IPC분류정보
| 국가/구분 |
United States(US) Patent
등록
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| 국제특허분류(IPC7판) |
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| 출원번호 |
US-0347861
(2003-01-22)
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발명자
/ 주소 |
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| 인용정보 |
피인용 횟수 :
155 인용 특허 :
61 |
초록
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Method and apparatus for drilling a well bore in a hydrocarbon formation using concentric coiled tubing drill string having an inner coiled tubing string and an outer coiled tubing string defining an annulus therebetween. A drilling device comprising a reciprocation air hammer and a dull bit, a posi
Method and apparatus for drilling a well bore in a hydrocarbon formation using concentric coiled tubing drill string having an inner coiled tubing string and an outer coiled tubing string defining an annulus therebetween. A drilling device comprising a reciprocation air hammer and a dull bit, a positive displacement motor and a reverse circulating drill bit, or a reverse circulating mud motor and a rotary drill bit, is provided at the lower end of the concentric coiled tubing drill string. Drilling medium is delivered through the annulus or inner coiled tubing string for operating the drilling device to form a borehole. Exhaust drilling medium comprising drilling medium, drilling cuttings and hydrocarbons is removed from the well bore by extraction through the other of the annulus or inner coiled tubing string.
대표청구항
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1. A method for drilling a well bore in a hydrocarbon formation, comprising:providing a concentric coiled tubing drill string having an inner coiled tubing string, said inner coiled tubing string having an inside wall and an outside wall and situated within an outer coiled tubing string having an in
1. A method for drilling a well bore in a hydrocarbon formation, comprising:providing a concentric coiled tubing drill string having an inner coiled tubing string, said inner coiled tubing string having an inside wall and an outside wall and situated within an outer coiled tubing string having an inside wall and an outside wall, said outside wall of said inner coiled tubing string and said inside wall of said outer coiled tubing string defining an annulus between the coiled tubing strings; connecting a drilling means at the lower end of the concentric coiled tubing drill string; and delivering drilling medium through one of said annulus or inner coiled tubing string for both operating the drilling means to form a borehole and for entraining and removing drill cuttings through said other of said annulus or inner coiled tubing string. 2. The method of claim 1 wherein the drilling medium is delivered through the annulus and entrained drill cuttings are removed through the inner coiled tubing string.3. The method of claim 1 wherein the drilling medium is delivered through the inner coiled tubing string and the entrained drill cuttings are removed through the annulus.4. The method of claim 1 wherein said drilling means is a reverse circulating drilling means.5. The method of claim 1 wherein said drilling medium is selected from the group consisting of drilling mud, drilling fluid and a mixture of drilling fluid and gas.6. The method of claim 5 wherein said drilling means comprises a positive displacement motor and a reverse circulating drill bit.7. The method of claim 5 wherein said drilling means comprises a mud motor and a rotary drill bit.8. The method of claim 7 wherein said mud motor is a reverse circulating mud motor.9. The method of claim 1 wherein said drilling medium comprises a gas selected from the group consisting of air, nitrogen, carbon dioxide, methane and any combination of air, nitrogen, carbon dioxide or methane.10. The method of claim 9 wherein said drilling means comprises a reciprocating air hammer and a dull bit.11. The method of claim 10 wherein said drilling means comprises a positive displacement motor and a reverse circulating drill bit.12. The method of claim 1, said drilling means further comprising a diverter means, said method further comprising accelerating said entrained drill cuttings by passing said entrained drill cuttings through said diverter means so as to facilitate removal of said entrained drill cuttings through the annulus or the inner coiled tubing string.13. The method of claim 12 wherein said diverter means comprises a venturi or a fluid pumping means.14. The method of claim 1 further comprising providing a downhole flow control means positioned at or near the drilling means for preventing flow of hydrocarbons from the inner coiled tubing string or the annulus or both to the surface of the well bore.15. The method of claim 14 further comprising controlling said downhole flow control means at the surface of the well bore by a surface control means.16. The method of claim 15 wherein said surface control means transmits a signal selected from the group consisting of an electrical signal, a hydraulic signal, a pneumatic signal, a light signal and a radio signal.17. The method of claim 1 further comprising providing a surface flow control means positioned at or near the surface of the well bore for preventing flow of hydrocarbons from a space between the outside wall of the outer coiled tubing string and