RU2449915C2 - Floating drilling and production offshore platform - Google Patents

Abstract

FIELD: transport.

SUBSTANCE: invention relates to oil-and-gas industry. Proposed platform is provided with ice breaker and wedge-shaped safety belt arranged on platform outer side, at its bottom and all along platform edges. Wedge face inclination angle makes 5°-85°. Drilling pipe string with cylinders and string with provisional sea well casing pipes with cylinders filled with nitrogen gas or inert gas are lowered on sea bed in drilling soft rocks. Strip top is secured to floating platform. After feeding clay drilling mud, well is drilled in soft rock by drill pipe string using bore bit. Drilling over, said string is lifted onto platform and used fro drilling another well. Permanent sea well case pipe string is mounted and jointed with floating platform. Drilling in hard rock to gas- and oil-bearing beds is performed with smaller-diameter bore bit and drilling pipes with cylinders.

EFFECT: higher safety.

4 dwg

Description

The floating platform for drilling and exploitation of offshore wells in arctic conditions belongs to the field of gas and oil industry.

Known icebreakers for the destruction of ice and the vessel, which contain the main engine - a generator, electric motors for driving propellers, captain's cabin and control mechanisms of the vessel (see Fried E.G. The device of the vessel. - L .: Sudostroenie, 1970. - 11 pp.) .

Known floating platform for drilling and operating offshore wells in the waters of the seas and oceans and in arctic conditions, containing a drilling rig, pump, drill and casing pipes, rock cutting bit, elevator pipes and sucker rods, oil submersible pump or pumping unit, oil tankers associated with the pipeline and the plunger pump, installed between the wellhead and connected to the floating platform, a column of marine casing water separating pipes with fixed on its outer surface about the entire length of the cylinder, which is the closest analog (prototype) to the claimed invention (see. US A 4059148, cl. E21I 7/12, publ. 11.22.1977, total 13 sec.).

Known drill and casing pipes, pipes and rods for oil submersible pumps with upset ends, which are cut into a tapered, external and internal thread (see Johansen K.V. Sputnik Borovika. - M .: Nedra, 1981-199 p .; Gray Forest. Oil production. - M.: Olimp Biznes CJSC, 2001. - 230 - 240 s .; Muravyov V.M., Sereda N.G. Sputnik of the oilman. - M .: Nedra, 1971. - 233 s. .; see Vadetsky Yu.V. Oil and gas well drilling. - M .: ACADEMA, 2004., p. 63, table 213; see Abubakirov V.F. Drilling equipment, reference book, t.2, - M .: Nedra, 2008.S. 20, 34).

The disadvantages of a floating platform for drilling and operating offshore wells in the water spaces of the seas and oceans and in arctic conditions are:

- the safe operation of the platform in the Arctic and Antarctic conditions is not ensured when ice is compressed by the body of the specified platform collapses when waves are generated 20 meters high by the tsunami during earthquakes, nuclear and thermonuclear explosions and during hurricanes;

- when lowering drill string and casing pipes while drilling gas and oil wells, lift pipes and rods of submersible pumps to the bottom of the ocean and into the well to a depth of 3050-18000 m, the own weight of the rods and pipes exceeds the tensile strength of steel, and therefore, the pipes are destroyed and threads in the connecting nodes, and when installing pipe columns and rods at the bottom of the well, stability is lost and destroyed; for the same reason, the working depth of the installation of plunger pumps is limited, which is 650-2900 m, the diameter of the plunger and the outer diameter of the pump and its performance are limited;

- the load on the hook, cable, winch and internal combustion engine increases when raising and lowering drill and casing pipes and on the details of the rocking machine of submersible pumps;

- drilling of wells from floating platforms in arctic conditions has not yet been carried out, therefore, their protection against ice was not provided.

The technical result of a floating platform for drilling and operating offshore wells in the water spaces of the seas and oceans in arctic conditions are:

- protecting it from destruction and displacement relative to the wellhead with an endless field of drifting ice;

- ensuring the safe operation of the drilling rig during the drilling and operation of gas and oil wells, submersible pumps or pumping units and floating oil and gas platforms in ice during the formation of waves 20 m high, tsunamis during earthquakes, nuclear and thermonuclear explosions and during hurricanes.

