RU143017U1 - BINDING OF AN INTER-COLUMN SPACE OF A LOW-OIL AND GAS-CONDENSATE WELL WITH INTER-COLUMN GAS MANIFESTATIONS - Google Patents

Abstract

Tying the annulus of a sparse oil and gas condensate well with annular gas manifestations, characterized in that it contains a well with a wellhead located in the mine well, with a multi-section column head located on it, each section of which is equipped with a valve that overlaps the corresponding annular space, to the lower lower casing borehole space, a square is connected, to the vertical end of which a lower dividing valve is connected, which attached to the tee, one end of which is connected with the upper valve overlapping upper annular space of the well and the second end - with a safety valve and the upper separating valve, which in turn is connected to a tee located in the annulus between zadavochnom withdrawal valves.

Description

The utility model relates to the oil and gas industry, namely to the binding of the annulus of low-yield oil and gas condensate wells operating with annular gas manifestations.

Known cluster piping of gas wells with annular gas shows, including wells with mouths arranged in pairs on the same line, strings of flowing fittings are placed parallel to the axis of the wellbore, flow lines of paired wells are placed perpendicular to the axis of the wellbore and fixed to common anchor devices, flow lines are connected to the flare the line and the gas collector, the intercolumn spaces of paired wells are equipped with intercolumn bends, interconnected by means of a tee to which union of flare removal, and equipped with latch tee by which flare is connected to the outlet line of the flare, the flare removal placed between two parallel lines of flow at their common anchor devices [RU №111578 U1, IPC E 21 B 43/12 (2006.01), publ. 12/20/2011].

The disadvantage of this piping is that its implementation requires significant capital investments related to the construction of an additional flare outlet and the inability, if necessary, to pump a sealing composition into the annular space to eliminate annular gas displays.

The task of creating a utility model is to increase the reliability and uncontrolled safety of the operation of wells with intercolumn gas manifestations.

The achieved technical result, which is obtained as a result of creating a utility model, consists in providing the possibility of pumping sealing compositions into the annular space to eliminate annular gas manifestations with minimal capital and operational costs for the arrangement.

The task and the technical result are achieved in that the piping of the annulus of a low-depleted oil and gas condensate well with annular gas manifestations includes a well with a wellhead located in the mine well, with a multi-section column head placed on it, each section of which is equipped with a valve that overlaps the corresponding annular space to the bottom , overlapping the lower annular space of the well, a square is connected, to the vertical end of which is connected the bottom separation valve, which is connected to the tee, one end of which is connected to the upper valve, overlapping the upper annulus of the borehole, and the second end to the safety valve and the upper separation valve, which in turn is connected to the tee located on the backflow between the annular valves .

In FIG. The claimed strapping of a low-depleted oil and gas condensate well with intercolumn gas manifestations equipped with a two-section column head is schematically depicted.

The utility model includes a well with a wellhead 1 located in a mine well 2. At the wellhead 1 there is a multisection column head 3, each section of which is equipped with a valve 4 that overlaps the corresponding annular space of the well, lower or upper.

On the multisection column head 3, a pipe head 5 is placed, provided on opposite sides with a flick 6 and a back-end 7 taps. An annular valve 8 and 9 are located on the flap bend 6, and an annular valve 10 and 11 are located on the inflow branch 7. A tool flange 12 is located between the valves 8 and 9, and a tee 13 is provided between the valves 10 and 11, which provides communication with the annulus of the well.

On the tube head 5 there is a tee-type fountain tree, the trunk of which is made of a central 14 and a stem 15 gate valves located one above the other, the lower 16 and upper 17 tees and the buffer gate 18.

To the upper tee 17 is attached a working string 19 with two string latches 20. 21 and a tool flange 22 located between them.

A backup string 23 with two string latches 24. 25 and an instrumental flange 26 located between them is connected to the lower tee 16.

The working string 19 by means of a tee 27 is connected to the discharge tap 6 of the pipe head 5, forming a flow line 28.

At the end sections of the backup string 23 and the back-end tap 7 of the pipe head 5, tees 29 and 30 are placed, to one branch of which is connected through a gate valve 31 or 32 a flare line 33 or 34, and to the other, through a gate valve 35, a back-up line 36 or 37, on the ends of each feed line 36 and 37 are equipped with end shut-off valves 38 with quick-release couplings 39, and at the ends of the flare lines 33 or 34, there are burners 40 displayed in the barn 41.

An angle 42 is attached to a valve 4. that blocks the lower annulus of the well, to the vertical end of which a lower isolation valve 43 is connected, which is connected to a tee 44, one end of which is connected to a valve 4 that closes the upper annulus of the well, and the other end with a safety valve a valve 45, on which the upper dividing valve 46 is located, which in turn is connected to a tee 13 located on the filling branch 7 between the annular valves 10 and 11.

The inventive utility model works as follows.

During operation, gas from the reservoir through the trunk of the Christmas tree through the open central 14 and stem 15 gate valves, along its working string 19 and flow line 28 enters the gas collection manifold and then to the complex gas treatment unit (not shown).

When intercolumn gas occurrences occur during operation, gas accumulating in the annulus of the well through open valves 4, 43 and 46 located in the mine well 2 through the safety valve 45 that opens when the annular pressure exceeds a set valve value equal to the maximum permissible value of the annular pressure of a given well, enters through the tee into the back-off tap 7, then through the tee 29, the open shut-off valve 31 enters the torch line 33 and burns out on burner 40 in barn 41.

In the event of an emergency increase in gas flow from the annulus of the well above the value of the flow rate, the safety valve 45 will close, stopping the flow of gas from the annulus to the flare line 33.

