine drilling, and its role is becoming increasingly important, such as being developed for special purposes such as icebreaking drilling in the glacier area. Continuous development is underway.

The drill ship is equipped with a moonpool to allow the riser or drill pipe to move up and down to drill oil or gas under the sea floor in the center, Derrick, a large, complex form of construction, is fixed to the deck.

Since such a conventional drill ship needs to be moved in order to develop the oil field, it is necessary to increase the moving speed. Since the drill has an opening form passing through the center of the ship, As a result, a vortex was generated in the interior of the door frame to reduce the speed of the hull, and further, the sea hull itself was caused by sea water flowing into the doorway during the drilling operation.

In order to solve such a problem, Korean Patent Laid-Open No. 10-2013-0039928 discloses a drill without a door. It is installed on one side of the derrick and connects the winch and the sheave block mounted on the top of the derrick with wires to support and move the derrick to the drilling position. A pulling means for guiding the pulling means to a predetermined position; And an air cushion tube for conveying the heavy object, wherein the derrick located at the center of the upper surface of the deck of the ship is moved to the drilling position and one or more of the air cushion tubes are inflated by injecting compressed air.

Such a conventional drill ship may improve the moving speed by omitting the door frame, but if it does not have the specifications suitable for the development area, or when a fatal equipment defect is found or discovered after drilling or drilling, It is required to return, which results in a decrease in the availability rate due to the decrease in the idle period, which in turn causes economic damage to the drill ship operating company.

It is desirable that the drilling rig operator make various fuselages because it is difficult to be compatible with these drillships. For example, in the case of drilling rigs, deep water drilling is not possible because the specifications of various equipment such as internal pump, motor, drill pipe, and riser volume are lower than deep drilling rigs. In the case of deep-sea drilling rigs, the operation cost is too high to perform the inundation work, which is not economically efficient. However, if such a variety of fleet operators constitute such a fleet, it would also be economically disadvantageous to consider new building prices and maintenance and repair costs, and if fatal flaws were found to be imperfections in some of the drillships, If some drilling is not done, the availability rate will also fall.

It is an object of the present invention to improve the system usability through separation of functions and to change the position of the derrick to the periphery of the hull from the center of the conventional hull, It is aimed to improve the speed of drilling by using several derrick.

According to an aspect of the present invention, there is provided a system for performing a drilling operation in a marine environment, comprising: a main platform located at a sea level and provided with a plurality of module detachable portions at an edge thereof; And a modular derrick comprising a derrick module detachably coupled to each of the module detachment portions.

The main platform may be provided for each corner of the module detachable portion.

The main platform may be provided such that the module attachment / detachment portion is symmetrical in the left and right direction.

The main platform may be provided such that the module attaching / detaching portion is symmetrical forward and backward.

The module detachable portion may have the form of a groove for receiving the derrick module in whole or in part.

The main platform may be any one of a ship, a floating structure, and a semi-submergible structure.

The derrick module may be standardized to selectively couple to each of the module detachable portions.

According to another aspect of the present invention, there is provided a system for performing a drilling operation at sea, comprising a main platform located in the sea, and a modular derrick having a plurality of derrick modules detachably installed at the edge of the main platform A general-purpose drilling system is provided.

According to the present invention, it is possible to construct an optimum tip through a combination of a standardized main platform and various derrick modules, and additionally, when a fault occurs in the field which can not be corrected in the field, It is possible to improve the system usability through separation of functions.

In addition, the position of the derrick module is shifted from the center of the hull to the periphery of the hull to enable the space of the upper deck to be secured, and to enable deep-sea work and free deck planning.

In addition, the implementation of dual or multi-derrick systems can improve the speed of drilling by simultaneously performing drilling operations on one side and tool running on the other side.

BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a front view of a general purpose drilling system comprising a modular derrick in accordance with an embodiment of the present invention.
Figure 2 is a plan view of a general purpose drilling system comprising a modular derrick in accordance with an embodiment of the present invention;

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In addition, the following examples can be modified in various forms, and the scope of the present invention is not limited to the following examples.

FIG. 1 is a front view showing a general purpose drilling system composed of a modular derrick according to an embodiment of the present invention, and FIG. 2 is a plan view showing a general purpose drilling system composed of a modular derrick according to an embodiment of the present invention. to be.

As shown in FIGS. 1 and 2, a general-purpose drilling system 100 configured with a modular derrick according to an embodiment of the present invention is a system that performs a drilling operation at sea and includes a main platform and a plurality of derrick modules 120 are detachably mounted on an edge of the main platform 110. [

The main platform 110 is located at the sea so that drilling can be performed and a plurality of module detachable parts 111 for coupling the derrick modules 120 can be provided at the edges. The main platform 110 can be installed such that the derrick module 120 coupled to the module detachable portion 111 is spaced upward from the sea level by providing the module detachable portion 111 on the edge, It is not necessary to form an opening for entry into the seawater.

The main platform 110 may include a vessel such as a drillship, a floating structure floating on the water surface by a buoyant body, a semi-submerged pontoon by a pontoon, A semi-submersible structure, and the like, and may be formed of various types of offshore structures. Accordingly, the structure of the hull 112 has a structure corresponding to the above-described manner.

The main platform 110 provides the work space with the upper surface as an upper deck and is used for loading drill pipes and risers, assembling and transporting to drill stands, muds and bulk Transferring, testing, and the like of the deep sea equipment, and transferring a drill stand pipe and a deep sea equipment to the derrick module 120. In this case,

The main platform 110 is provided with a ballast system for arranging the ballast tanks in the lower hull 111 to be arranged on the port and starboard sides and the fore and aft sides so as to perform the ballast using the ballast tanks And may be provided with a dynamic positioning system (also referred to as "DPS") to maintain a floating position.

