SU936821A3 - Spray unit for burning gas at stationary sea platform - Google Patents

Abstract

Off-shore oil field production equipment with a production platform anchored on the ground of the drilling site, comprising a column pivotally connected through a universal cardan joint coupling to a base anchored to the sea bed in connection with a remote-located floating gas flare for burning gas extracted from the oil, wherein said gas flare is carried by a floating structure coming up into the wind while being connected to a swivel head of the column by means of a pivoted holder.

Description

The invention relates to offshore oil production, in particular to installations for burning gas on offshore production platforms - flare units.

Known flare unit for burning gas on a stationary platform, containing a vertical mast, a gas pipeline connecting the flare unit with equipment for separating oil from gas U

The disadvantage of such a flare installation is the difficulty of erecting a mast exceeding the height of all structures · platforms, as well as the use of its useful production area.

Also known is a flare installation for burning gas on an offshore stationary platform during the operation of subsea oil wells, containing a column connected to the platform, a mast, a flare riser, a gas pipeline connecting the separation equipment to a flare riser £ 2].

In the indicated flare installation, the mast is located cantilever to the side of the platform and does not occupy usable area, however, when the wind is directed towards the platform, the flame can spread to the living quarters, and gases poison the atmosphere.

The aim of the invention is the removal of the flare 'installation from the platform. we, without increasing the size of the platform.

This goal is achieved by the fact that the mast and the flare riser are mounted on a floating support, to which at least one lever is pivotally connected, the other end of which is pivotally connected to the rotating head of the platform, and the floating support is made in the form of a trellised truss having positive buoyancy.

Two horizontally located levers pivotally connected to the column are pivotally attached to the floating support.

The floating support is made in the form of a float rigidly connected to the mast, to which a horizontal lever and a diagonal forming a strut are hingedly connected to the column and to each other.

In addition, the levers are attached to a rotating head and a ring mounted on a column below sea level and having the possibility of rotation.

In FIG. 1 depicts an operational platform with an installation for a gas-flue gas generator and a storage platform, general view; in FIG. 2 ~ part Foundation and platforms; in FIG. 3 “floating support; in FIG. 4 is a section AA in FIG. 3; in FIG. 5 "floating support! Parallelogram type on rotating parts; in FIG. 6 - floating support parallelogram type on ball joints; in FIG. 7 - floating support with strut; in FIG. 8 floating support during the unrest of the sea.

The fixed offshore platform installed on column 1 has the ability to swing on the foundation 2. It has a flare unit 4 in the upper rotating head 3 for gas combustion during the operation of subsea oil wells 5 · Crude oil from the wells is collected in the reservoir 6, from where it is sent via pipeline 7 into the separator 8.

Well exits can be passed through the foundation, if its dimensions allow the placement of oil wells.

After the separator, the gas is separated from the oil and flows through the rotary seals 9 and 10 of the head into the gas pipeline 11 connected to the head and platform 12, and the oil separated from the gas moves through the pipeline 13 to the offshore stationary storage platform 14, where it is collected in the underwater oil storage 15, which is at the same time the foundation of the platform.

From the oil storage tank, oil is pumped by the pump 16 through the filling sleeve 17 through a rotating head with an arrow 18 to a tanker 19

The flare installation is arranged so that the mast 20 and the flare · riser 21 are mounted on a floating support 22, to which a lever 23 is pivotally connected, the other end of which is movably connected to the column head. Floating support 22 is made in the form of a lattice truss of pipes and has positive buoyancy. The lever 23, also made lattice, on the one hand, is pivotally fixed along the horizontal axis B-B with the rotating head 3 of the platform, and, on the other hand, along the axis B-B it is attached to the floating support 22. The dimensions of the pipes of the floating support are calculated in such a way so that the waterline is 15 approximately in the middle of the farm section (Fig. 4). Lever and floating support pipes can be used as a gas pipeline, but an independent gas pipeline is used for reliability.

The floating support of the flare unit can be made in the form of a float 24 with a mast 25, to which two horizontally 25 located upper levers 26 and lower 27 are pivotally attached at the other ends on hinges 28 and 29 with a column, forming a parallelogram lever. The lower arm is connected to the platform ₃₀ by means of a ring 30 which rotates around the platform column and is mounted below sea level. The gas pipeline 11 of the flare unit is laid along the upper arm 26 and is reinforced with a trellised truss 31, which is used as a pedestrian bridge between the platform and the torch riser 21. If the platform does not have a rotating head 3 and ring 30, the levers are connected to the platform at level ⁴⁰ hinges 32 and 33 · In another embodiment, the flare riser is connected to the platform by horizontal 34 and diagonal 35 levers, with diagonal lever ⁴⁵ forming a strut.

In all connection options, the flare unit is fenced with a heat shield 36.