a wall of the borehole.18. The method of claim 1, said concentric coiled tubing drill suing further comprising a discharging means positioned near the top of said concentric coiled tubing drill string, said method further comprising removing said entrained drill cuttings through said discharging means away from said well bore.19. The method of claim 18 wherein said discharging means further comprises a flare means for flaring hydrocarbons produced from the well bore.20. The method of claim 1 further comprising providing a shroud means positioned between the outside wall of the outer coiled tubing string and a wall of the well bore for reducing the flow of entrained drill cuttings through a space between the outside wall of the outer coiled tubing string and a wall of the borehole.21. The method of claim 1 further comprising providing a suction type compressor for extracting said entrained drill cuttings through said annulus or inner coiled tubing string.22. The method of claim 1 further comprising reducing the surface pressure in the inner coiled tubing string by means of a surface pressure reducing means attached to the inner coiled tubing string.23. An apparatus for drilling a well bore in a hydrocarbon formation, comprising:a concentric coiled tubing drill string consisting essentially of an inner coiled tubing string, said inner coiled tubing string having an inside wall and an outside wall and situated within an outer coiled tubing string having an inside wall and an outside wall, said outside wall of said inner coiled tubing string and said inside wall of said outer coiled tubing string defining an annulus between the coiled tubing strings; a drilling means attached to the lower end of the concentric coiled tubing drill string; and a drilling medium delivery means for delivering chilling medium through one of said annulus or inner coiled tubing string for both operating the drilling means to form a borehole and for entraining and removing drill cuttings through said other of said annulus or inner coiled tubing string. 24. The apparatus of claim 23 wherein said drilling means is a reverse circulating drilling means.25. The apparatus of claim 23 wherein said drilling means comprises a positive displacement motor and a reverse circulating drill bit.26. The apparatus of claim 23 wherein said drilling means comprises a mud motor and a rotary drill bit.27. The apparatus of claim 26 wherein said mud motor is a reverse circulating mud motor.28. The apparatus of claim 23 wherein said drilling means comprises a reciprocating air hammer and a drill bit.29. The apparatus of claim 23 wherein said drilling means comprises a positive displacement motor and reverse circulating drill bit.30. The apparatus of claim 23 wherein said drilling means further comprises a diverter means to facilitate removal of said entrained drill cuttings from the concentric coiled tubing drill string.31. The apparatus of claim 30 wherein said diverter means comprises a venturi or a fluid pumping means.32. The apparatus of claim 23 further comprising a downhole flow control means positioned at or near the drilling means for preventing flow of hydrocarbons from the inner coiled tubing string or the annulus or both to the surface of the well bore.33. The apparatus of claim 32 further comprising a surface control means for controlling said downhole flow control means at the surface of the well bore.34. The apparatus of claim 33 wherein said surface control means transmits a signal selected from the group consisting of an electrical signal, a hydraulic signal, a pneumatic signal, a light signal and a radio signal.35. The apparatus of claim 23 further comprising a surface flow control means positioned at or near the surface of the well bore for reducing flow of hydrocarbons from a space between the outside wall of the outer coiled tubing string and a wall of the borehole.36. The apparatus of claim 23 further comprising a discharging means positioned near the top of said concentric coiled tubing drill string for discharging said entrained drill cuttings through said discharging means away from said well bore.37. The apparatus of claim 36 wherein said discharging means further comprises a flare means for flaring hydrocarbons produced from the well bore.38. The apparatus of claim 23 further comprising a shroud means positioned between the outside wall of the outer coiled cubing string and a wall of the well bore for reducing the flow of entrained drill cuttings through a space between the outside wall of the outer coiled tubing string and a wall of the borehole.39. The apparatus of claim 23 further comprising a suction type compressor for extracting said entrained drill cuttings through said annulus or inner coiled tubing string.40. The apparatus of claim 23 further comprising a connecting means for connecting said outer coiled cubing string and said inner coiled tubing string to said drilling means thereby centering said inner coiled tubing string within said outer coiled tubing string.41. The apparatus of claim 40 comprising a disconnecting means located between said connecting means and said drilling means for disconnecting said drilling means from said concentric coiled tubing drill siring.42. The apparatus of claim 28 further comprising a rotation means attached to said reciprocating air hammer.43. The apparatus of claim 23 further