To solve this problem, a floating platform for drilling and exploitation of offshore wells in the waters of the seas and oceans and in arctic conditions, containing a main engine-generator, electric motors for propelling propellers, captain’s cabin and ship control mechanisms, a drilling rig, a pump, drilling and casing pipes rock cutting bit, elevator pipes and sucker rods, oil submersible pump or pumping unit, oil tank associated with the pipeline and plunger pump, installed between wellbore and a casing string of marine casing risers connected to a floating platform with cylinders fixed on its outer surface along the entire length, characterized in that the self-propelled floating platform for drilling oil and gas wells is equipped with an icebreaker to protect it from destruction and displacement relative to the wellhead with an infinite field drifting ice, in addition to the icebreaker on the outside of the platform in its lower part along the perimeter there is a wedge-shaped safety belt, the angle of inclination of the planes to it is 5 ° -85 °, to increase the rigidity of the platform casing and to self-destruct ice when it is compressed around the entire perimeter of the casing of the specified platform, an electric generator driven by an internal combustion engine with thyristor valves is connected through a contact switch to a DC traction motor, the shaft of which is connected couplings with shafts of the gearbox and with a bevel gear shaft, with a bevel wheel with a hub in which a cylindrical cavity is made, slots are made on the upper side of the hub, in which e installed a hub with splines of the rotator of the drilling rig, on the inside of which a cylindrical cavity with a diameter of 2050 mm is made, for installing a string of temporary marine casing water separating pipes with positive buoyancy elements fixed on its surface along its entire length, the outer diameter of which is 2000 mm for said casing string of temporary marine use casing pipes with a diameter of 1600 mm, in addition to the casing string of temporary use marine casing pipes, in a drill pipe string with cylinders with an external diameter of 300-850 mm is located for said drill pipe with a diameter of 48.3-114.3 mm and a rock cutting bit for the period of drilling soft rocks and installing in its cavity a string of marine casing pipes without cylinders for fastening the soft roof of the well and the same column of permanent casing marine casing pipes with cylinders above the mouth of the indicated well over the entire height of the ocean water column to a floating platform, or a drill pipe string with cylinders and rock breaking a chisel, which is based directly on the rock being destroyed for the period of soft rock drilling and the installation of a column of marine casing pipes without cylinders for fastening the soft roof of the well and the same column of permanent casing marine separating pipes with cylinders with an external diameter of 1550 mm for marine casing permanent-use water separating pipes with a diameter of 900 mm installed above the mouth of the indicated well along the entire height of the ocean water column to a floating platform, or in a rotator of a drilling rig a cylindrical cavity with a diameter of 1650 mm was made for the specified drill pipe string with cylinders and rock cutting bit located directly resting on the rock being destroyed for the period of soft rock drilling and installation of the offshore casing pipe string without cylinders, for fastening the soft roof of the well with the installation of a robot with a video camera to accurately determine the wellhead on the ocean floor and to examine it during operation, and the same casing string of permanent water separating pipes from a cylinder over the mouth of the indicated well over the entire height of the ocean water column to a self-propelled floating platform for its long-term use, for lowering the string of offshore casing pipes of a smaller diameter in difficult geological conditions of the earth, an adapter with a right-hand thread is installed on its upper side, which is connected to the pipe string with left-hand thread with cylinders, the outer diameter of which is 300-850 mm, after installing smaller casing pipes in the borehole when the rotor of the drilling rig rotates counterclockwise, the adapter exits it is threaded, and together with a pipe string, it is lifted by a winch onto the deck of the platform, a cement solution with sea water is prepared for cementing the annulus, and with a setting retarder and a pump, it is supplied through pipes with cylinders 300-850 mm in diameter through a ball channel a valve with a spring in the distributor in which the windows are made, or the distributor is connected to a pipe, the cavity of which is filled with cement mortar, a plunger is installed on the upper side of the pipe, which acts as a plunger pump, which the pipe is connected to the string of drill pipes with cylinders, or these drill pipes are connected to cylinders, the ends of which are threaded, the outer diameter of which is 300-850 mm, the lower part of the marine casing pipe is cemented, and then its upper part, the drill pipes and temporary separation and permanent marine casing pipes are made in the form of nitrogen gas or inert gas filled under pressure, solid or welded removable cylinders in the form of a cast shell and pipe with one weld on each side, or in the form of pipes with plugs with two welds on each side, or cylinders on a drill or water separating marine casing pipe are fixedly mounted in the form of a cast shell with one weld on each side or with the specified pipes and the outer tube of the cylinder with plugs with two welds on each side, and a floating platform for long-term operation of oil and gas offshore wells in all weather conditions is made in the form of its lower part, which is located under a layer of 0.5-20 m of water, and its upper part, mounted on racks and and pipes, which is located above the sea or ocean at an altitude of 3-20 m, the upper and lower parts of the indicated platform are fixed to the rock with anchors, cables with cylinders, pressurized with nitrogen gas or inert gas at great depths, and at shallow depths - with anchors and ropes, on the upper part of the platform, a rocking machine, compressor or pump station and storage tanks for oil are installed, for a deep pump installation, the pump rod is made of a titanium pipe in the form of a cylinder, the outer diameter of which is 60.3 mm, 73 mm, 88.9 mm at the upset ends of which a round thread is cut, which is connected to a sleeve with a round thread profile, and the lift pipe is made in the form of a solid-filled nitrogen or inert gas filled with pressure or welded removable cylinders, the outer diameter of which is 300-850 mm, for the outer diameter of the specified elevator pipe 112.5 mm, 137.5 mm, or the cylinders on the elevator pipe are fixedly mounted in the form of a cast shell with one weld on each side or the specified elevator pipe and the outer pipe cylinder with there are plugs with two welds on each side, sensors are installed on the marine casing pit temporary or permanent string to warn the floating means of its location and windows for communication with the annulus are made in its lower part, and a pipe is installed on the outer surface of the marine casing pit with sealing devices with cargo supported on the annular belt by the indicated marine riser, suspended on ropes with balloons to the top of the floating platform s, with the possibility of overlapping the said windows during drilling and periodically opening them, or for a deep pump installation, which is installed in the cavity of the column of said water separating marine casing pipes with permanent cylinders and in the well, which is made in the form of a pipe string with cylinders for lifting oil from the oil layer and the pipe string with cylinders for supplying sea water through a pipeline from the ocean with a pump at a pressure of 24.5 MPa into the well, or sea water by gravity from the ocean through a pipe, valve and specified it doesn’t flow into its lower part through a water distributor with windows connected to the windows of the pipe for raising oil from the well in its lower part, and for drainage of oil from the oil layer, the windows of the pipe are located above the accumulated water in the oil layer, the specific gravity of the liquid and low viscosity oil is less than the specific gravity of water, oil, which is displaced by water from the oil layer, rises along the pipe string into the oil tank.