Claims (2)

(5) FLAKE PLANT FOR BURNING GAS ON A MARINE STATIONARY PLATFORM The invention relates to offshore oil production, in particular to installations for burning gas on offshore operating platforms - flare units. The known flare unit for gas combustion on a stationary platform, containing a vertical mast gas pipeline connecting the flare unit with gas separation equipment from gas tl J. The disadvantage of such a flare unit is the difficulty of erecting the mast, exceeding the height of all platform structures, as well as use of its useful production area. Also known is a flare unit for gas combustion on a marine stationary platform during operation of subsea oil wells, containing a column associated with a platform, a mast, a flare tower, a gas pipeline. connecting separation equipment with flare table f2j. In this flare installation, the mast is located console to the side of the platform and does not occupy a useful one, however, with the direction of the wind towards the platform, the flame may spill over into living quarters and the gases will poison the atmosphere. The aim of the invention is to remove the flare from the platform. we, without increasing the size of the platform. This goal is achieved in that the mast and flare stand are mounted on a floating support to which at least one lever is pivotally attached, the other end of which is pivotally connected to the rotating head of the platform, with the floating support having a positive buoyancy. 39 Two horizontally positioned levers, pivotally connected to the column, are hinged to the floating support. The floating support is made in the form of a float, rigidly connected to the machi that is rigidly attached to the pivotally connected to the column and between itself a horizontal lever and diagonal, forming a strut. In addition, the levers are attached to a rotating head and a ring mounted on the column below the sea level and having the possibility of rotation. In FIG. 1 shows an operating platform with a facility for gas flaring and a storage platform, a general view; in fig. 2 part of the platform’s bundle; in fig. 3 floating support; in fig. k is a section A-A in FIG. 3; in fig. 5 floating support | parallelogram type on rotating parts; in fig. 6 — floating bearing of a parallelogram type on ball joints; in fig. 7 floating support with strut; in fig. 8 floating support during rough sea. Stationary mounted on column 1, the offshore platform has the ability to swing on foundation 2. It has 3 flares for gas combustion in the upper rotating head during operation of subsea oil wells 5- Crude oil from wells is collected in the collector 6, from where pipeline 7 to the separator 8. Well outlets can be passed through the foundation, if its dimensions allow the placement of oil wells. After the separator, the gas is separated from the oil and flows through the rotary seals 9 and 10 of the head into the gas, the wire 11 connected to the head and platform 12, and the oil separated from the gas through pipeline 13 moves to the offshore stationary storage platform 14, where it is collected in a subsea oil tank 15, which is at the same time the foundation of the platform. From the storage tank, oil is pumped by the pumping tank 17 from the tanker 19 through the rotating head with the boom 18 to the tanker 19 The flare unit is arranged so that the mast 20 and the flare unit to 21 are mounted on the floating support 22, 14 to which the other end is pivotally connected with column head. The floating support 22 is made in the form of a trussed tube truss and has positive buoyancy. The lever 23, also made lattice, on the one hand, is pivotally fixed along the horizontal axis B-B with a rotating head 3 of the platform, and, on the other hand, is attached along the axis B-B to the floating support 22. The dimensions of the pipes of the floating support are calculated in this way so that the waterline is approximately in the middle of the ferrite section (FIG.). Lever and floating support pipes can be used as a gas pipeline, but for reliability purposes a self-contained gas pipeline is used. The floating flare support can be made in the form of a track 2 with a mast 25, to which two horizontal arms of the upper 26 and lower 27 levers hingedly attached with the other ends on the hinges 28 and 29 with the column, form a lever parallelogram. The lower arm is connected to the platform by means of a ring 30 rotating around the column platform, which is installed below the sea level. A flare pipe 11 is laid along the upper arm 2b and reinforced with a lattice truss 31, which is used as a pedestrian bridge between the platform and flare 21. In case the platform does not have rotating heads 3 and rings 30, the arms are connected to the platform on ball bearings hinges 32 and 33. Alternatively, the flare stand is connected to the platform by horizontal 3 and diagonal 35 levers, with the diagonal lever forming a strut. In all variants of the connection, the flare unit is enclosed with a heat shield Zb. Claim 1. Flare unit for gas burning on a fixed offshore platform during operation of subsea oil wells, containing a column connected to a platform, a mist, a flare station, a gas pipeline connecting Flare separation equipment, in order to remove the flare unit from the platform without increasing the platform size, the mast and flare station are mounted on a floating support, to which at least one lever is pivotally attached, the other end of which is hinged connected to the rotating head of the column. 2. Installation according to claim 1, in accordance with clause 1, so that the floating support is made in the form of a trellised truss with positive buoyancy, 3- The installation according to claim 1, in connection with the fact that two horizontally arranged levers are pivotally attached to the floating support, which are connected pivotally to the column. C. Installation under item 3, characterized in that the floating The support is made in the form of a float rigidly connected to the mast, to which the pivotally connected to the column and between themselves a horizontal lever and a diagonal one forming a strut are rigidly attached. 5- Installation according to PP, I-, O t. It is that the levers are attached to a rotating head or ring mounted on a column below the sea level and having the possibility of rotation. Sources of information taken into account in the examination 1. The basis for drilling in the sea, used abroad VNIIOENT. M., 1976, p. . 2. Offshore services, (USA), X, v. 7, No. 11, p. 27-28 (prototype). 6 ) FIG L Yy about rj t