comprising means for storing said concentric coiled tubing drill string.44. The apparatus of claim 43 wherein said storing means comprises a work reel.45. The apparatus of claim 23 wherein said drilling medium delivery means comprises a hydraulic pump.46. The apparatus of claim 23 wherein said drilling medium delivery means comprises an air compressor.47. The apparatus of claim 23 wherein said drilling medium delivery means comprises a nitrogen pumper.48. A method for drilling a well bore in a hydrocarbon formation, comprising:providing a concentric coiled tubing drill string having an inner coiled tubing string, said inner coiled tubing string having an inside wall and an outside wall and situated within an outer coiled tubing string having an inside wall and an outside wall, said outside wall of said inner coiled tubing string and said inside wall of said outer coiled tubing string defining an annulus between the coiled tubing strings; connecting a drilling means comprising a positive displacement motor and reverse circulating drill bit at the lower end of the concentric coiled tubing drill string; and delivering drilling medium selected from the group consisting of drilling mud, drilling fluid and a mixture of drilling fluid and gas through one of said annulus or inner coiled tubing string for operating the drilling means to form a borehole and removing exhaust drilling medium by extracting said exhaust drilling medium through said other of said annulus or inner coiled tubing string. 49. A method for drilling a well bore in a hydrocarbon formation, comprising:providing a concentric coiled tubing drill string having an inner coiled tubing string, said inner coiled tubing string having an inside wall and an outside wall and situated within an outer coiled tubing string having an inside wall and an outside wall, said outside wall of said inner coiled tubing string and said inside wall of said outer coiled tubing string defining an annulus between the coiled tubing strings; connecting a drilling means comprising a reverse circulating mud motor and a rotary drill bit at the lower end of the concentric coiled tubing drill string; and delivering drilling medium selected from the group consisting of drilling mud, drilling fluid and a mixture of drilling fluid and gas through one of said annulus or inner coiled tubing string for operating the drilling means to form a borehole and removing exhaust drilling medium by extracting said exhaust drilling medium through said other of said annulus or inner coiled tubing string. 50. A method for drilling a well bore in a hydrocarbon formation, comprising:providing a concentric coiled tubing drill string having an inner coiled tubing string, said inner coiled tubing string having an inside wall and an outside wall and situated within an outer coiled tubing string having an inside wall and an outside wall, said outside wall of said inner coiled tubing string and said inside wall of said outer coiled tubing string defining an annulus between the coiled tubing strings; connecting a drilling means comprising a positive displacement motor and a reverse circulating drill bit at the lower end of the concentric coiled tubing chill string; and delivering drilling medium through one of said annulus or inner coiled tubing string for operating the drilling means to form a borehole and removing exhaust drilling medium by extracting said exhaust drilling medium through said other of said annulus or inner coiled tubing string. 51. A method for drilling a well bore in a hydrocarbon formation, comprising:providing a concentric coiled tubing drill string having an inner coiled tubing string, said inner coiled tubing string having an inside wall and an outside wall and situated within an outer coiled tubing string having an inside wall and an outside wall, said outside wall of said inner coiled tubing string and said inside wall of said outer coiled tubing string defining an annulus between the coiled tubing strings; connecting a drilling means at the lower end of the concentric coiled tubing drill string; delivering drilling medium through one of said annulus or inner coiled tubing string for operating the drilling means to form a borehole and removing exhaust drilling medium by extracting said exhaust drilling medium through said other of said annulus or inner coiled tubing string; and providing a downhole flow control means positioned at or near the drilling means for preventing flow of hydrocarbons from the inner coiled tubing string or the annulus or both to the surface of the well bore. 52. The method of claim 51 further comprising controlling said downhole flow control means at the surface of the well bore by a surface control means.53. The method of claim 52 wherein said surface control means transmits a signal selected from the group consisting of an electrical signal, a hydraulic signal, a pneumatic signal, a light signal and a radio signal.54. A method for drilling a well bore in a hydrocarbon formation, comprising:providing a concentric coiled tubing drill string having an inner coiled tubing string, said inner coiled tubing string having an inside wall and an outside wall and situated within an outer coiled tubing string having an inside wall and an outside wall, said outside wall of said inner coiled tubing string and said inside wall of said outer coiled tubing string defining an annulus between the coiled tubing strings; connecting a drilling means at the lower end of the concentric coiled tubing drill string; delivering drilling medium through one of said annulus or inner coiled tubing string for operating the drilling means to form a borehole and removing exhaust drilling medium by extracting said exhaust drilling medium through said other of said annulus or inner coiled tubing string; and providing a surface flow control means positioned at or near the surface of the well bore for preventing flow of hydrocarbons from a space between the outside wall of the outer coiled tubing string and a wall of time borehole. 