RU2209294C2 - Underwater drilling and mineral mining complex, method of its installation and its control system - Google Patents

Abstract

FIELD: exploitation of underwater deposits of mainly liquid and gaseous mineral resources under arctic conditions, installation of underwater process complexes for performance of work by method of cluster drilling irrespective of weather conditions and presence of ice cover. SUBSTANCE: method includes engagement of bottom plate with wellhead connectors to which X-mass tree structure is secured through means of leakproof joint by aligning of releasable connections. Secured to X-mass tree through leakproof joint with regulation of height by compensator. Then well is drilled by giving commands from panel of drilling ship control post. Upon completion of drilling, lowered into well through drilling equipment and X-mass tree structure is pipe support unit above which channel unit is arranged in X-mass tree structure. Drilling equipment is dismantled. EFFECT: reduced labor input in complex installation due to its simple design and reduced time of its installation. 4 cl, 4 dwg

Description

 The invention relates to the development of underwater mineral deposits in arctic conditions, mainly liquid and gaseous, to the installation of underwater technological complexes that provide work according to the method of cluster drilling, regardless of weather conditions and the presence of ice cover.

 Known technological complex for underwater mining, containing a bottom plate with wellhead connectors for placement connected to the drilling vessel through a hermetic connection of drilling equipment, including a riser, block blowout equipment and a height compensator, and connected to the wellhead connectors of the bottom plate through a means of tight connection operational equipment, including fountain fittings, consisting of a housing, a channel block and a block duct rzhateli (see the description of the invention to patent 2140516, MKI E 21 7/12, 33/035, 43/01, from 06/19/98).

 The disadvantages of the known technological complex include the complexity of its design, which increases the installation time of the complex and well development.

 A known method of installation of a technological complex of underwater production, which consists in fixing on the bottom surface of the bottom plate with wellhead connectors, on which a drilling rig is installed, including a riser, a blowout preventer and a height compensator, dismantling of drilling equipment and installation of production equipment, including a fountain valve body, a block channels and a block pipe holder (see the description of the invention to patent 2140516, MKI E 21 B 7/12, 33/035, 43/01, from 06/19/98).

 The disadvantages of this method include the duration of the installation process of the technological complex.

 The control system of the well-known technological complex provides only alternate installation of drilling and production equipment, thereby increasing the installation time of the complex and well development.

 In addition, the constructive implementation of the complex and its control system do not allow to control the actuators of the means of tight connection with the vessel through the underwater station.

 The proposed invention solves the problem of reducing the complexity of installation of the complex by simplifying its design and reducing installation time.

 To achieve a technical result in the proposed technological complex of underwater mining, containing a bottom plate with wellhead connectors for placement of a drilling equipment connected to a drill vessel, including a water separation column, a blowout preventer and a height compensator, and connected to the bottom plate wellhead connectors through means of tight connection of operational equipment, including fountain fittings, comprising from a housing, a channel block and a pipe holder, according to the invention, the fountain housing, the channel block and the pipe holder are made detachable relative to each other, the fountain valve housing is placed between the drilling equipment and wellhead connectors and secured to them through a tight connection means, the block blowout equipment is made with the possibility of fixing on the body of the fountain fittings through a tight connection, the body of the fountain fittings has a bore diameter n e less than the internal diameter of the drilling equipment to ensure the descent of the block-pipe holder into the well after completion of its drilling through the drilling equipment and the body of the fountain fittings and a similar descent and placement of the channel block above it in the body of the fountain fittings.

 To achieve a technical result in the proposed method, which consists in securing on the bottom surface a bottom plate with wellhead connectors, on which drilling equipment is installed, including a riser, a blowout unit and a height compensator, dismantling of drilling equipment and installation of production equipment, including a fountain valve body, channel block and pipe holder, according to the invention, the installation of operational equipment is carried out in two stages, starting the first stage of installation of the complex from the installation of the body of the fountain fittings on the wellhead connectors of the bottom plate without the channel block and the block-pipe holder in front of the drilling equipment, which is mounted on the body of the fountain fittings and fastened to the drilling vessel, the second stage of installation of the complex is performed after completion of drilling, installing through the drilling equipment and the body of the fountain reinforcement block-pipe holder and placing a block of channels over the body of the fountain reinforcement above it, after which the drilling equipment is dismantled.

