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Kafe 바로가기국가/구분 | United States(US) Patent 등록 |
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국제특허분류(IPC7판) |
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출원번호 | US-0757650 (2010-04-09) |
등록번호 | US-8448707 (2013-05-28) |
발명자 / 주소 |
|
출원인 / 주소 |
|
인용정보 | 피인용 횟수 : 1 인용 특허 : 794 |
A system for heating a subsurface formation includes a heater wellbore located in a subsurface formation. A single conducting heater element includes a heated portion located in a part of the subsurface formation configured to be heated and a lead-in portion located in an overburden of the subsurfac
A system for heating a subsurface formation includes a heater wellbore located in a subsurface formation. A single conducting heater element includes a heated portion located in a part of the subsurface formation configured to be heated and a lead-in portion located in an overburden of the subsurface formation. The heated part is located below the overburden. A heater casing is located substantially in an overburden portion of the heater wellbore. The heater casing includes an electrically non-conducting portion and an electrically conducting portion. The non-conducting portion begins at the surface of the formation. The conducting portion is located between the non-conducting portion and the heated portion of the heater. The non-conducting portion extends to a depth that is at least about 30 m above the heated portion of the heater.
1. A system for heating a subsurface formation, comprising: a heater wellbore extending from a surface of the formation through an overburden of the formation and into a part of the formation below the overburden;a single conducting heater element located in the heater wellbore, wherein the heater e
1. A system for heating a subsurface formation, comprising: a heater wellbore extending from a surface of the formation through an overburden of the formation and into a part of the formation below the overburden;a single conducting heater element located in the heater wellbore, wherein the heater element comprises a lead-in portion located in the overburden of the formation and a heating portion located below the lead-in portion, and wherein the heating portion is configured to provide heat to the part of the formation below the overburden; anda heater casing located in a portion of the heater wellbore in the overburden, the heater casing comprising an electrically non-conducting portion and an electrically conducting portion;wherein the non-conductive portion begins at the surface of the formation and extends at most to a depth that is about 30 m from the heating portion of the heater, and wherein the conducting portion is located between the non-conducting portion and the heating portion; further comprising an additional heater wellbore with an additional conducting heater element in the additional wellbore, wherein the non-conducting portion extends to a depth that is greater than twice the distance between the heater wellbore and the additional heater wellbore, and wherein the additional conducting heater element has a polarity opposite the signal conducting element. 2. The system of claim 1, wherein the non-conducting portion is configured to inhibit induction of surface potentials from the lead-in portion in the overburden of the formation. 3. The system of claim 1, wherein the non-conducting portion is configured to inhibit linear current induction in one or more additional conductors at the surface of the formation. 4. The system of claim 1, wherein the non-conducting portion is configured to inhibit voltage potential induction in one or more additional conductors at the surface of the formation. 5. The system of claim 1, wherein the non-conducting portion comprises fiberglass. 6. The system of claim 1, wherein the non-conducting portion extends at most to a depth that is about 100 m from the heating portion of the heater. 7. The system of claim 1, wherein the non-conducting portion extends to at most a depth that is about 150 m from the heating portion of the heater. 8. A system for heating a subsurface formation, comprising: a heater wellbore extending from a surface of the formation through an overburden of the formation and into a part of the formation below the overburden;a heater located in the heater wellbore, wherein the heater comprises a heating portion located in the part of the formation below the overburden and a lead-in portion located in the overburden of the formation, and wherein the heating portion comprises a single conducting element; anda heater casing located in a portion of the heater wellbore in the overburden, the heater casing comprising an electrically non-conducting portion and an electrically conducting portion;wherein the non-conducting portion begins at the surface of the formation and extends to a depth of at least about 10 m below the surface, and wherein the conducting portion is located between the non-conducting portion and the heating portion; further comprising an additional heater wellbore with an additional conducting heater element in the additional wellbore, wherein the non-conducting portion extends to a depth that is greater than twice the distance between the heater wellbore and the additional heater wellbore, and wherein the additional conducting heater element has a polarity opposite the signal conducting element. 9. The system of claim 8, wherein the non-conducting portion is configured to inhibit induction of surface potentials from the lead-in portion of the heater in the overburden of the formation. 