55. A method for drilling a well bore in a hydrocarbon formation; comprising the steps of:providing a concentric coiled tubing drill string having an inner coiled tubing string, said inner coiled tubing string having an inside wall and an outside wall and situated within an outer coiled tubing string having an inside wall and an outside wall, said outside wall of said inner coiled tubing string and said inside wall of said outer coiled tubing string defining an annulus between the coiled tubing strings, said concentric coiled tubing drill string further comprising a discharging means comprising a flare means for flaring hydrocarbons produced from the well bore positioned at or near the surface of the well bore; connecting a drilling means at the lower end of the concentric coiled tubing drill string; and delivering drilling medium through one of said annulus or inner coiled tubing string for operating the drilling means to form a borehole and removing exhaust drilling medium by extracting said exhaust drilling medium through said other of said annulus or inner coiled tubing string. 56. A method for drilling a well bore in a hydrocarbon formation, comprising the steps of:providing a concentric coiled tubing drill string having an inner coiled tubing string, said inner coiled tubing string having an inside wail and an outside wall and situated within an outer coiled tubing string having an inside wall and an outside wall, said outside wall of said inner coiled tubing string and said inside wall of said outer celled tubing string defining an annulus between the coiled tubing strings; connecting a drilling means at the lower end of the concentric coiled tubing drill string; and delivering drilling medium through one of said annulus or inner coiled tubing string for operating the drilling means to form a borehole and removing exhaust drilling medium by extracting said exhaust drilling medium through said other of said annulus or inner coiled tubing string; and providing a shroud means positioned between the outside wall of the outer coiled tubing string and a wall of the well bore for reducing the flow of exhaust drilling medium through a space between the outside wall of the outer coiled tubing string and a wall of the borehole. 57. An apparatus for drilling a well bore in a hydrocarbon formation, comprising;a concentric coiled tubing drill string having an inner coiled tubing string, said inner coiled tubing string having an inside wall and an outside wall and situated within an outer coiled tubing string having an inside wall and an outside wall, said outside wall of said inner coiled tubing string and said inside wall of said outer coiled tubing string defining an annulus between the coiled tubing strings; a drilling means attached to the lower end of the concentric coiled tubing drill string, said drilling means comprising a positive displacement motor and a reverse circulating drill bit; and a drilling medium delivery means for delivering drilling medium through one of said annulus or inner coiled tubing string for operating the drilling means to form a borehole and removing exhaust drilling medium by extracting said exhaust drilling medium through said other of said annulus or inner coiled tubing string. 58. An apparatus drilling a well bore in a hydrocarbon formation, comprising:a concentric coiled tubing drill string having an inner coiled tubing string, said inner coiled tubing string having an inside wall and an outside wall and situated within an outer coiled tubing string having an inside wall and an outside wall, said outside wall of said inner coiled tubing string and said inside wall of said outer coiled tubing string defining an annulus between the coiled tubing strings; a drilling means attached to the lower end of the concentric coiled tubing drill string, said drilling means comprising a reverse circulating mud motor and a rotary drill bit; and a drilling medium delivery means for delivering drilling medium through one of said annulus or inner coiled tubing string for operating the drilling means to form a borehole and removing exhaust drilling medium drill cuttings by extracting said exhaust drilling medium through said other of said annulus or inner coiled tubing string. 