 To achieve a technical result, the proposed control system for the technological complex, including underwater and ship control stations, control channels for drilling equipment with detachable elements connected to actuators of blowout control equipment and a ship control station, control channels for operational equipment with detachable elements connected to actuators for fountain valves and an underwater control station, respectively, according to the invention there is an additional channel for control through the underwater control station for actuators of the means for tight connection of drilling equipment with a drilling vessel and fountain fittings, the ship control station contains a control panel connected to the underwater control station by a control channel.

 The control system of the technological complex according to the invention is equipped with emergency channels for controlling, from the ship station, the actuators of the tight connection means.

 Separate relative to each other, the body of the fountain armature, the channel block and the block pipe holder allow the installation of operational equipment in two stages, starting the first stage of installation of the complex with the installation of the body of the fountain valve on the mouth connectors of the bottom plate without the channel block and block pipe holder in front of the drilling equipment. The second stage of installation of production equipment, namely, the channel block and the pipe holder block, is performed after drilling the well, placing them through the drilling equipment and the body of the fountain fittings, for which the through diameter of the body of the fountain fittings is no less than the bore diameter of the drilling equipment.

 The constructive implementation of the technological complex allows to reduce the time for connecting the bottom plate to the drilling vessel in the proposed installation method, since all the equipment and the drilling and flowing fittings are mounted in one step, and the installation of the channel block and the pipe holder block is carried out from the drilling vessel through the drilling equipment and the fountain reinforcement casing installed in front of it after drilling a well without dismantling the equipment.

 Dismantling of drilling equipment does not affect the operation of the well, thereby reducing the time from the start of installation of the complex to the start of operation of the well.

 The proposed control system of the technological complex allows you to control the actuators of the tight connection with the drilling vessel through an additional control channel.

 The presence of an emergency control channel allows you to control the actuators of the sealed connection from the drilling vessel in emergency situations in case of a threat to the life of the operating personnel or the drilling vessel itself.

The technological complex of underwater mining of minerals, the method of its installation and the control system of the complex are illustrated by the drawings shown in FIG. 1-3, where:
in FIG. 1 shows a General view of the technological complex;
figure 2 is a diagram of a control system;
figure 3 is a section aa in figure 1;
in FIG. 4 is a diagram of a stem channel.

 The technological complex for underwater drilling and mining contains a bottom plate 1 installed at the bottom of the sea with wellhead connectors 2 for accommodating drilling and production equipment connected to the drilling vessel 3 through pressurized means 4, 5 and 6.

 Drilling equipment includes a riser 7, a block of blowout equipment containing ram preventers 8 and an annular preventer 9, a height compensator 10.

 Operational equipment includes fountain fittings, consisting of a housing 11 separately made relative to each other with valves 12, a channel block 13 and a pipe holder 14.

 To implement drilling control, the control system includes an underwater control station 15 and a ship control station 16 with a control panel 17 connected by control channels 18 and 19 to production and drilling equipment, respectively. The control channel 11 is provided with detachable elements 20, 21 and 22, and the control channel 19 is provided with detachable elements 23 and 24. The control channel 18 of the operational equipment is connected to actuators of the fountain valves 11, namely, to the gate valves 12 and to the actuators of the pressurized means 4. The drilling equipment control channel 19 is connected to blowout control actuators, namely, ram preventers 8 and annular preventer 9 and actuators of pressurized means 5 and 6 about the connection. The system contains an additional control channel 25 for actuators of pressurized means 5 and 6 through an underwater control station 15 and emergency control channels 26 and 27 for actuators for actuators of pressurized means 3 and 6 for drilling ship 3. Remote control 17 of ship control station 16 is connected to control channel 28 with underwater station 15 control. The control system is equipped with an on-board console 29 connected by a control channel 30 to an underwater control station 15.