Figure 1 shows a self-propelled floating platform for drilling oil and gas wells. Figure 2 shows a device for cementing the annular space of the well. Figure 3 shows a floating platform for the operation of offshore wells. Figure 4 shows the pump rod-cylinder, at the ends of which a thread is cut.

The self-propelled floating platform 1 for drilling oil and gas wells is equipped with an icebreaker to protect it from destruction and displacement relative to the wellhead with an endless field of drifting ice (the icebreaker is not shown in Fig. 1), in addition to the icebreaker, the perimeter is installed in the lower part of the platform on the outside wedge-shaped safety belt 2, the angle of inclination of the wedge planes is 5 ° -85 °, to increase the rigidity of the platform body and for self-destruction of ice when it is compressed across the entire perimeter of the body of the specified platform a generator driven by an internal combustion engine with thyristor valves through a contact switch is connected to a DC traction motor, the shaft of which is connected by couplings to the shafts of the gearbox and to the shaft of the bevel gear, with a bevel wheel with a hub in which a cylindrical cavity is made, on the upper side of the hub the slots are made, in which the hub with the slots of the rotator of the drilling rig is installed, on the inside of which a cylindrical cavity with a diameter of 2050 mm is made (Fig. gatel-generator, gearbox and rotator not shown), for installing a string of marine casing riser pipes 3 for temporary use, with positive buoyancy elements fixed on its surface along its entire length 4, whose outer diameter is 2000 mm for the specified string of marine casing riser pipes temporary use with a diameter of 1600 mm, in addition to the string of marine casing risers 3 temporary use, which is a string of drill pipes with cylinders, the outer diameter of which equal to 300-850 mm, for these drill pipes with a diameter of 48.3-114.3 mm and rock cutting bit (in Fig. 1 the string of drill pipes and the bit is not shown) for the period of drilling soft rocks and installation in its cavity of a string of marine casing pipes 5 without cylinders for fastening the soft roof of the well and the same column of permanent use marine casing pipes with cylinders 6 above the mouth of the indicated well over the entire height of the ocean water column to the floating platform for long-term use, or a drill pipe string with cylinders and a cutter a crushing bit, which is supported directly on the rock to be destroyed for the period of soft rock drilling and installation of a casing string without cylinders 5 for fastening the soft roof of the well and the same casing string of permanent use casing with cylinders 6, the outer diameter of which is 1550 mm for water separating offshore casing pipes with a diameter of 900 mm installed above the mouth of the indicated well along the entire height of the ocean water column to floating platform 1, or in the rotator of the drilling rig made a drilled cavity with a diameter of 1650 mm for the specified drill pipe string with cylinders and a rock cutting bit, which is supported directly on the rock being destroyed for the period of soft rock drilling and installation of the offshore casing pipe string 5 without cylinders, for fixing the soft roof of the well with the installation of a robot with a video camera (a robot is not shown in FIG. 2) to accurately determine the wellhead on the ocean floor and to examine it during operation, and the same column of permanent casing marine casing pipes use with cylinders 6 over the mouth of the indicated well over the entire height of the ocean water column to a self-propelled floating platform 1 for long-term use, for lowering the string of offshore casing pipes 7 of a smaller diameter in difficult geological conditions of the earth, an adapter 8 with right-hand thread is installed on its upper side, which is connected to the column of pipes 9 with left-hand thread with cylinders 10, the outer diameter of which is 300-850 mm, after installing casing pipes of smaller diameter in the borehole when the rotor rotates against the clock arrow 8, the adapter 8 comes out of the thread, and together with the pipe string it is lifted by a winch to the deck of platform 1, a cement solution with sea water is prepared for cementing the annulus and