59. An apparatus drilling a well bore in a hydrocarbon formation, comprising:a concentric coiled tubing drill string having an inner coiled tubing string, said inner coiled tubing string having an inside wall and an outside wall and situated within an outer coiled tubing string having an inside wall and an outside wall, said outside wall of said inner coiled tubing string and said inside wall of said outer coiled tubing string defining an annulus between the coiled tubing strings; a drilling means attached to the lower end of the concentric coiled tubing drill string, said drilling means comprising a positive displacement motor and a reverse circulating drill bit; and a drilling medium delivery means for delivering drilling medium through one of said annulus or inner coiled tubing string for operating the drilling means to form a borehole and removing exhaust drilling medium by extracting said exhaust drilling medium through said other of said annulus or inner coiled tubing string. 60. An apparatus drilling a well bore in a hydrocarbon formation, comprising:a concentric coiled tubing drill string having an inner coiled tubing string, said inner coiled tubing string having an inside wall and an outside wall and situated within an outer coiled tubing string having an inside wall and an outside wall, said outside wall of said inner coiled tubing string and said inside wall of said outer coiled tubing string defining an annulus between the coiled tubing strings; a drilling means attached to the lower end of the concentric coiled tubing drill string; a drilling medium delivery means for delivering drilling medium through one of said annulus or inner coiled tubing string for operating the drilling means to form a borehole and removing exhaust drilling medium by extracting said exhaust drilling medium through said other of said annulus or inner coiled tubing string; and a downhole flow control means positioned at or near the drilling means for preventing flow of hydrocarbons from the inner coiled tubing string or the annulus or both to the surface of the well bore. 61. An apparatus of claim 60 further comprising a surface control means for controlling said downhole flow control means at the surface of the well bore.62. An apparatus of claim 61 wherein said surface control means transmits a signal selected from the group consisting of an electrical signal, a hydraulic signal, a pneumatic signal, a light signal and a radio signal.63. An apparatus drilling a well bore in a hydrocarbon formation, comprising:a concentric coiled tubing drill string having an inner coiled tubing string, said inner coiled tubing string having an inside wall and an outside wall and situated within an outer coiled tubing string having an inside wall and an outside wall, said outside wall of said inner coiled tubing string and said inside wall of said outer coiled tubing string defining an annulus between the coiled tubing strings; a drilling means attached to the lower end of the concentric coiled tubing drill string; a drilling medium delivery means for delivering drilling medium through one of said annulus or inner coiled tubing string for operating the drilling means to form a borehole and removing exhaust drilling medium by extracting said exhaust drilling medium through said other of said annulus or inner coiled tubing string; and a surface flow control means positioned at or near the surface of the well bore for reducing flow of hydrocarbons from a space between the outside wall of the outer coiled tubing string and a wall of the borehole. 64. An apparatus drilling a well bore in a hydrocarbon formation, comprising:a concentric coiled tubing drill stung having an inner coiled tubing string, said inner coiled tubing string having an inside wall and an outside wall and situated within an outer coiled tubing string having an inside wall and an outside wall, said outside wall of said inner coiled tubing siring and said inside wall of said outer coiled tubing string defining an annulus between the coiled tubing strings; a drilling means attached to the lower end of the concentric coiled tubing chill string; a drilling medium delivery means for delivering drilling medium through one of said annulus or inner coiled tubing string for operating the drilling means to form a borehole and removing exhaust drilling medium by extracting said exhaust drilling medium through said other of said annulus or inner coiled tubing string; and a discharging means having a flare means for flaring hydrocarbons produced from the well bore positioned near the top of said concentric coiled tubing drill string for discharging said exhaust drilling medium through said discharging means away from said well bore. 65. An apparatus drilling a well bore in a hydrocarbon formation, comprising:a concentric coiled tubing drill string having an inner coiled tubing string, said inner coiled tubing string having an inside wall and an outside wall and situated within an outer coiled tubing string having an inside wall and an outside wall, said outside wall of said inner coiled tubing string and said inside wall of said outer coiled tubing string defining an annulus between the coiled tubing strings; a drilling medium delivery means for delivering drilling medium through one of said annulus or inner coiled tubing string for operating the drilling means to form a borehole and removing exhaust drilling medium by extracting said exhaust drilling medium through said other of said annulus or inner coiled tubing string; and a shroud means positioned between the outside wall of the outer coiled tubing string and a wall of the well bore for reducing the flow of exhaust drilling medium through a space between the outside wall of the outer coiled tubing string and a wall of the borehole.
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