Hydrocarbon resource recovery apparatus including RF transmission line and associated methods
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
E21B-043/24
H01P-005/02
H01P-001/04
H01Q-001/24
출원번호
US-0733431
(2015-06-08)
등록번호
US-9963958
(2018-05-08)
발명자
/ 주소
Whitney, Ryan M.
Nugent, Keith
Jackson, Jr., Ronald E.
Harless, Richard I.
Kolvek, Stephen J.
White, Arthur H.
출원인 / 주소
HARRIS CORPORATION
대리인 / 주소
Allen, Dyer, Doppelt + Gilchrist, P.A.
인용정보
피인용 횟수 :
0인용 특허 :
15
초록▼
An apparatus for hydrocarbon resource recovery from a subterranean formation includes a radio frequency (RF) source, an RF antenna to be positioned within the subterranean formation to deliver RF power to the hydrocarbon resource within the subterranean formation, and an RF transmission line extendi
An apparatus for hydrocarbon resource recovery from a subterranean formation includes a radio frequency (RF) source, an RF antenna to be positioned within the subterranean formation to deliver RF power to the hydrocarbon resource within the subterranean formation, and an RF transmission line extending between the RF source and the RF antenna. The RF transmission line may include RF transmission line sections coupled together in end-to-end relation. Each section may include an inner conductor, an outer conductor surrounding the inner conductor, and an outer load-carrying tubular member surrounding the outer conductor. A respective coupling assembly joins ends of adjacent sections together. Each coupling assembly may include an electrical coupler being fixedly connected to first ends of corresponding inner and outer conductors and being slidably connected to opposing second ends of adjacent inner and outer conductors, and a mechanical coupler connecting ends of adjacent load-bearing tubular members together.
대표청구항▼
1. An apparatus for hydrocarbon resource recovery from a subterranean formation comprising: a radio frequency (RF) source;an RF antenna to be positioned within the subterranean formation to deliver RF power to the hydrocarbon resource within the subterranean formation;an RF transmission line extendi
1. An apparatus for hydrocarbon resource recovery from a subterranean formation comprising: a radio frequency (RF) source;an RF antenna to be positioned within the subterranean formation to deliver RF power to the hydrocarbon resource within the subterranean formation;an RF transmission line extending between said RF source and said RF antenna;said RF transmission line comprising a plurality of RF transmission line sections coupled together in end-to-end relation;each RF transmission line section comprising an inner conductor, an outer conductor surrounding said inner conductor, and an outer load-bearing tubular member surrounding said outer conductor;a respective coupling assembly joining opposing ends of adjacent RF transmission line sections together, each coupling assembly comprising an electrical coupler being fixedly connected to first ends of corresponding inner and outer conductors and being slidably connected to opposing second ends of adjacent inner and outer conductors, anda mechanical coupler connecting opposing ends of adjacent outer load-bearing tubular members together,said electrical coupler comprising an outer sleeve having a first end fixedly connected to the first end of the corresponding outer conductor and a second end slidably connected to the opposing second end of the adjacent outer conductor,an inner contact having a first end fixedly connected to the first end of the corresponding inner conductor and a second end slidably connected to the opposing second end of the adjacent inner conductor,a dielectric inner spacer received within said outer sleeve and supporting said inner contact, anda contact ring within the second end of said outer sleeve. 2. The apparatus according to claim 1 wherein each inner conductor has an open interior defining a fluid passageway; and further comprising a cooling fluid source connected to the fluid passageway of each inner conductor. 3. The apparatus according to claim 2 further comprising at least one outer spacer carried by an interior of each outer load-bearing tubular member and supporting each outer conductor; and wherein said at least one outer spacer has a plurality of passageways therethrough connected to said cooling fluid source. 4. The apparatus according to claim 1 wherein said contact ring comprises a watchband conductive spring contact and an expansion spring carried thereby. 5. The apparatus according to claim 1 further comprising a fluid seal within the second end of each outer sleeve. 6. The apparatus according to claim 1 wherein each mechanical coupler captures a corresponding electrical coupler at a first end of the corresponding load-bearing tubular member. 7. The apparatus according to claim 1 wherein said respective coupling assembly further comprises an outer spacer flange received within said outer load-carrying tubular member and carrying said electrical coupler. 8. The apparatus according to claim 1 wherein each outer load-bearing tubular member comprises steel; and wherein said inner and outer conductors each comprises copper. 