with a setting retarder and a pump it is fed through pipes with cylinders 300-850 in diameter mm (in Fig. 1, the pump and pipes with cylinders are not shown), through the channel of the ball valve 11 with a spring 12 to the distributor 13, in which the windows 14 are made, or the distributor 13 is connected to the pipe 15, the cavity of which is filled with cement mortar 16, from the top side us said tube is mounted a plunger 17, a plunger pump performs the function of which is connected to the drill string 18 with cylinders 19, or said drill pipe connected to the cylinders 20, at whose ends is threaded, the outside diameter of which is equal to 300-850 mm (see. 4), the lower part of the offshore casing 7 is cemented (see FIG. 2), and then its upper part, drill pipes (drill pipes not shown in FIG. 1) and temporary 3 and permanent 5 offshore casing pipes are made in in the form of pressurized nitrogen gas or inert gas, solid or welded removable cylinders in the form of a cast shell and pipe with one weld on each side or in the form of pipes with plugs with two welds on each side, or cylinders on a drill or water separating marine casing pipe mustache fixed in the form of a cast shell with one weld on each side or with the specified pipes and the outer tube of the cylinder with plugs with two welds on each side, and the floating platform for long-term operation of oil and gas wells in any weather conditions is made in the form the lower part 21, which is located under a layer of 0.5-20 m of water and its upper part, mounted on racks or pipes 23, which is located above the sea or ocean at an altitude of 3-20 m, the upper and lower parts of this platform are closed They are bonded to the rock with anchors 24, 25, ropes 26, 27 with cylinders 28, 29 filled under pressure with gaseous nitrogen or inert gas at great depths, and at shallow depths with anchors and cables, a rocking machine, compressor or pumping station (in figure 1 the pumping unit, compressor and pumping stations are not shown) and storage tanks 30 for oil, for the downhole pumping unit 31 pump rod 20 (see 3, 4) is made of a titanium pipe in the form of a cylinder, the outer diameter of which is 60.3 mm, 73 mm, 88.9 mm, at the upset ends of which a round thread is cut, which is connected to the sleeve 32 with a round thread profile, and the elevator pipe 33 is made in the form of a solid-filled or welded removable cylinders filled with pressure with nitrogen gas or inert gas, the outer diameter of which is 300-850 mm, for the outer diameter of the elevator pipe is 112.5 mm 137.5 mm, or cylinders 34 on the elevator pipe 33 mounted motionless in the form of a cast shell with one sensors on each side or on the specified lift pipe and the outer tube of the cylinder with plugs with two welds on each side, sensors 35 are installed on the marine casing water separating temporary or permanent column to warn the floating means about its location and windows 36 are made in its lower part for communication with the annulus, and on the outer surface of the marine casing riser installed pipe 37 with sealing devices 38 with a load of 39 with support on the annular belt 40 of the specified a water separating pipe suspended on ropes with balloons to the upper part 22 of the floating platform, with the possibility of blocking said windows during drilling and periodically opening them, or for an in-depth pump installation, which is installed in the cavity of the column of said water separating marine casing pipes with constant use cylinders and into a well, which is made in the form of a column of pipes with cylinders for lifting oil from the oil layer and a column of pipes with cylinders for supplying sea water through a pipeline from the ocean with a pump at a pressure of 24.5 MPa into the well, or seawater by gravity from the ocean through the pipe, valve and said pipe string flows into its lower part through a water distributor with windows connected to the pipe windows to lift oil from the well in its lower part, and to drain oil from the oil layer, the windows of the specified pipe are located above the accumulated water in the oil layer (in Fig. 3, the specified deep pumping unit is not shown), the specific gravity of liquid and low-viscosity oil is less than the specific gravity of water, oil that is displaced by water from the oil layer rises along a pipe string in oil tanks.

