Claims
- 1. Apparatus for controlling operation of a downhole well tool assembly, comprising:
a fluid power source including:
a first source of pressurized fluid operable to power the downhole well tool assembly via a first fluid circuit portion connectable to the downhole well tool assembly, and a second source of pressurized fluid having a second fluid circuit portion interposed in the first fluid circuit portion, the second source of pressurized fluid being operable to selectively alter the routing of pressurized fluid to the downhole well tool assembly.
- 2. The apparatus of claim 1 wherein the fluid power source is a self-contained, closed circuit fluid power source positionable downhole with the well tool assembly.
- 3. The apparatus of claim 1 wherein the first and second sources of pressurized fluid are electrically operable.
- 4. The apparatus of claim 1 wherein the first source of pressurized fluid includes a reciprocating hydraulic pump having a reversible electric drive motor.
- 5. The apparatus of claim 4 wherein the first fluid circuit portion includes check valve apparatus interposed therein and operative to provide the hydraulic pump with a double pumping action.
- 6. The apparatus of claim 1 wherein the second source of pressurized fluid includes a reciprocating hydraulic pump having a reversible drive motor.
- 7. The apparatus of claim 6 wherein the second fluid circuit portion includes a plurality of pilot check valves connected to receive fluid pilot pressure from the hydraulic pump.
- 8. The apparatus of claim 1 further comprising a pressurized fluid accumulator communicated with the first fluid circuit portion and selectively operable to power the downhole well tool assembly via the first fluid circuit portion.
- 9. The apparatus of claim 8 wherein the pressurized fluid accumulator is selectively chargeable by the first source of pressurized fluid.
- 10. The apparatus of claim 8 wherein the pressurized fluid accumulator is a first fluid pressure accumulator, and
the apparatus further comprises a second fluid pressure accumulator in fluid pressure communication with the first accumulator and the first fluid circuit portion, the second accumulator being operative to maintain a predetermined minimum fluid pressure in the first fluid circuit portion.
- 11. The apparatus of claim 1 further comprising control apparatus for sensing the magnitude of a predetermined operational parameter of the well tool assembly and responsively controlling the operation of the first and second sources of pressurized fluid in a manner maintaining the magnitude of the sensed operational parameter at a predetermined level.
- 12. The apparatus of claim 1 wherein:
the first and second sources of pressurized fluid are electrically operable, and the apparatus further comprises an electrical power source operably connectable to the first and second sources of pressurized fluid.
- 13. The apparatus of claim 12 wherein the electrical power source is a self-contained power source positionable entirely downhole.
- 14. A method of controlling operation of a downhole well tool assembly, the method comprising the steps of:
connecting to the well tool assembly a fluid power source including a first source of pressurized fluid operable to power the downhole well tool assembly via a first fluid circuit portion connected thereto, and a second source of pressurized fluid having a second fluid circuit portion interposed in the first fluid circuit portion, the second source of pressurized fluid being operable to selectively alter the routing of pressurized fluid to the downhole well tool assembly; and operating the first and second sources of pressurized fluid.
- 15. The method of claim 14 wherein the connecting step includes the step of positioning the fluid power source entirely downhole.
- 16. The method of claim 14 wherein:
the well tool assembly is carried on a tubular downhole structure, and the connecting step includes the step of mounting the fluid power source on the tubular downhole structure adjacent the well tool assembly.
- 17. The method of claim 14 wherein the operating step is performed by electrically operating the first and second sources of pressurized fluid.
- 18. The method of claim 14 further comprising the steps of:
sensing the magnitude of a predetermined operational parameter of the well tool assembly, and responsively controlling the operation of the first and second sources of pressurized fluid in a manner maintaining a predetermined magnitude of the sensed operational parameter.
- 19. The method of claim 14 wherein the connecting step includes the steps of:
connecting a reciprocating hydraulic primary pump to the first fluid circuit portion, and connecting a reciprocating hydraulic switching pump to the second fluid circuit portion.
- 20. The method of claim 19 wherein the connecting step further comprises the steps of:
interposing a plurality of pilot check valves in the first fluid circuit portion, and connecting the switching pump to the pilot check valves.
- 21. The method of claim 19 wherein:
the connecting step further comprises connecting an accumulator in the first fluid circuit, and the method further comprises the step of using the first source of pressurized fluid to charge the accumulator.
- 22. The method of claim 21 further comprising the step of:
utilizing a selectively variable one of the first source of pressurized fluid and the charged accumulator to power the downhole well tool assembly.
- 23. A subterranean well completion comprising:
a wellbore; a series of well tool assemblies disposed in the wellbore; multiple self-contained, electrically operable hydraulic pressure sources interconnected to corresponding ones of the well tool assemblies and useable to control their operation,
each self-contained hydraulic pressure source being disposed downhole and including a first source of pressurized fluid operable to power the associated downhole well tool assembly via a first fluid circuit portion connected thereto, and a second source of pressurized fluid interposed in the first fluid circuit portion, the second source of pressurized fluid being operable to selectively alter the routing of pressurized fluid to the associated downhole well tool assembly; and at least one source of electrical power operably coupled to the hydraulic pressure sources.
- 24. The subterranean well completion of claim 23 wherein the electrically operable hydraulic pressure sources are free from physical extensions thereof to the surface.
- 25. The subterranean well completion of claim 23 wherein each source of electrical power is positioned downhole and is free from physical extensions thereof to the surface.
- 26. The subterranean well completion of claim 23 wherein each first source of pressurized fluid includes a reciprocating hydraulic pump having a reversible electric motor.
- 27. The subterranean well completion of claim 26 wherein each first fluid circuit portion includes check valve apparatus interposed therein and operative to provide its associated hydraulic pump with a double pumping action.
