RU2493356C1 - Method for eliminating open flows in oil and gas wells, and device for demounting well-control equipment from flowing wellhead - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: metal works and well-control equipment are demounted in the territory surrounding a flowing wellhead within the flame exposure. The blowout equipment and bypass pipe assembly constructed in the flowing wellhead. A wellhead tackle and rope slings are washed with a coolant fluid. The flame is carried off through the bypass pipe at a safe height, and the well is killed. The well-control equipment is demounted from the flowing wellhead by plasma arc cutting by means of guided and freely movable vertically and horizontally neck having a supported cutting burner with a graphite electrode at the end. The hole is mounted on a screening baffle plate placed on a travelling sledge movable both vertically and horizontally in relation to the flowing wellhead.

EFFECT: higher reliability, higher safety and acceleration of demounting the well-control equipment.

2 cl, 1 dwg

Description

 The invention relates to the oil and gas industry, in particular to the elimination of open fountains in oil and gas wells, in particular to the removal of fountain valves from the mouth of flowing wells in the process of eliminating open burning fountains in gas, gas condensate and oil wells.

From experience in the elimination of open burning fountains in oil and gas wells, it is known that the extinguishing of the flame of a burning fountain is initially carried out and only then they begin work to eliminate the open fountain.

There is a method of eliminating open fountains in oil and gas wells, including cleaning the area around the mouth of the gushing well in the heat-affected zone of the flame from metal structures, removing gunshots from the mouth of the fountain reinforcement, exposing the flame by spraying with coolant and killing the well [Equipment and tools for warning and liquidation of fountains / V.R. Radkovsky et al. - M.: Nedra, 1996.- P.142].

The disadvantage of this method is the significant length of coordination and obtaining permission to use artillery guns to shoot and remove the fountain reinforcement from the mouth of the gushing well and the complexity of its delivery to the place of the fountain and fire, insufficient reliability and the duration of operations to shoot the fountain armature from the mouth of the gushing well, the occurrence of fog with constant irrigation of the mouth of the gushing well and the area near it, leading to complete loss of visibility and obstructing the continuity of the work, which entails stopping the process of liquidation of open burning fountain, increase the duration and cost of these works. There is a high probability of spontaneous combustion of liquid hydrocarbons spilled during the gushing of the well after extinguishing the fountain, which is confirmed by the experience of liquidation of fountains in the north of the Tyumen region.

There is a method of eliminating open fountains in oil and gas wells, including cleaning the area around the mouth of the gushing well in the heat-affected zone of the flame from metal structures, removing gunshots from the mouth of the fountain reinforcement, guarding blowout equipment (AA) at the mouth of the gushing well assembled with an outlet pipe suspended on a rope rig of a spreader frame, irrigation of a rope rig of a spreader frame and rope loops at the mouth of a gushing well coolant, flame removal through a branch pipe to a safe height and well killing [RU No. 2231627 C1, IPC ⁷ ЕВВ 35/00, publ. 06/27/2004].

The disadvantage of this method is the significant length of coordination and obtaining permission to use artillery guns to shoot and remove fountain fittings from the mouth of the gushing well and the complexity of its delivery to the place of the fountain and fire, insufficient reliability and the duration of operations to shoot the fountain fittings from the mouth of the gushing well.

Known installation for removal from the mouth of the fountain reinforcement, including an artillery gun and firing of the fountain reinforcement [Equipment and tools for the prevention and elimination of fountains / V.R. Radkovsky et al. - M.: Nedra, 1996.-S.142].

The disadvantage of this installation is the considerable length of coordination and obtaining permission to use artillery guns to shoot and remove fountain fittings from the mouth of the gushing well, the complexity of its delivery to the place of the fountain and fire, insufficient reliability and the duration of operations to shoot the fountain fittings from the mouth of the gushing well.

A known installation for removing from the mouth of the fountain reinforcement, including an artillery gun and firing the fountain reinforcement [RU No. 2231627 C1, IPC ⁷ Е21В 35/00, publ. 06/27/2004].