A floating platform for drilling and operating offshore wells in the waters of the seas and oceans and in arctic conditions works as follows.

Before starting drilling, a column of temporary marine casing 3 separating pipes is assembled with cylinders 4 (see Fig. 1) filled under pressure with gaseous nitrogen or inert gas for the period of drilling soft rock and a winch (not shown in Fig. 1) lowers to the bottom the ocean. The upper part of the specified column is fixed to the floating platform 1.

Then a drill pipe string is assembled with cylinders filled with gas under pressure and a drill bit with a diameter of 490 mm (drill pipes with cylinders and a drill bit are not shown in FIG. 1) and sink to the bottom of the ocean. Through the use of pressurized gas cylinders, the drill pipe string and the temporary use marine casing string riser string are elongated in the direction of the surface of the water.

The electric motor of the drilling rig mounted on the deck of the self-propelled floating platform 1 drives the gearbox mechanisms, a shaft with a bevel gear, a bevel wheel, a rotator, a square rod with a swivel, a drill pipe string and a drill bit with a diameter of 490 mm and simultaneously through a sleeve, swivel, channels clay columns of said pipes and chisels are pumped under a pressure of 24.5 MPa to the bottom (clay in figure 1 is an electric motor, gearbox, rotator, square rod with swivel, drill pipe string, dolo then the pump is not shown). From this moment, the process of drilling a well in soft rocks begins. Destroyed drill cuttings and mud are removed from the well to the surface in a special tank for sludge of the destroyed rock.

After completing the drilling of soft rocks through the cavity of the casing string of marine casing pipes 3 for temporary use, a casing pipe string 5 was installed for a long period of time into the well without cylinders, and above the wellhead, the water layer was 50-15000 meters to platform 1, the same casing string of marine casing pipes permanent use pipes are made with cylinders 6 and with windows 36 for letting out the washing solution through them and diluting it with sea water by briefly opening these windows with pipe 37 (see figure 2) using cables with Allon and special lifting device (1, 3 tether and the lifting device is not shown).