With a further increase in gas flow from the annulus of the borehole through the inflow line 36 connected to the inflow outlet 7 of the pipe head 5, it is possible to carry out emergency pumping of the sealing composition into the annular space of the well, having previously closed the shut-off valve 31 on the flare line 33 by connecting to the quick-disconnect connection 39 of the pump unit for feeding through the end shut-off valve 38 of the sealing composition and the termination of gas.

In the case of killing a well or flushing it through a filling line 37 connected to a backup string 23, it is possible to pump in a filling liquid or flushing liquid into the pipe space, having previously closed the shut-off valve 32 on the flare line 34, which is open through the pipe annulus of the well, opening 7. the gate valve 31 when the gate valve 33 is closed will enter the flare line 32 and into the barn 41 or the collection tank (not shown).

An example implementation of the claimed utility model.

Example 1. The piping of the well with intercolumnar gas manifestations includes a two-section column head OKK2-350-168 × 245, equipped with gate valves 60 × 35, blocking the annular space of the well, pipe head TG 100 × 35, equipped with gate valves 100 × 35, blocking the annulus, Christmas tree EF 100 × 35. The fountain tree of the tee type contains the central, stem and buffer valves of the ZMS 100 × 35, the lower and upper tees, the working and reserve strings with a conditional diameter of 100 mm. The working string is connected to the discharge tap of the pipe head, forming a flow line with a conditional diameter of 100 mm. On the end sections of the backup string and the back-end of the pipe head, tees are placed, to one branch of which a flare line with a nominal diameter of 100 mm is connected, and to the other a back-end line with a conditional diameter of 100 mm. ZMS 100 × 35 end shut-off valves with BRS-100 quick couplings are located at the ends of the filling lines, and burners are located at the ends of the flare lines. A 60 × 60 elbow is connected to the lower gate valve that overlaps the lower annular space of the well, a 60 × 35 ZMS isolating valve placed in a vertical plane, a 60 × 60 × 60 tee connected to a valve that overlaps the upper annular space, the ZMS 60 × 35 isolating valve, KP-14 safety valve, which in turn is connected to the by-pass tap with a nominal diameter of 100 mm.

Example 2. The piping of the well with intercolumnar gas manifestations includes two OKK2-350-146 × 245 sectional casing head equipped with 60 × 35 ZMS valves overlapping the well annulus, TG 80 × 35 pipe head equipped with 80 × 35 ZMS valves covering the annulus , Christmas tree EF 80/65 × 35. The fountain tree of the tee type contains the central, stem and buffer valves of the ZMS 80 × 35, the lower and upper tees, the working and reserve strings with a conditional diameter of 65 mm. The working string is connected to the discharge tap of the pipe head, forming a flow line with a conditional diameter of 80 mm. Tees are placed at the end sections of the reserve string and the outlet tap of the tube head, to one branch of which a flare line with a nominal diameter of 80 mm is connected, and to another - a filling line with a nominal diameter of 80 mm. At the ends of the feed lines, end shut-off valves of the ZMS 80 × 35 with quick disconnect connections BRS-60 are placed. and at the ends of the flare lines are burners. A 60 × 60 elbow is connected to the lower gate valve that overlaps the lower annulus of the well, a 60 × 35 ZMS isolating valve located in a vertical plane, and a 60 × 60 × 60 tee. connected to the valve blocking the upper annular space, the separation valve ZMS 60 × 35, the safety valve KP-14, which in turn is connected to the by-pass tap with a nominal diameter of 100 mm.

Example 3. The piping of the well with intercolumnar gas manifestations includes two OKK2-350-140 × 245 sectional casing head equipped with 60 × 35 ZMS valves overlapping the well annulus, TG 80 × 35 pipe head equipped with 80 × 35 ZMS valves covering the annulus , Christmas tree ΕΦ 80/65 × 35. The fountain tree of the tee type contains the central, stem and buffer valves of the ZMS 80 × 35, the lower and upper tees, the working and reserve strings with a conditional diameter of 65 mm. The working string is connected to the discharge tap of the pipe head, forming a flow line with a conditional diameter of 80 mm. Tees are placed at the end sections of the reserve string and the outlet tap of the tube head, to one branch of which a flare line with a nominal diameter of 80 mm is connected, and to another - a filling line with a nominal diameter of 80 mm. At the ends of the filling lines, end shut-off valves of the ZMS 80 × 35 with quick disconnect connections BRS-60 are located, and at the ends of the flare lines there are burners. A 60 × 60 elbow is connected to the lower gate valve that overlaps the lower annular space of the well, a 60 × 35 ZMS isolating valve placed in a vertical plane, a 60 × 60 × 60 tee connected to a valve that overlaps the upper annular space, the ZMS 60 × 35 isolating valve, safety valve KP-14, which in turn is connected to the by-pass tap with a nominal diameter of 100 mm. Flare lines 33 and 34 are attached to anchors 47.

The inventive utility model allows tying the intercolumn spaces of a low-depleted gas condensate well with the safe release of gas from the intercolumn spaces of the well, while observing the safety of pumping filling compositions at the minimal cost of their arrangement.

Claims (1)

Tying the annulus of a sparse oil and gas condensate well with annular gas manifestations, characterized in that it contains a well with a wellhead located in the mine well, with a multi-section column head located on it, each section of which is equipped with a valve that overlaps the corresponding annular space, to the lower lower casing borehole space, a square is connected, to the vertical end of which a lower dividing valve is connected, which attached to the tee, one end of which is connected with the upper valve overlapping upper annular space of the well and the second end - with a safety valve and the upper separating valve, which in turn is connected to a tee located in the annulus between zadavochnom withdrawal valves.