IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
UP-0409523
(2006-04-21)
|
등록번호 |
US-7831133
(2010-11-25)
|
발명자
/ 주소 |
- Vinegar, Harold J.
- Sandberg, Chester Ledlie
|
출원인 / 주소 |
|
인용정보 |
피인용 횟수 :
99 인용 특허 :
162 |
초록
▼
A heating system for a subsurface formation is described. The heating system includes a first heater, a second heater, and a third heater placed in an opening in the subsurface formation. Each heater includes: an electrical conductor; an insulation layer at least partially surrounding the electrical
A heating system for a subsurface formation is described. The heating system includes a first heater, a second heater, and a third heater placed in an opening in the subsurface formation. Each heater includes: an electrical conductor; an insulation layer at least partially surrounding the electrical conductor; and an electrically conductive sheath at least partially surrounding the insulation layer. The electrical conductor is electrically coupled to the sheath at a lower end portion of the heater. The lower end portion is the portion of the heater distal from a surface of the opening. The first heater, the second heater, and the third heater are electrically coupled at the lower end portions of the heaters. The first heater, the second heater, and the third heater are configured to be electrically coupled in a three-phase wye configuration.
대표청구항
▼
What is claimed is: 1. A heating system for a subsurface formation, comprising: a first heater, a second heater, and a third heater placed in an opening in the subsurface formation, wherein each heater comprises: an electrical conductor, wherein the electrical conductor comprises: a ferromagnetic c
What is claimed is: 1. A heating system for a subsurface formation, comprising: a first heater, a second heater, and a third heater placed in an opening in the subsurface formation, wherein each heater comprises: an electrical conductor, wherein the electrical conductor comprises: a ferromagnetic conductor; and an outer electrical conductor electrically coupled to the ferromagnetic conductor, the outer electrical conductor at least partially surrounding the ferromagnetic conductor, and the outer electrical conductor providing a majority of a resistive heat output of the heater at temperatures up to a temperature approximately 50° C. below a selected temperature; an insulation layer at least partially surrounding the electrical conductor; an electrically conductive sheath at least partially surrounding the insulation layer; wherein the electrical conductor is electrically coupled to the sheath at a lower end portion of the heater, the lower end portion being the portion of the heater distal from a surface of the opening; the first heater, the second heater, and the third heater being electrically coupled at the lower end portions of the heaters; and the first heater, the second heater, and the third heater being configured to be electrically coupled in a three-phase wye configuration. 2. The heating system of claim 1, wherein the system further comprises a support member, the first heater, the second heater, and the third heater being coupled to the support member. 3. The heating system of claim 1, wherein the insulation layer comprises one or more electrical insulators at least partially surrounding the electrical conductor. 4. The heating system of claim 1, wherein the heating system has a turndown ratio of at least about 1.1. 5. The heating system of claim 1, wherein the electrical conductor further comprises: an inner electrical conductor, the ferromagnetic coductor at least partially surrounding the inner electrical conductor and electrically coupled to the inner electrical conductor. 6. The heating system of claim 1, wherein the ferromagnetic conductor is positioned relative to the outer electrical conductor such that an electromagnetic field produced by current flow in the ferromagnetic conductor confines a majority of the flow of the electrical current to the outer electrical conductor at temperatures below or near the selected temperature. 7. The heating system of claim 5, wherein the inner electrical conductors, the ferromagnetic conductors, and the outer electrical conductors are electrically coupled such that a power factor of the heating system remains above about 0.85 during use of the heater. 8. The heating system of claim 1, wherein the selected temperature is the Curie temperature of the ferromagnetic conductor. 9. The heating system of claim 1, wherein the heating system is configured to provide (a) a first heat output below the selected temperature, and (b) a second heat output approximately at and above the selected temperature, the second heat output being reduced compared to the first heat output. 10. The heating system of claim 9, wherein the heating system is configured to automatically provide the second heat output. 11. The heating system of claim 9, wherein the second heat output is at most 90% of the first heat output, the first heat output being at about 50° C. below the selected temperature. 12. A heating system, comprising: a first heater, a second heater, and a third heater, wherein each heater comprises: a ferromagnetic member; an electrical conductor electrically coupled to the ferromagnetic member, the electrical conductor configured to provide a first heat output below the Curie temperature of the ferromagnetic member, and the electrical conductor configured to conduct a majority of the electrical current passing through the cross-section of the heater at about 25° C.; and the heater automatically provides a second heat output approximately at and above the Curie temperature of the ferromagnetic member, the second heat output being reduced compared to the first heat output; a plurality of electrical insulators, wherein each electrical insulator surrounds one of the heaters; and a conduit surrounding the heaters and the electrical insulators, the conduit electrically insulated from the heaters by one or more electrical insulators, and the conduit configured to inhibit formation fluids from entering the conduit. 13. The heating system of claim 12, wherein the electrical insulators are spaced along the lengths of each of the heaters such that the electrical insulators surrounding one of the heaters laterally overlap the electrical insulators surrounding another one of the heaters. 14. The heating system of claim 12, wherein the heating system has a turndown ratio of at least about 1.1. 15. The heating system of claim 12, wherein the ferromagnetic conductor is positioned relative to the electrical conductor such that an electromagnetic field produced by current flow in the ferromagnetic conductor confines a majority of the flow of the electrical current to the electrical conductor at temperatures below or near the Curie temperature of the ferromagnetic conductor. 16. The heating system of claim 12, wherein the heating system is configured to provide (a) a first heat output below the Curie temperature of the ferromagnetic conductor, and (b) a second heat output approximately at and above the Curie temperature of the ferromagnetic conductor, the second heat output being reduced compared to the first heat output. 17. The heating system of claim 16, wherein the second heat output is at most 90% of the first heat output, the first heat output being at about 50° C. below the selected temperature. 18. The heating system of claim 12, wherein the ferromagnetic member and the electrical conductor are electrically coupled such that a power factor of the heater remains above 0.85 during use of each heater. 19. The heating system of claim 12, wherein the electrical insulators comprise silicon nitride. 20. The heating system of claim 12, wherein the heating system is configured to allow heat to transfer from the heaters to a part of the subsurface formation. 21. The heating system of claim 12, wherein the heaters, the electrical insulators, and the strength member are configured to be placed in an opening in a subsurface formation.
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