Claims
- 1. A horizontal spool tree assembly for supporting a production tubing string within a well, the tree assembly adapted for use with a workover string for fluid communication with the tree assembly, the tree assembly comprising:
a spool body defining a spool body central bore for receiving therein a tubing hanger and a spool body production passageway extending laterally from the spool body central bore to a production valve; the tubing hanger sealed to the spool body and adapted for supporting the production tubing therefrom, the tubing hanger having a tubing hanger bore in fluid communication with the production tubing string and a tubing hanger production passageway extending laterally from the tubing hanger bore for fluid communication with the lateral production passageway in the spool body; an annulus port extending laterally through the spool body and in fluid communication with an annulus about the production tubing string; an annulus valve for controlling fluid flow through the annulus port; a workover flow path spaced from the tubing hanger bore and extending axially through the tubing hanger from the spool body central bore below the tubing hanger to the spool body central bore above the tubing hanger, thereby providing fluid communication between the workover string and the annulus surrounding the production tubing string; and a workover valve positioned along the workover flow path for controlling fluid flow between the central bore above the tubing hanger and the annulus below the tubing hanger.
- 2. A tree assembly as defined in claim 1, further comprising:
a crossover flow line extending from a crossover port in fluid communication with the annulus port to the production valve; and a crossover valve for controlling fluid flow along the crossover flow line.
- 3. A tree assembly as defined in claim 1, wherein the production valve is positioned within the spool body.
- 4. A tree assembly as defined in claim 1, further comprising:
a safety valve positioned along the production tubing string below the tubing hanger.
- 5. A tree assembly as defined in claim 1, further comprising:
a first closure member positioned within the bore in the tubing hanger.
- 6. A tree assembly as defined in claim 5, further comprising:
a second closure member positioned above the tubing hanger and the first closure member for isolating a bore between the first and second closure members.
- 7. A tree assembly as defined in claim 1, further comprising:
a first closure member within the central bore in the tubing hanger; and a second closure member positioned above the first closure member the first closure member.
- 8. A tree assembly as defined in claim 1, wherein the spool body central bore and the tubing hanger bore each have a substantially coaxial axis.
- 9. A tree assembly as defined in claim 1, wherein the tree assembly is subsea, and the one or more control lines extend from a BOP to the surface, and the workover string extends from the tree assembly to the surface.
- 10. A horizontal spool tree assembly as defined in claim 1, wherein the workover valve is controllable to stop fluid flow in either direction along the workover flow path in the tubing hanger.
- 11. A horizontal spool tree assembly as defined in claim 1, wherein the annulus port is below a seal between the tubing hanger and the spool body.
- 12. A horizontal spool tree assembly as defined in claim 11, wherein a crossover port extends laterally through the tool body above the seal between the tubing hanger and the spool body.
- 13. A horizontal spool tree assembly as defined in claim 1, wherein the annulus port is above a seal between the tubing hanger and the spool body.
- 14. A horizontal spool tree assembly for supporting a production tubing string within a well, the tree assembly adapted for use with a workover string for fluid communication with the tree assembly, the tree assembly comprising:
a spool body defining a spool body central bore for receiving therein a tubing hanger and a spool body production passageway extending laterally from the spool body central bore to a production valve; the tubing hanger being sealed to the spool body and adapted for supporting the production tubing therefrom, the tubing hanger having a tubing hanger bore in fluid communication with the production tubing string and a tubing hanger production passageway extending laterally from the tubing hanger bore for fluid communication with the lateral production passageway in the spool body, the spool body central bore and the tubing hanger bore axes being substantially aligned; an annulus port extending laterally through the spool body and in fluid communication with an annulus about the production tubing string; an annulus valve for controlling fluid flow through the annulus port; a workover flow path spaced from the tubing hanger bore and extending axially through the tubing hanger from the spool body central bore below the tubing hanger to the spool body central bore above the tubing hanger, thereby providing fluid communication between the workover string and the annulus surrounding the production tubing string; and a workover valve positioned along the workover flow path for controlling fluid flow both from the central bore above the tubing hanger to the annulus below the tubing hanger and from the annulus below the tubing hanger to the central bore above the tubing hanger.
- 15. A tree assembly as defined in claim 14, further comprising:
a crossover flow line extending from a crossover port in fluid communication with the annulus port to the production valve; and a crossover valve for controlling fluid flow along the crossover flow line.
- 16. A tree assembly as defined in claim 18, wherein the production valve is positioned within the spool body.
- 17. A tree assembly as defined in claim 14, further comprising:
a safety valve positioned along the production tubing string below the tubing hanger.
- 18. A tree assembly as defined in claim 14, further comprising:
a first closure member positioned within the bore in the tubing hanger.
- 19. A tree assembly as defined in claim 18, further comprising:
a second closure member positioned above the tubing hanger and the first closure member.
- 20. A tree assembly as defined in claim 14, further comprising:
a first closure member within the central bore in the tubing hanger; and a second closure member positioned above the first closure member the first closure member for isolating the BOP bore.
- 21. A tree assembly as defined in claim 14, wherein the tree assembly is subsea, and the one or more control lines extend from a BOP to the surface, and the workover string extends from the tree assembly to the surface.
- 22. A horizontal spool tree assembly as defined in claim 14, wherein the annulus port is below a seal between the tubing hanger and the spool body.
- 23. A horizontal spool tree assembly as defined in claim 11, wherein a crossover port extends laterally through the tool body above the seal between the tubing hanger and the spool body.