The disadvantage of this installation is the considerable length of coordination and obtaining permission to use artillery guns to shoot and remove fountain fittings from the mouth of the gushing well, the complexity of its delivery to the place of the fountain and fire, insufficient reliability and the duration of operations to shoot the fountain fittings from the mouth of the gushing well.

The challenge faced by the invention is to develop a reliable and safe method for eliminating open burning fountains in oil and gas wells.

The technical result achieved by the invention is to ensure reliability, increase safety and speed up the process of removing fountain fittings from the mouth of a gushing burning well by cutting it off from a plasma cutting casing in a fire flame while reducing the duration and laboriousness of works to eliminate open burning fountains.

The task and the technical result for the object - the method is achieved by the fact that in the known method of eliminating open fountains in oil and gas wells, including cleaning the area around the mouth of the gushing well in the heat-affected zone of the flame from metal structures, removing fountain fittings from the mouth of the gushing well, pointing to the mouth of the gushing blowout preventer wells assembled with a branch pipe suspended on a rope rig of the spreader frame, irrigation of the rope rig and canal loops at the mouth of the gushing well with coolant, the flame is removed through the bypass pipe to a safe height and well killing, in contrast to the prototype, the fountain fittings are removed from the mouth of the gushing well by plasma cutting using a well-guided and freely moving in the vertical and horizontal planes of the barrel with at its end, using a holder with a cutter with a graphite electrode, with constant irrigation of the barrel through a water collector located on the barrel, while the barrel is fixed on a shielding baffle mounted on a mobile sleigh with the ability to move them in vertical and horizontal planes relative to the mouth of the gushing well.

The task and the technical result for the object - the device is achieved by the fact that the device for removing gushing from the mouth of the gushing well contains a shielding baffle with a canopy and side protective plates, with a through hole covered by a refractory fabric, and with a viewing slot mounted on a movable the vertical direction of the platform, placed on a horizontally movable sleigh, a barrel suspended by articulation on refractory elastic straps on the screen a deflecting baffle plate and brought out through a hole in the direction of the mouth of the gushing well, with a water collector located on its upper outer part with the possibility of cooling the barrel through drain holes made in the water collector, with a cutter mounted on its end with a holder in the form of a replaceable graphite electrode and on the other - control handles, extension cord, made in the form of several flexible copper conductive wires, clad in an insulating sheath and connecting the barrel to the apparatus m of plasma cutting, a flexible pressure hose connecting the water collector to the fire truck, while the swivel is located on the inner side of the shielding baffle between the viewing slot and the through hole with the possibility of free radial movement of the barrel relative to the mouth of the gushing well using the control handle in vertical and horizontal planes, and the horizontal movement of the movable sleigh is carried out using a pusher tractor attached by means of cop to the movable sled and the vertical movement of the moving platform with respect to the sledge runners movable insert is fixed with pins inserted into the holes racks movable sled configured as compound "pipe in pipe".

The claimed group of inventions meets the requirement of unity of invention, since it forms a single inventive concept, moreover, one of the objects of the group — the device — is intended to implement another claimed object of the group — the method. In this case, both objects are aimed at solving the same problem with obtaining a single technical result.

Reliability and increased safety and acceleration of the process of removing fountain valves from the mouth of a gushing burning well is ensured by cutting it off the casing by plasma cutting in a fire flame while reducing the duration and laboriousness of works to eliminate open burning fountains.

The drawing shows the layout of the equipment when removing the fountain from the mouth of the gushing well in the process of eliminating an open burning fountain.