A column of marine casing risers 3 temporary use rises to the platform 1 and is used to drill a new well.

In this case, there is no need to use a robot with a video camera to find the wellhead at the bottom of the ocean, but there is a need to increase the rotor cavity of the drilling rig to 2050 mm for free lowering of the temporary casing marine casing pipe with a diameter of 1600 mm, with cylinders whose outer diameter equal to 2000 mm.

And when drilling a well with a string of drill pipes with a bit in soft rocks, there is no direct need to use a string of marine casing risers 3 for temporary use with cylinders 4, but it makes it difficult to accurately install a string of marine casing without cylinders in the well cavity. In this case, the diameter of the rotor cavity is 1650 mm for free lowering of the column of marine casing water separating pipes 5 of constant use with a diameter of 900 mm with cylinders 6, the outer diameter of which is 1550 mm.

The second option does not require large expenses for the development and manufacture of a robot with a video camera.

In difficult geological conditions of the earth, it is necessary not only to install a column of marine casing pipes 7 of smaller diameter, but also to cement the annular space on the lower side of the specified pipe string and then on its upper side to seal off water from the ocean into the well and strengthen its walls (see Fig. 1).

Cement mortar for filling the annulus is pumped from the platform through the pipes into the distributor, or the cement mortar is lowered into the well together with the distributor, the pipe filled with cement mortar, a plunger and a drill pipe string with cylinders.

When the distributor stops at the upper end of the casing of a smaller diameter due to the gravity of the drill pipe string, the plunger squeezes the cement mortar through the ball valve channel into the distributor cavity and through the windows into the annulus.

Drilling in solid rocks continues with a smaller bit diameter and drill pipes with cylinders to the gas and oil layer of the rock.

Then, the deep plunger oil pump 31 (see Fig. 3) is assembled connected to the column of pump rods 20 with cylinders and elevator pipes 33 with cylinders 34 and at the same time they are lowered into the cavity of the column of permanent marine casing water separating pipes 5 with cylinders 6, and then to the bottom of the well in the oil layer to a depth of 3050-18000 m or more. A column of marine casing risers 5 for permanent use is connected to a self-propelled floating platform 1.

The columns of the elevator pipes and the sucker rods with the cylinders of the submersible plunger pump and the column of permanent marine casing risers are constantly stretched in the direction of the water surface, therefore, the tensile and compressive load in the cross section of the pipes and rods of the pump and casing and in the threaded connecting units from dead weight is reduced, and therefore, their long and safe operation during the operation of oil wells is guaranteed.

Based on the Archimedes law, the buoyancy force depends on the volume of gas in the tank and the density of sea water or oil. One cubic meter at a density of ordinary water of 1 t / m ^{3, the} buoyancy of the cylinder is 1000 kg. The buoyancy force, which depends on the volume of gas in the cylinder, must be greater than the mass of the drill pipe and its cylinder, the mass of the sea water separating pipe and its cylinder, the mass of the lift pipe and its cylinder and the mass of the pump rod. For sucker rods there are restrictions determined by the standard dimensions of the elevator pipes, the outer diameter of which is 112.5 mm and 173.5 mm, and the maximum diameter of the pump plunger, equal to 93 mm and 120 mm, corresponding to the inner diameter of these pipes. Based on these limitations, the sucker rods are made of light titanium pipes, the specific gravity of titanium is 4.5 t / m ³ , and steel - 7.8 t / m ³ , in the form of a cylinder filled with gas, on the upset ends of which a round profile thread is used, used at high dynamic and static tensile loads (see figure 3, 4).

In addition, during the operation of the pumping unit, the load on its parts is reduced and smooth movement of the pump plunger and rods is ensured.

You can use rocking machines with lower electric motor power and plunger pumps with a larger plunger diameter, and therefore increase their productivity.