- 28. The subterranean well completion of claim 23 wherein each second source of pressurized fluid includes a reciprocating hydraulic pump having a reversible drive motor.
- 29. The subterranean well completion of claim 28 wherein each second fluid circuit portion includes a plurality of pilot check valves connected to receive fluid pilot pressure from the associated hydraulic pump.
- 30. The subterranean well completion of claim 23 further comprising, for each hydraulic pressure source, a pressurized fluid accumulator communicated with the first fluid circuit portion and selectively operable to power the associated downhole well tool assembly via the first fluid circuit portion.
- 31. The subterranean well completion of claim 30 wherein, for each hydraulic pressure source, the pressurized fluid accumulator is selectively chargeable by the first source of pressurized fluid.
- 32. The subterranean well completion of claim 30 wherein, for each hydraulic pressure source, the pressurized fluid accumulator is a first fluid pressure accumulator, and
the subterranean well completion further comprises, for each hydraulic pressure source, a second fluid pressure accumulator in fluid pressure communication with the first accumulator and the first fluid circuit portion, the second accumulator being operative to maintain a predetermined minimum fluid pressure in the first fluid circuit portion.
- 33. The subterranean well completion of claim 23 further comprising control apparatus for sensing the magnitudes of predetermined operational parameters of the well tool assemblies and responsively controlling the operation of their associated first and second sources of pressurized fluid in a manner maintaining the magnitudes of the sensed operational parameters at predetermined levels.
- 34. The subterranean well completion of claim 33 wherein:
the downhole well tool assemblies are flow control devices mutually spaced apart along the length of the wellbore and having variable opening areas communicating exterior and interior portions thereof, and the sensed operational parameters are fluid pressure drops across the inlet opening areas.
- 35. The subterranean well completion of claim 34 wherein the flow control devices are variable choke devices.
- 36. The subterranean well completion of claim 34 wherein the control apparatus is operative to maintain predetermined minimum fluid pressure drops across the inlet opening areas.
- 37. The subterranean well completion of claim 36 wherein the control apparatus is operative to maintain minimum positive exterior-to-interior fluid pressure drops across the inlet opening areas.
- 38. The subterranean well completion of claim 34 wherein the control apparatus is operative to maintain substantially equal pressure drops across the inlet opening areas.
- 39. A method of controlling operation of multiple well tool assemblies positioned downhole in the wellbore of a subterranean well, the method comprising the steps of:
interconnecting multiple self-contained, electrically operable hydraulic pressure sources to corresponding ones of the well tool assemblies, each self-contained hydraulic pressure source being disposed downhole and including a first source of pressurized fluid operable to power the associated downhole well tool assembly via a first fluid circuit portion connected thereto, and a second source of pressurized fluid interposed in the first fluid circuit portion and being operable to selectively alter the routing of pressurized fluid to the associated downhole well tool assembly; and supplying electrical power to the hydraulic pressure sources.
- 40. The method of claim 39 further comprising the step of controlling the operation of the downhole well tool assemblies by sensing the magnitudes of predetermined operational parameters thereof and responsively controlling the operation of their associated first and second sources of pressurized fluid in a manner maintaining the magnitudes of the sensed operational parameters at predetermined levels.
- 41. The method of claim 40 wherein:
the downhole well tool assemblies are flow control devices mutually spaced apart along the length of the wellbore and having variable opening areas communicating exterior and interior portions thereof, and the sensing step is performed by sensing fluid pressure drops across the inlet opening areas.
- 42. The method of claim 41 wherein the controlling step is performed in a manner maintaining predetermined minimum fluid pressure drops across the inlet opening areas.
- 43. The method of claim 42 wherein the controlling step is performed in a manner maintaining minimum positive exterior-to-interior fluid pressure drops across the inlet opening areas.
- 44. The method of claim 40 wherein the controlling step is performed in a manner maintaining substantially equal pressure drops across the inlet opening areas.
- 45. Hydraulic actuator apparatus for use in controlling operation of a downhole well tool assembly, comprising:
a body having first and second bores extending therethrough, the first and second bores respectively having radially enlarged first and second cylinder portions with opposite ends; a first rod reciprocably received in the first bore and having a laterally enlarged piston portion slidably received in the first cylinder portion and dividing it into opposite hydraulic chambers connectable to a first hydraulic circuit portion; a second rod reciprocably received in the second bore and having a laterally enlarged piston portion slidably received in the second cylinder portion and dividing it into opposite hydraulic chambers connectable to a second hydraulic circuit portion; a first drive portion carried by the body and having a first reversible electric motor drivingly connected to the first rod and operable to forcibly reciprocate it in the first bore; and a second drive portion carried by the body and having a second reversible electric motor drivingly connected to the second rod and operable to forcibly reciprocate it in the second bore.
- 46. The hydraulic actuator apparatus of claim 45 wherein the first and second drive portions project outwardly from an exterior surface of the body.
- 47. The hydraulic actuator apparatus of claim 45 wherein:
the first reversible electric motor is coupled through a gear structure to a ball screw structure which is drivingly connected to the first rod, and the second reversible electric motor is coupled through a gear structure to a ball screw structure which is drivingly connected to the second rod.
- 48. The hydraulic actuator apparatus of claim 45 further comprising:
a pilot check valve carried in the first bore and connectable to the first fluid circuit portion, the pilot check valve being selectively engageable by an end portion of the first rod to disable the fluid flow blocking function of the pilot check valve.
Priority Claims (1)
Number |
Date |
Country |
Kind |
PCT/US00/29972 |
Oct 2000 |
US |
|
CROSS-REFERENCE TO RELATED APPLICATION
[0001] The present application claims the benefit under 35 USC §119 of the filing date of international application PCT/US00/29972, filed Oct. 31, 2000, the disclosure of which is incorporated herein by this reference.