The device is mounted on a movable sled 1 and contains a shielding baffle plate 2 with a canopy 3 and side protective plates 4, with a through hole 5 closed by refractory fabric, and with a viewing slot 6. The shielding baffle plate 2 is mounted on a vertically movable platform 7 located on sleighs moving in the horizontal direction 1. The barrel 10 is suspended by means of a swivel joint 8 on refractory elastic (flexible) belts 9 on a shielding baffle plate 2 and brought out through the through hole 5 in the direction the mouth 11 of the gushing well. On the upper outer part of the barrel 10 there is a water collector 14, through the drain holes 15 of which the barrel 10 is cooled. At the end of the barrel 10 facing the mouth 11 of the gushing well, a cutter 13 is mounted using the holder 12. The cutter 13 is made in the form of a replaceable graphite electrode . A control handle 16 is placed at the opposite end of the barrel 10. An extension cord 17 is connected to the cutter 13, made in the form of several (two) flexible copper conductive wires clad in an insulating sheath, and connecting the cutter 13 to the plasma cutting apparatus 18. As a plasma cutting apparatus, it is possible use an electric arc installation with air-water cooling, for example, KEDU-0.4 / 160 (Kirovograd). The water collector 14 is connected to the fire truck 20 by means of a flexible pressure hose 19. A swivel joint 8 is placed on the inner side of the shielding baffle plate 2 between the viewing slot 6 and the through hole 5 with the possibility of free radial movement in the vertical and horizontal planes of the barrel 10 relative to the mouth 11 of the gushing well with the control handle 16. The horizontal movement of the mobile sled 1 is carried out using a pusher tractor 23, connected with a fork to the edvizhnym sledge 1, and the vertical movement of the movable platform 7 relative to the movable sled insert 1 is fixed by pins 22 inserted into the hole 21 of racks movable sled 1. Racks 21 are provided in the form of a compound of "tube in tube".

The method by means of the device is as follows. Initially, the area around the mouth of the gushing well is cleaned in the heat-affected zone of the flame from metal structures.

On a mobile sled 1 (Fig. 1), a device is installed to remove the fountain fittings, including for plasma cutting of the casing string and fountain fittings, consisting of a shielding baffle plate 2 with a canopy 3 and side protective plates 4, with a through hole 5 closed by a refractory with fabric, and with a viewing slot 6. A shielding baffle 2 is mounted on a vertically movable platform 7 placed on a horizontally movable sleigh 1. On a shielding baffle 2 using a swivel joint 8, located between the viewing slit 6 and the through hole 5, on the refractory elastic (flexible) belts 9 hang the barrel 10 and bring it through the through hole 5 in the direction of the mouth 11 of the gushing well. A cutter 13 in the form of a replaceable graphite electrode is installed at the end portion of the barrel 10 using the holder 12, and a water collector 14 is placed on the upper outer part of the barrel 10, which provides cooling of the barrel 10 during plasma cutting through drain holes 15 made in the water collector 14. On at the other end of the barrel 10 is a control handle 16, with the help of which the barrel 10 is moved in the vertical and horizontal directions during the plasma cutting process. The barrel 10 using the extension cord 17, made in the form of several (two) flexible copper conductive wires, clad in an insulating sheath, is connected to the plasma cutting apparatus 18. The water collector 14 is fixed to the upper outer surface of the barrel 10 with the help of gags, connect it using a flexible pressure head sleeves 19 to the fire truck 20. The height of the platform 7 relative to the sled 1 is regulated by vertical movement of the mobile elements of the struts 21 and fixed by insert studs 22 inserted into the holes of the struts 21 p mobile sled 1 made in the form of a pipe-in-pipe connection.

Then the mobile sled 1 with the shielding baffle plate 2 installed on them with the help of the pusher tractor 23 is pulled to the mouth 11 of the gushing well and plasma casing 24 is cut below the grommet 25. Moreover, measures are taken to prevent the cut off gigantic armature 25 from falling onto the shielding baffle shield 2.

Plasma cutting of casing 24 is carried out by a cutter 13, made in the form of a replaceable graphite electrode. As it burns, the spent electrode is replaced by moving the barrel 10 into the inner cavity of the shielding breaker shield 2, carried out on refractory elastic (flexible) belts 9. During plasma cutting, the barrel 10 is continuously cooled by water supplied from the fire truck 20 along the flexible pressure head 19 and the water collector 14 through the drain holes 15 of the collector 14. In winter, the cooling of the barrel 10 is allowed to conduct antifreeze. In the course of the work, the mobile sled 1, the shielding of the baffle plate 2, and the plasma cutting personnel are constantly irrigated with water supplied from the fire monitors (not shown).

With a low location of the cutting site, earthwork is preliminarily carried out to create a foundation pit for placing a sled 1 on its bottom with a shielding baffle 2. If necessary, cut off elements of the fountain fittings 25 located high, the platform 7 with a shielding baffle 2 is raised to the required height using racks 21, made in the form of a “pipe in pipe”, and fixed in this position with studs 22.