The use of sea water from the ocean in a pumping unit, pumped through a pipe to a pipe string or by gravity through pipes, to a valve and said pipe string and to a layer of oil, is allowed in exceptional cases (figure 3 does not show the specified pumping unit). If the plunger pump cannot be lowered to the maximum depths associated with the strength of the metal of the sucker rods and elevator pipes with cylinders, with low ground pressure on the oil layer and the presence of liquid and light oil in the oil layer, oil does not rise into the wellbore. Viscous and heavy oil cannot be pushed out of the oil layer onto the surface of the platform into oil tanks by water.

To protect the platform from ice pressure on the body and prevent its movement relative to the wellhead, the platform is equipped with an icebreaker to destroy and clean ice along the perimeter of the platform.

In addition, a wedge-shaped safety belt is installed on the outside of the platform in the lower part of the platform, which not only increases the rigidity of the platform body, but when ice forms and its pressure on the platform body increases, the wedge destroys the ice and relieves pressure from the ice, providing this safe operation of the platform in arctic conditions (see figure 1).

It is impossible to drill oil and gas wells without an icebreaker, and it is impossible to exploit them, because the endless fields of drifting ice 1.5-2.5 m thick are continuously moving, destroying everything that they met on their way.

The developed design of the floating platform for the operation of oil and gas stations avoids a catastrophe during the formation of tsunami waves with a height of 20 m during earthquakes, nuclear and thermonuclear explosions and during hurricanes in the seas and oceans during the passage of these waves between the lower and upper parts of the platform, to reduce platform vibrations, rocking machine, compressor and pumping stations and improve working conditions for oil and gas workers.

Claims (1)

