초록 ▼

A method is disclosed for injecting lift gas or other fluid into a production conduit of an oil well via one or more wear resistant downhole gas lift flow control devices which each comprise: a tubular valve housing (1) comprising a flow passage (2) having an upstream end (9) which is connected to a

A method is disclosed for injecting lift gas or other fluid into a production conduit of an oil well via one or more wear resistant downhole gas lift flow control devices which each comprise: a tubular valve housing (1) comprising a flow passage (2) having an upstream end (9) which is connected to a lift gas supply conduit and a downstream end (10) which is connected to the interior of the production conduit; a flapper type valve body (3) which is pivotally connected to the valve housing (1) and is arranged in the flow passage (2) such that if the valve body is pivoted in the open position the valve body is oriented substantially parallel to the flow passage and that if the valve body is pivoted in the closed position the valve body is oriented substantially perpendicular to the flow passage and is pressed against a ring shaped valve seat (4), thereby blocking passage of lift gas through the flow passage (2); a valve protection sleeve (5) which is slidably arranged in the flow passage (2) between a first position (shown in FIG. 2) wherein the sleeve (5) extends through the ring-shaped valve seat, whilst the valve body (3) is pivoted in the open position thereof, thereby protecting the valve body and seat against wear by the flux of lift gas or other fluid and a second position (shown in FIG. 1) wherein the sleeve (5) extends through the section of the flow passage (2) upstream of the valve seat (4), whilst the valve body (3) is pivoted in the closed position thereof; and a flow restrictor (8) forming part of the valve protection sleeve (5), which is dimensioned such that the flux of lift gas flowing through the flow restrictor (8) creates a pressure difference which induces the sleeve (5) to move towards the first position.

대표청구항 ▼

We claim: 1. An apparatus for injecting lift gas into a production conduit of an oil well via one or more downhole gas lift flow control devices comprising: a tubular valve housing comprising a flow passage having an upstream end which is connected to a lift gas supply conduit and a downstream end

We claim: 1. An apparatus for injecting lift gas into a production conduit of an oil well via one or more downhole gas lift flow control devices comprising: a tubular valve housing comprising a flow passage having an upstream end which is connected to a lift gas supply conduit and a downstream end which is connected to the interior of the production conduit; a flapper type valve body which is pivotally connected to the valve housing and is arranged in the flow passage such that if the valve body is pivoted in the open position the valve body is oriented substantially parallel to the flow passage and that if the valve body is pivoted in the closed position the valve body is oriented substantially orthogonal or perpendicular to the flow passage and is pressed against a ring shaped valve seat, thereby blocking passage of fluids through the flow passage; a valve protection sleeve which is slidably arranged in the flow passage between a first position wherein the sleeve extends through the ring-shaped valve seat, whilst the valve body is pivoted in the open position, thereby protecting the valve seat and valve body against wear by the flux of lift gas or other fluids and a second position wherein the sleeve extends through the section of the flow passage upstream of the valve seat, whilst the valve body is pivoted in the closed position, said sleeve having an upstream end and a downstream end; a flow restrictor forming part of the valve protection sleeve, which is dimensioned such that the flux of lift gas or other fluids flowing through the flow restrictor creates a pressure difference which induces the sleeve to move towards the first position; and a first seal ring disposed between the sleeve and the housing upstream of the valve seat; wherein the downstream end of the sleeve includes a tapered section where the outer diameter of the sleeve decreases in the downstream direction, such that the outer surface of the tapered section of the sleeve is pressed against the inner surface of the seal ring when the sleeve is in the first position, thereby providing a fluid tight seal in the annular space between the tapered section of the sleeve and the housing when the sleeve is in the first position and such that said first seal ring only loosely engages the tapered section of the sleeve when the sleeve is in the second position. 2. The apparatus of claim 1, wherein a second flexible sealing ring is arranged in the tubular housing downstream of the first sealing ring, which second sealing ring is configured as a stop for the sleeve when the sleeve is moved into the first position. 3. The apparatus of claim 2, wherein the first and second sealing rings are made of an elastomeric material and define a sealed annular enclosure in which the flapper valve body and seat are arranged when the sleeve is moved in the first position. 4. A method of producing crude oil through a production tubing, wherein crude oil production is enhanced by injecting lift gas into the production tubing by means of the apparatus according to claim 1. 5. A gas lift flow control device for injecting lift gas or other fluid into a production conduit of an oil well, comprising: a tubular valve housing comprising a flow passage having an upstream end which is configured to be connected to a lift gas supply conduit and a downstream end which is configured to be connected to the interior of the production conduit; a flapper type valve body which is pivotally connected to the valve housing and is arranged in the flow passage such that if the valve body is pivoted in the open position the valve body is oriented substantially parallel to the flow passage and that if the valve body is pivoted in the closed position the valve body is oriented substantially perpendicular to the flow passage and is pressed against a ring shaped valve seat, thereby blocking passage of lift gas through the flow passage; a valve protection sleeve which is slidably arranged in the flow passage between a first position wherein the sleeve extends through the ring-shaped valve seat, whilst the valve body is pivoted in the open position, thereby protecting the valve seat and valve body against wear by the flux of lift gas or other fluids and a second position wherein the sleeve extends through the section of the flow passage upstream of the valve seat, whilst the valve body is pivoted in the closed position, said sleeve having an upstream end and a downstream end; a flow restrictor forming part of the valve protection sleeve, which is dimensioned such that the flux of lift gas flowing through the flow restrictor creates a pressure difference which induces the sleeve to move towards the first position; a first seal ring disposed between the sleeve and the housing upstream of the valve seat; wherein the downstream end of the sleeve includes a tapered section where the outer diameter of the sleeve decreases in the downstream direction, such that the outer surface of the tapered section of the sleeve is in the first position, thereby providing a fluid tight seal in the annular space between the tapered section of the sleeve and the housing when the sleeve is in the first position and such that said first seal ring only loosely engages the tapered section of the sleeve when the sleeve is in the second position. 6. The gas lift flow control device claim 5, wherein a second flexible sealing ring is arranged in the tubular housing downstream of the first sealing ring, which second sealing ring is configured as a stop for the sleeve when the sleeve is moved in the first position. 7. The gas lift flow control device of claim 5, wherein the first and second sealing rings are made of an elastomeric material and define an sealed annular enclosure in which the flapper valve body and seat are arranged when the sleeve is moved in the first position. 8. The gas lift flow control device of claim 5, wherein the flapper valve body is equipped with a spring which biases the valve body towards a closed position and wherein a spring is arranged between the tubular valve body and the valve protection sleeve, which biases the valve protection sleeve towards the second position. 9. The gas lift flow control device of claim 8, wherein the device is configured to be retrievably positioned in a substantially vertical position in a side pocket in the production conduit of an oil well, and the spring which biases the valve protection sleeve towards the second position is configured to collapse if the accumulation of the gravity of the valve protection sleeve and forces exerted by the lift gas to the sleeve exceed a predetermined threshold value. 10. The gas lift flow control device of claim 9, wherein the spring is configured to collapse when the lift gas injection pressure has reached a value which is lower than the lift gas injection pressure during normal oil production. 11. The gas lift flow control device of claim 10, wherein the flapper type valve body comprises a tilted face which is dimensioned such that the point of initial contact by the sleeve when moving from the second position to the first position is a the point farthest away from a hinge pin of the flapper type valve body. 12. The gas lift flow control device of claim 5, wherein taper angles of the tapered section of the housing and the sleeve are selected such that the sleeve is centralized within the housing as the flapper type valve body moves to the open position.