- 24. A horizontal spool tree assembly as defined in claim 14, wherein the annulus port is above a seal between the tubing hanger and the spool body.
- 25. A subsea horizontal spool tree assembly for supporting a production tubing string within a well, the tree assembly adapted for use with a workover string for fluid communication with the tree assembly, the tree assembly comprising:
a spool body defining a spool body central bore for receiving therein a tubing hanger and a spool body production passageway extending laterally from the spool body central bore to a production valve; the tubing hanger being sealed to the spool body and adapted for supporting the production tubing therefrom, the tubing hanger having a tubing hanger bore in fluid communication with the production tubing string and a tubing hanger production passageway extending laterally from the tubing hanger bore for fluid communication with the lateral production passageway in the spool body; an annulus port extending laterally through the spool body and in fluid communication with an annulus about the production tubing string; an annulus valve for controlling fluid flow through the annulus port; a workover flow path spaced from the tubing hanger bore and extending axially through the tubing hanger from the spool body central bore below the tubing hanger to the spool body central bore above the tubing hanger, thereby providing fluid communication between the workover string and the annulus surrounding the production tubing string; and a workover valve positioned along the workover flow path for controlling fluid flow both between the central bore above the tubing hanger and the annulus below the tubing hanger.
- 26. A tree assembly as defined in claim 25, further comprising:
a crossover flow line extending from a crossover port in fluid communication with the annulus port to the production valve; and a crossover valve for controlling fluid flow along the crossover flow line.
- 27. A tree assembly as defined in claim 25, further comprising:
a first closure member within the central bore in the tubing hanger; and a second closure member positioned above the first closure member.
- 28. A horizontal spool tree assembly as defined in claim 25, wherein the annulus port is below a seal between the tubing hanger and the spool body.
- 29. A horizontal spool tree assembly as defined in claim 11, wherein a crossover port extends laterally through the tool body above the seal between the tubing hanger and the spool body.
- 30. A horizontal spool tree assembly as defined in claim 13, wherein the annulus port is above a seal between the tubing hanger and the spool body.
- 31. A horizontal spool tree assembly for supporting a production tubing string within a well, the tree assembly adapted for use with a workover string for fluid communication with the tree assembly, the tree assembly comprising:
a spool body defining a spool body central bore for receiving therein a tubing hanger and a spool body production passageway extending laterally from the spool body central bore to a production valve; sealing the tubing hanger to the spool body and adapted for supporting the production tubing therefrom, the tubing hanger having a tubing hanger bore in fluid communication with the production tubing string and a tubing hanger production passageway extending laterally from the tubing hanger bore for fluid communication with the lateral production passageway in the spool body; providing an annulus port extending laterally through the spool body and in fluid communication with an annulus about the production tubing string; providing an annulus valve for controlling fluid flow through the annulus port; forming a workover flow path spaced from the tubing hanger bore and extending axially through the tubing hanger from the spool body central bore below the tubing hanger to the spool body central bore above the tubing hanger, thereby providing fluid communication between the workover string and the annulus surrounding the production tubing string; and positioning a workover valve along the workover flow path for controlling fluid flow both between the central bore above the tubing hanger and the annulus below the tubing hanger.
- 32. A method as defined in claim 31, further comprising:
a crossover flow line extending from a crossover port in fluid communication with the annulus port to the production valve; and a crossover valve for controlling fluid flow along the crossover flow line.
- 33. A method as defined in claim 31, wherein the production valve is positioned within the spool body.
- 34. A method as defined in claim 31, further comprising:
positioning a safety valve along the production tubing string below the tubing hanger.
- 35. A method as defined in claim 31, further comprising:
positioning a first closure member within the bore in the tubing hanger.
- 36. A method as defined in claim 35, further comprising:
a second closure member positioned above the tubing hanger and the first closure member.
- 37. A method as defined in claim 31, wherein the tree assembly is subsea, and the one or more control lines extend from a BOP to the surface, and the workover string extends from the tree assembly to the surface.
- 38. A method as defined in claim 31, wherein the annulus port is positioned below a seal between the tubing hanger and the spool body.
- 39. A method as defined in claim 38, wherein a crossover port extends laterally through the tool body above the seal between the tubing hanger and the spool body.
- 40. A method as defined in claim 31, wherein the annulus port is positioned above a seal between the tubing hanger and the spool body.
- 41. A method as defined in claim 31, further comprising:
closing the production valve, the annulus valve, the workover valve, and a safety valve along the production tubing string to flow test the tree assembly.
- 42. A method as defined in claim 31, further comprising:
closing the production valve, the annulus valve, and the workover valve to flush flow lines.
- 43. A method as defined in claim 31, further comprising:
opening the annulus valve and the production valve to inject gas through the annulus port for gas lift production flow, with the workover valve being closed.
- 44. A method as defined in claim 31, further comprising:
a crossover flow line extending from a crossover port in fluid communication with the annulus port to the production valve; a crossover valve for controlling fluid flow along the crossover flow line; closing the annulus valve, opening the crossover valve, and opening the production valve for production crossover flow.
- 45. A method as defined in claim 31, further comprising:
fluidly connecting the interior of a running string with the bore in the tubing hanger, closing the annulus valve and the production valve, and opening the workover valve for a workover operation.
RELATED CASE
[0001] The present application claims priority from U.S. Serial No. 60/293,857 filed on May 25, 2001.
Provisional Applications (1)
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Number |
Date |
Country |
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60293857 |
May 2001 |
US |