A floating platform for drilling and operating offshore wells in the waters of the seas and oceans and in arctic conditions, containing a main engine-generator, electric motors for propelling propellers, captain’s cabin and ship control mechanisms, a drilling rig, a pump, drill and casing pipes, a rock cutting bit, lift pipes and sucker rods, oil submersible pump or pumping unit, oil tanks associated with the pipeline and plunger pump, installed between the wellhead and connected with the reservoir teaching the platform a marine casing riser with cylinders fixed on its outer surface along the entire length, characterized in that the self-propelled floating platform for drilling oil and gas wells is equipped with an icebreaker to protect it from destruction and displacement relative to the wellhead with an endless field of drifting ice, in addition to the icebreaker with the wedge-shaped safety belt is installed on the outer side of the indicated platform in its lower part along the perimeter, the angle of inclination of the wedge planes is 5-85 °, to increase stiffness and the case of the platform and for self-destruction of ice when it is compressed around the entire perimeter of the body of the specified platform, an electric generator driven by an internal combustion engine with thyristor valves is connected through a contact switch to a DC traction motor, the shaft of which is connected by couplings to the shafts of the gearbox and to the shaft of the bevel gear , with a bevel wheel with a hub in which a cylindrical cavity is made, slots are made on the upper side of the hub, into which the hub with slots is mounted rotate spruce drill rig, on the inside of which a cylindrical cavity with a diameter of 2050 mm is made for installing a string of temporary marine casing risers with positive buoyancy fixed to its surface along the entire length, the outer diameter of which is 2000 mm for the specified string of marine casing risers of temporary use with a diameter of 1600 mm, in addition to the column of marine casing risers of temporary use, in which the drill pipe is located UB with cylinders with an external diameter of 300-850 mm for the indicated drill pipes with a diameter of 48.3-114.3 mm, and a rock cutting bit for the period of drilling soft rocks and installing in its cavity a string of marine casing pipes without cylinders for attaching a soft roof wells and the same column of permanent use marine casing pipes with cylinders above the mouth of the indicated well over the entire height of the ocean water column to the floating platform, or a drill pipe string with cylinders and rock cutting bit, which is located with supports direct to the rock to be destroyed for the period of drilling soft rocks and installing a casing string without cylinders for fastening the soft roof of the well and the same casing string of permanent casing water separators with cylinders with an outer diameter of 1550 mm for permanent casing marine casing pipes with a diameter of 900 mm installed above the mouth of the indicated well along the entire height of the ocean water column to the floating platform, or a cylindrical cavity of dia 1650 mm trom for the specified drill pipe string with cylinders and rock cutting bit located directly resting on the rock being destroyed for the period of soft rock drilling and installation of the offshore casing pipe string without cylinders, for fastening the soft roof of the well with the installation of a robot with a video camera on the specified string, for accurate determination of the wellhead at the bottom of the ocean and its inspection during operation, and the same casing casing riser with cylinders above the mouth of the specified well over the entire height of the ocean water column and to a self-propelled floating platform for long-term use, for lowering a string of offshore casing pipes of a smaller diameter in difficult geological conditions of the earth, an adapter with a right-hand thread is installed on its upper side, which is connected to a pipe string with a left-hand thread with cylinders, the outer diameter of which is 300 -850 mm, after installing smaller casing pipes in the borehole when the rotor of the drilling rig rotates counterclockwise, the adapter comes out of the thread and it is lifted with a winch to the pipe string the deck of the platform, for cementing the annulus, a cement solution is prepared with sea water and a setting retarder, and it is pumped through pipes with cylinders with a diameter of 300-850 mm through a ball valve channel with a spring into the distributor in which the windows are made, or the distributor is connected to a pipe, the cavity of which is filled with cement mortar, a plunger is installed on the upper side of the pipe, which acts as a plunger pump, which is connected to the drill pipe string with cylinders, or drill pipes are connected to cylinders, at the ends of which a thread is cut, the outer diameter of which is 300-850 mm, the lower part of the marine casing pipe is cemented, and then its upper part, drill pipes and water separating temporary and permanent marine casing pipes are made in the form of pressure-filled nitrogen gas or inert gas of cast or welded removable cylinders in the form of a cast shell and pipe with one weld on each side, or in the form of pipes with plugs with two welds on each side, or cylinders on a drilling or water separating offshore casing pipe, they are fixedly mounted in the form of a cast shell with one weld on each side or with the indicated pipes and the outer tube of the cylinder with plugs with two welds on each side, and a floating platform for long-term operation of oil and gas offshore wells any weather conditions is made in the form of its lower part, which is located under a layer of 0.5-20 m of water, and its upper part, mounted on racks or pipes, which is located above sea level or ocean ot 3-20 m, the upper and lower parts of the indicated platform are anchored to the rock with anchors, cables with cylinders, pressurized with nitrogen gas or inert gas at great depths, and at shallow depths with anchors and cables, a rocking machine is installed on the upper part of the platform , compressor or pump station and storage tanks for oil, for a deep pump installation, the sucker rod is made of a titanium tube in the form of a cylinder, the outer diameter of which is 60.3 mm, 73 mm, 88.9 mm, the round end of which is cut I have a thread that is connected to a sleeve with a round thread profile, and the elevator pipe is made in the form of a solid-filled or inert gas filled under pressure with nitrogen gas or inert gas, the outer diameter of which is 300-850 mm, for the outer diameter of the elevator pipe is 112.5 mm, 137.5 mm, or the cylinders on the elevator pipe are fixedly mounted in the form of a cast shell with one weld on each side, or the indicated elevator pipe and the outer tube of the cylinder with plugs with two welds on each side, on the sea Sensors are installed for the casing of the temporary or permanent casing string to warn the floating means of its location, and windows for communication with the annulus are made in its lower part, and a pipe with sealing devices with load bearing on the annular belt is installed on the outer surface of the marine casing of the casing string the specified marine riser, suspended on ropes with balloons to the upper part of the floating platform, with the possibility of overlapping said windows during drilling and periodically opening them, or for a deep pumping installation, which is installed in the cavity of the column of said water separating marine casing pipes with permanent cylinders, and in the well, which is made in the form of a pipe string with cylinders for lifting oil from the oil layer and a pipe string with cylinders for supply of sea water through a pipeline from the ocean with a pump at a pressure of 24.5 MPa into the well, or sea water by gravity from the ocean through a pipe, valve and said pipe string flows into its lower part through a water distributor with connected to the windows of the pipe for lifting oil from the well in its lower part, and for the removal of oil from the oil layer, the windows of the specified pipe are located above the accumulated water in the oil layer, the specific gravity of liquid and low-viscosity oil is less than the specific gravity of water, oil that is displaced by water from the oil layer, rises along the pipe string into oil tanks.

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