9. A radio frequency (RF) transmission line to be coupled between an RF source and an RF antenna within a subterranean formation to deliver RF power to a hydrocarbon resource within the subterranean formation, the RF transmission line comprising: a plurality of RF transmission line sections coupled together in end-to-end relation within the subterranean formation;each RF transmission line section comprising an inner conductor, an outer conductor surrounding said inner conductor, and an outer load-bearing tubular member surrounding said outer conductor;a respective coupling assembly joining opposing ends of adjacent RF transmission line sections together, each coupling assembly comprising an electrical coupler being fixedly connected to first ends of corresponding inner and outer conductors and being slidably connected to opposing second ends of adjacent inner and outer conductors, anda mechanical coupler connecting opposing ends of adjacent load-bearing tubular members together, said mechanical coupler capturing a corresponding electrical coupler at a first end of the corresponding load-bearing tubular member. 10. The RF transmission line according to claim 9 wherein each outer load-bearing tubular member comprises steel; and wherein said inner and outer conductors each comprises copper. 11. A radio frequency (RF) transmission line to be coupled between an RF source and an RF antenna, the RF transmission line comprising: a plurality of RF transmission line sections coupled together in end-to-end relation;each RF transmission line section comprising an inner conductor, an outer conductor surrounding said inner conductor, and an outer load-bearing tubular member surrounding said outer conductor;a respective coupling assembly joining opposing ends of adjacent RF transmission line sections together, each coupling assembly comprising an electrical coupler being fixedly connected to first ends of corresponding inner and outer conductors and being slidably connected to opposing second ends of adjacent inner and outer conductors, anda mechanical coupler connecting opposing ends of adjacent outer load-bearing tubular members together,said electrical coupler comprising an outer sleeve having a first end fixedly connected to the first end of the corresponding outer conductor and a second end slidably connected to the opposing second end of the adjacent outer conductor,an inner contact having a first end fixedly connected to the first end of the corresponding inner conductor and a second end slidably connected to the opposing second end of the adjacent inner conductor,a dielectric inner spacer received within said outer sleeve and supporting said inner contact, anda contact ring within the second end of said outer sleeve. 12. The RF transmission line according to claim 11 wherein said contact ring comprises a watchband conductive spring contact and an expansion spring carried thereby. 13. The RF transmission line according to claim 11 further comprising a fluid seal within the second end of each outer sleeve. 14. The RF transmission line according to claim 11 wherein each mechanical coupler captures a corresponding electrical coupler at a first end of the corresponding load-bearing tubular member. 15. The RF transmission line according to claim 11 wherein said respective coupling assembly further comprises an outer spacer flange received within said outer load-bearing tubular member and carrying said electrical coupler. 16. The RF transmission line according to claim 11 wherein each outer load-bearing tubular member comprises steel; and wherein said inner and outer conductors each comprises copper. 17. A method for making a radio frequency (RF) transmission line to be coupled between an RF source and an RF antenna within a subterranean formation to deliver RF power to a hydrocarbon resource within the subterranean formation, the method comprising: providing a plurality of RF transmission line sections to be coupled together in end-to-end relation with each RF transmission line section comprising an inner conductor, an outer conductor surrounding the inner conductor, and an outer load-carrying tubular member surrounding the outer conductor;using a respective coupling assembly to join opposing ends of adjacent RF transmission line sections together, each coupling assembly comprising an electrical coupler being fixedly connected to first ends of corresponding inner and outer conductors and being slidably connected to opposing second ends of adjacent inner and outer conductors, anda mechanical coupler connecting opposing ends of adjacent outer load-bearing tubular members together,the electrical coupler comprising an outer sleeve having a first end fixedly connected to the first end of the corresponding outer conductor and a second end slidably connected to the opposing second end of the adjacent outer conductor,an inner contact having a first end fixedly connected to the first end of the corresponding inner conductor and a second end slidably connected to the opposing second end of the adjacent inner conductor,a dielectric inner spacer received within the outer sleeve and supporting the inner contact, anda contact ring within the second end of the outer sleeve. 18. The method according to claim 17 further comprising positioning a fluid seal within the second end of each outer sleeve. 19. The method according to claim 17 wherein each mechanical coupler captures a corresponding electrical coupler at a first end of the corresponding load-bearing tubular member. 