After completing the cutting of the fountain fittings 25 from the casing 24 and obtaining at the mouth 11 of the flowing well a stable compact jet of gas, the pusher tractor 23 pulls the sleigh 1 away from the mouth 11 of the flowing well. Using tractors (not shown) carry out the pulling of the cut off fountain 25 from the mouth 11 of the gushing well.

At the mouth of the 11th gushing well, a compact gas stream and an even cut-off line of the casing 24 are obtained, which makes it possible to reliably create a support base for guiding the split column flange and for further work to eliminate the open fountain and fire.

Next, work is carried out on guiding at the mouth of the 11th flowing well: assembling an air defense with a by-pass pipe according to well-known technologies, for example, according to the technology described in the patent of the Russian Federation No. 2231627, and after the flame is removed to a safe height and mounting the air defense, the flowing well is jammed by a known method. For example, a kill fluid (drilling or process fluid) of the appropriate density is pumped into the well, if necessary, additional blocking of the productive formation from the penetration of filtrate of the drilling or process fluid into it is carried out.

The proposed method is more reliable compared to traditional methods of eliminating open fountains, as it increases the reliability and safety of removal of fountains from the mouth of the gushing well, reduces the duration of work and eliminates the need for re-trimming the casing after firing of the fountains using artillery guns. Eliminates the conditions of fog and loss of visibility on the territory of the work due to spot irrigation equipment. It provides safer work to eliminate the fountain itself, as it eliminates the risk of spontaneous combustion of liquid hydrocarbons spilled on the mouth and in the area near the mouth. Unpredictable and unforeseen spontaneous combustion of liquid hydrocarbons, in particular gas condensate, can lead to death of people, destruction of machinery and equipment. Among other things, this method reduces the amount of water and other cooling fluid consumed for irrigating the territory of the bush.

Claims (2)

1. A method of eliminating open fountains in oil and gas wells, including cleaning the area around the mouth of the gushing well in the heat-affected zone of the flame from metal structures, removing fountain fittings from the mouth of the gushing well, guiding blowout equipment assembled at the mouth of the gushing well with a branch pipe suspended from a cable rig spreader frames, irrigation of rope equipment and rope loops at the mouth of the gushing well with coolant, flame removal through the outlet pipe to a safe height and well killing, characterized in that the removal of the fountain reinforcement from the mouth of the gushing well is carried out by plasma cutting using an induced and freely moving in the vertical and horizontal planes of the barrel with a cutter with a graphite electrode placed on its end with a holder while the barrel is constantly irrigated through a water collector located on the trunk, while the barrel is mounted on a shielding baffle mounted on a mobile sleigh with the ability to move them in vertical and horizontal planes relative to the mouth of the gushing well. 2. A device for removing fountain fittings from the mouth of a gushing well includes a shielding baffle with a canopy and side protective plates, with a through hole covered by refractory fabric, and with a viewing slot mounted on a platform that is movable in a vertical direction and placed on a horizontally movable sleigh , a barrel suspended by a swivel on refractory elastic belts on a shielding baffle plate and brought out through a hole in the direction of the mouth of the font a sinking well, with a water collector located on its upper outer part of the barrel with the possibility of cooling the barrel through drain holes made in the water collector, with a cutter in the form of a replaceable graphite electrode mounted on its end with a holder, and on the other a control handle, extension cord, made in the form of several flexible copper conductive wires, clad in an insulating sheath and connecting the barrel to the plasma cutting apparatus, a flexible pressure hose connecting the water collector to a fire truck, while the swivel is placed on the inner side of the shielding baffle between the viewing slot and the through hole with the possibility of free radial movement of the barrel relative to the mouth of the gushing well using the control handle in vertical and horizontal planes, and the horizontal movement of the movable sleigh is carried out using a tractor a pusher attached with a turnbuckle to the mobile sled, and the vertical movement of the movable platform is relative Tel'nykh movable sled runners fixed insert pins are inserted into the holes racks movable sled configured as compound "pipe in pipe".