The dynamic position control system includes a measuring unit for measuring various information necessary for maintaining the position and attitude of the main platform 110 and outputting the detected information as a sensing signal, And a thruster for receiving the control signal of the control unit and generating a thrust necessary for controlling the position and attitude of the main platform 110. [ Here, the measurement unit may include a combination of a wind sensor, a bird sensor, a GPS, and a gyro sensor, as well as a measurement sensor necessary for maintaining the position and attitude of the main platform 110. Also, the propulsion unit may be a whorl propulsion unit which is a all direction propulsion unit, for example, Azimuth thruster, Azipod, or the like. The main platform 110 can be moved or sailed to a desired position by a separate propeller or dynamic position control system.

The main platform 110 is provided with a plurality of module detachable parts 111. The module detachable parts 111 are detachably coupled to the detachable parts 121 provided at predetermined fixed positions of the derrick module 120. [ The coupling part 121 of the module detachable part 111 and the derrick module 120 may include a fastening hole structure for fastening the modules using bolts and nuts and may include braces And a joining member of various types can be used instead of or in combination with the bolt fastening structure.

The main platform 110 may have a variety of shapes, and the overall planar shape of the main platform 110 may be a square as in the present embodiment. In this case, the module detachable portion 111 may be provided for each corner. The main platform 110 is disposed on the left side and the right side of the main platform 110 so that the module detachable portion 111 is symmetrical in the left and right direction so as to be balanced against the load of the derrick module 120, As shown in FIG. At this time, the module detachable portion 111 may be provided symmetrically with respect to the transverse direction passing through the center, for example, symmetrically with respect to the forward and backward directions.

The module detachable portion 111 may have a groove shape to accommodate the derrick module 120. In this embodiment, the module detachable portion 111 has a groove shape for partially accommodating the derrick module 120, but may have a groove shape for accommodating the entirety of the derrick module 120.

The derrick module 120 is detachably coupled to each of the module detachable parts 111 and may be formed in a number corresponding to the number of the module detachable parts 111, And may be a frame structure such as a truss structure or the like. The number of derrick modules 120 may be determined depending on the shape, size, or use of the main platform 110, and may be configured in a fluid manner. For example, there may be four maximum derrick modules 120 that can be coupled to one main platform 110, and two derrick modules 120 coupled to the main platform 110 during actual operation.

The derrick module 120 may be configured to rotate a drill string, load a drill stand, assemble into a drill string, draw work system and motion compensation system, Lifting and lowering of the drill strings and undersea equipment, loading and unloading of drill stand pipes and deep sea equipment delivered from the main platform 110, and the like.

The derrick module 120 may be standardized to selectively couple to each of the module detachable parts 111. [ The derrick module 120 is standardized so that any module detachable portion 111 of the plurality of module detachable portions 111 can be detachably coupled so that a portion coupled to the module detachable portion 111, ) Can be standardized.

The derrick module 120 may be standardized within a range that the module 110 is mounted on the module detachable portion 111 of the main platform 110 without limitation and the type and method of the drilling operation to be performed may not be included in the standardization . That is, each of the derrick modules 120 may be variously manufactured for the purpose of performing different drilling operations, for example, have different equipment, or may have different structures. Alternatively, the derrick module 120 may be used for backing up other derrick modules 120 by having the same structure and configuration as the other derrick modules 120. The derrick module 120 may also be used according to the purpose of use of the main platform 110. For example, in the case where the main platform 110 is for underwater work, the four derrick modules 120 are used for a small overhead work so that a quick overhead work can be performed.

The operation of the general purpose drilling system constituted by the modular derrick according to the present invention will be described.

Since the derrick module 120 is detachably installed on the edge of the main platform 110, it is not necessary to form an opening for entering the sea surface like a moon pool, So that it is possible to solve the flow problem due to the seawater flowing into the door pool or the like.

In addition, it is possible to configure the optimum front end through the combination of the standardized main platform 110 and the various derrick modules 120, and additionally, when a derailment failure occurs in the field in the derrick module 120, So that it is possible to improve the system usability through separation of functions.

By displacing the position of the derrick module 120 from the center of the hull to the periphery of the hull, it is possible to secure the space of the upper deck and enable deeper working and free deck planning.

Due to the implementation of a dual or multi-derrick system in which the main platform 110 has a plurality of derrick modules 120, it is possible to perform simultaneous drilling operations on one side and tool running on the other side The speed of the drilling operation can be improved.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention. It is.

110: main platform 111: module detachable part
112: Hull 120: Derrick module
121:

Claims (8)

A system for drilling at sea, comprising:
A main platform positioned on the sea and provided with a plurality of module detachable portions at its edges; And
A derrick module detachably coupled to each of the module detachable parts,
And a modular derrick system including the dredging system. The method according to claim 1,
The main platform includes:
And a modular derrick wherein the module detachable portion is provided for each corner. The method according to claim 1,
The main platform includes:
And a modular derrick which is provided so that the module attaching / detaching portion is symmetrical to the left and right. The method of claim 3,
The main platform includes:
And a modular derrick adapted to allow the module attaching / detaching unit to be symmetrical forward and backward. The method according to any one of claims 1 to 4,
Wherein the module detachable portion includes:
And a modular derrick having the shape of a groove for receiving the derrick module in whole or in part. The method according to any one of claims 1 to 4,
The main platform includes:
A general purpose drilling system consisting of a modular derrick consisting of a ship, floating structure, semi-submerged structure. The method according to any one of claims 1 to 4,
The derrick module comprises:
And a modular derrick adapted to be selectively coupled to each of the module detachable portions. A system for drilling at sea, comprising:
Including the main platform located at sea,
And a modular derrick in which a plurality of derrick modules are detachably mounted on an edge of the main platform.

Images