10. The system of claim 8, wherein the non-conducting portion is configured to inhibit linear current induction in one or more additional conductors at the surface of the formation. 11. The system of claim 8, wherein the non-conducting portion is configured to inhibit voltage potential induction in one or more additional conductors at the surface of the formation. 12. The system of claim 8, wherein the non-conducting portion comprises fiberglass. 13. The system of claim 8, further comprising an additional heater wellbore with an additional conducting heater element in the additional wellbore, wherein the depth of at least about 10 m is greater than a distance between the heater wellbore and the additional heater wellbore. 14. A system for heating a subsurface formation, comprising: a heater wellbore extending from a surface of the formation through an overburden of the formation and into a part of the formation below the overburden;a single conducting heater element located in the heater wellbore, wherein the heater element comprises a lead-in portion located in the overburden of the formation and a heating portion located below the lead-in portion, and wherein the heating portion is configured to provide heat to the part of the formation below the overburden; anda heater casing located in a portion of the heater wellbore in the overburden, the heater casing comprising an electrically non-conducting portion and an electrically conducting portion;wherein the non-conducting portion begins at the surface of the formation and extends to a depth that is at least below a surface moisture zone in the overburden, wherein the surface moisture zone comprises a portion of the overburden at or near the surface that has a moisture content greater than a moisture content in the portion of the overburden below the surface moisture zone, and wherein the conducting portion is located between the non-conducting portion and the heating portion; further comprising an additional heater wellbore with an additional conducting heater element in the additional wellbore, wherein the single conducting heater element has a polarity opposite of the additional conducting heater element of the additional wellbore, and wherein the additional wellbore has a second heater casing located in the overburden portion of the additional wellbore, the second heater casing comprising a non-conduction portion, and wherein the non-conducting portions of the heater casings of the heater wellbore and the additional heater wellbore extend to depths that are twice the distance between the heater wellbore and the additional wellbore. 15. The system of claim 14, wherein the non-conducting portion is configured to inhibit induction of surface currents and potentials from the lead-in portion in the overburden of the formation. 16. The system of claim 14, wherein the non-conducting portion comprises fiberglass. 17. The system of claim 14, further comprising an additional heater wellbore with an additional conducting heater element in the additional wellbore, wherein the non-conducting portion extends to a depth that is greater than a distance between the heater wellbore and the additional heater wellbore. 18. A system for heating a subsurface formation, comprising: a first heater wellbore in a plurality of heater wellbores extending from a surface of the formation through an overburden of the formation and into a part of the formation below the overburden, the first heater wellbore comprising: a first single conducting heater element located in the first heater wellbore, wherein the first heater element comprises a first lead-in portion located in the overburden of the formation and a first heating portion located below the first lead-in portion, and wherein the first heating portion is configured to provide heat to the part of the formation below the overburden; anda first heater casing located in a portion of the first heater wellbore in the overburden, the first heater casing comprising a first electrically non-conducting portion and a first electrically conducting portion, wherein the first conducting portion is located between the first non-conducting portion and the first heating portion; anda second heater wellbore in the plurality of heater wellbores, the second heater wellbore being adjacent to the first heater wellbore, the second heater wellbore comprising: a second single conducting heater element located in the second heater wellbore, wherein the second heater element comprises a second lead-in portion located in the overburden of the formation and a second heating portion located below the second lead-in portion, wherein the second heating portion is configured to provide heat to the part of the formation below the overburden, and wherein the second single conducting heater element has a polarity opposite of the first single conducting heater element; anda second heater casing located in a portion of the second heater wellbore in the overburden, the second heater casing comprising a second electrically non-conducting portion and a second electrically conducting portion, wherein the second conducting portion is located between the second non-conducting portion and the second heating portion;wherein the first and second non-conducting portions extend to depths at least twice a distance between the first heater wellbore and the second heater wellbore.
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