 Installation of the technological complex of underwater mining is as follows.

 At the bottom of the sea, a bottom plate 1 is fixed with wellhead connectors 2 to which the body 11 of the fountain armature is connected to the valves 12 by combining the leakproof means 4, combining the plug connections 20 and 21. On the body 11 of the fountain armature, a blowout block is secured through the means 5 of the hermetic joint, containing water separating column 7, ram preventers 8, annular prefloor 9 and height compensator 10, after which, by means of hermetic connection 6, they are attached to the drilling vessel 3, adjusting the height with compensator 10. element 22 is combined with a detachable element 21.

 The actuators of the pressurized connection means 5 and 6 are controlled from the remote control 17 of the ship’s control station 16 through the control channels 28, 18 and 25 through connected detachable connections 20, 21 and 22, as well as from the underwater control station 15 through the control channels 18 and 25. Then the well is drilled, giving a command from the control panel 17 of the control station of the drilling vessel 3. After drilling is completed, the block pipe holder 14 is lowered into the well through blowout equipment and the body 11 of the fountain reinforcement, placing a block of channels 13 in the body of the fountain 11 above it.

 Fountain fittings are ready for operation.

After installing the block-pipe holder 14 and the block of channels 13, the drilling equipment is dismantled using it on another well
Management of the operation of the well is carried out from the console 17 of the ship station 16 control or from the shore console 29.

Claims (4)

 1. Technological complex for underwater drilling and mining, containing a bottom plate with wellhead connectors for placement of a drilling equipment connected to a drilling vessel through a sealed connection of a drilling equipment including a riser, a blowout preventer and a height compensator, and connected to the wellhead connectors of the bottom plate through a means tight connection of operational equipment, including fountain fittings, consisting of a housing, channel block and pipe block holder, characterized in that the body of the fountain fittings, the channel block and the block pipe holder are made detachable relative to each other, the body of the fountain fittings is placed between the drilling equipment and wellhead connectors and is fixed to them through the tight connection means, and the blowout preventer unit is made with the possibility of fixing on the body of the fountain fittings through a sealed connection means, the body of the fountain fittings has a bore diameter of not less than the inner diameter of the drilling equipment to ensure the descent of the block-pipe holder into the well after completion of its drilling through the drilling equipment and the body of the fountain reinforcement and a similar descent and placement of the channel block above it in the body of the fountain armature.  2. The method of installation of the technological complex, which consists in fixing on the surface of the bottom of the bottom plate with wellhead connectors, on which drilling equipment is installed, including a riser, a blowout preventer and a height compensator, dismantling of drilling equipment and installation of production equipment, including a fountain body, a block channels and a pipe holder, characterized in that the installation of operational equipment is carried out in two stages, starting the first stage of installation and the complex with the installation of the body of the fountain armature on the wellhead connectors of the bottom plate without the channel block and the block-pipe holder in front of the drilling equipment, which is mounted on the body of the fountain armature and fastened to the drilling vessel, the second stage of the installation of the complex is carried out after completion of drilling, installing through the drilling equipment and the body of the fountain reinforcement block-pipe holder and placing a block of channels over the body of the fountain reinforcement above it, after which the drilling equipment is dismantled.  3. The control system of the technological complex, including the underwater and ship control stations, control channels for drilling equipment with detachable elements connected to actuators of blowout control equipment and a ship control station, control channels for operational equipment with detachable elements connected to actuators of fountain fittings and an underwater station control, respectively, characterized in that it contains an additional channel for control through p dvodnuyu actuators control station means sealing the drilling equipment to the drilling vessel and the wellhead valves, the ship comprising a control station control unit coupled to control subsea station control channel.  4. The control system of the technological complex according to claim 3, characterized in that it is equipped with emergency channels for controlling from the ship station the actuators of pressurized means.

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