20. A radio frequency (RF) transmission line to be coupled between an RF source and an RF antenna within a subterranean formation to deliver RF power to a hydrocarbon resource within the subterranean formation, the RF transmission line comprising: a plurality of RF transmission line sections coupled together in end-to-end relation within the subterranean formation;each RF transmission line section comprising an inner conductor, an outer conductor surrounding said inner conductor, and an outer load-bearing tubular member surrounding said outer conductor;a respective coupling assembly joining opposing ends of adjacent RF transmission line sections together, each coupling assembly comprising an electrical coupler being fixedly connected to first ends of corresponding inner and outer conductors and being slidably connected to opposing second ends of adjacent inner and outer conductors, said electrical coupler comprising an outer sleeve having a first end fixedly connected to the first end of the corresponding outer conductor and a second end slidably connected to the opposing second end of the adjacent outer conductor,an inner contact having a first end fixedly connected to the first end of the corresponding inner conductor and a second end slidably connected to the opposing second end of the adjacent inner conductor,a contact ring within the second end of said outer sleeve, anda dielectric inner spacer received within said outer sleeve and supporting said inner contact, anda mechanical coupler connecting opposing ends of adjacent outer load-bearing tubular members together. 21. The RF transmission line according to claim 20 wherein said contact ring comprises a watchband conductive spring contact and an expansion spring carried thereby. 22. The RF transmission line according to claim 20 wherein each outer load-bearing tubular member comprises steel; and wherein said inner and outer conductors each comprises copper. 23. A radio frequency (RF) transmission line to be coupled between an RF source and an RF antenna within a subterranean formation to deliver RF power to a hydrocarbon resource within the subterranean formation, the RF transmission line comprising: a plurality of RF transmission line sections coupled together in end-to-end relation within the subterranean formation;each RF transmission line section comprising an inner conductor, an outer conductor surrounding said inner conductor, and an outer load-bearing tubular member surrounding said outer conductor;a respective coupling assembly joining opposing ends of adjacent RF transmission line sections together, each coupling assembly comprising an electrical coupler being fixedly connected to first ends of corresponding inner and outer conductors and being slidably connected to opposing second ends of adjacent inner and outer conductors, said electrical coupler comprising an outer sleeve having a first end fixedly connected to the first end of the corresponding outer conductor and a second end slidably connected to the opposing second end of the adjacent outer conductor,an inner contact having a first end fixedly connected to the first end of the corresponding inner conductor and a second end slidably connected to the opposing second end of the adjacent inner conductor,a fluid seal within the second end of said outer sleeve, anda dielectric inner spacer received within said outer sleeve and supporting said inner contact, anda mechanical coupler connecting opposing ends of adjacent outer load-bearing tubular members together. 24. The RF transmission line according to claim 23 wherein each outer load-bearing tubular member comprises steel; and wherein said inner and outer conductors each comprises copper. 25. A radio frequency (RF) transmission line to be coupled between an RF source and an RF antenna within a subterranean formation to deliver RF power to a hydrocarbon resource within the subterranean formation, the RF transmission line comprising: a plurality of RF transmission line sections coupled together in end-to-end relation within the subterranean formation;each RF transmission line section comprising an inner conductor, an outer conductor surrounding said inner conductor, and an outer load-bearing tubular member surrounding said outer conductor;a respective coupling assembly joining opposing ends of adjacent RF transmission line sections together, each coupling assembly comprising an electrical coupler being fixedly connected to first ends of corresponding inner and outer conductors and being slidably connected to opposing second ends of adjacent inner and outer conductors,a mechanical coupler connecting opposing ends of adjacent outer load-bearing tubular members together, andan outer spacer flange received within said outer load-bearing tubular member and carrying said electrical coupler. 26. The RF transmission line according to claim 25 wherein each outer load-bearing tubular member comprises steel; and wherein said inner and outer conductors each comprises copper.
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Meyer Jeffry R. (Penn Hill Township ; Allegheny County PA) Hopkins Melvyn D. (N. Grafton MA) Bowman Gary K. (Westboro MA), Gas insulated transmission line with shielded electrical joint assembly.
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