Carbon dioxide-based geothermal energy generation systems and methods related thereto
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
E21B-043/24
F03G-007/00
출원번호
US-0202746
(2010-03-12)
등록번호
US-8316955
(2012-11-27)
국제출원번호
PCT/US2010/000756
(2010-03-12)
§371/§102 date
20110916
(20110916)
국제공개번호
WO2010/104599
(2010-09-16)
발명자
/ 주소
Saar, Martin O.
Randolph, Jimmy Bryan
Kuehn, Thomas H.
출원인 / 주소
Regents of the University of Minnesota
대리인 / 주소
Schwegman, Lundberg & Woessner, P.A.
인용정보
피인용 횟수 :
7인용 특허 :
22
초록▼
A geothermal energy generation system comprises one or more injection wells for accessing one or more reservoirs having a first temperature, wherein the reservoirs are located below one or more caprocks and are accessible without using large-scale hydrofracturing. Each of the injection wells has an
A geothermal energy generation system comprises one or more injection wells for accessing one or more reservoirs having a first temperature, wherein the reservoirs are located below one or more caprocks and are accessible without using large-scale hydrofracturing. Each of the injection wells has an injection well reservoir opening, and one or more production wells each having a production well reservoir opening. A non-water based working fluid can be provided to the injection wells at a second temperature lower than the first temperature. Exposure of the working fluid to the first temperature can produce heated working fluid capable of entering one or more production wells. An energy converting apparatus is connected to each of the one or more injection wells and the one or more productions wells and thermal energy contained in the heated working fluid can be converted to electricity, heat, or combinations thereof, in the energy converting apparatus.
대표청구항▼
1. A system comprising: one or more injection wells for accessing one or more reservoirs having a first temperature, wherein the one or more reservoirs are located below one or more caprocks, each caprock having a permeability ranging from about 10−16 m2 to about zero (0) m2, wherein the one or more
1. A system comprising: one or more injection wells for accessing one or more reservoirs having a first temperature, wherein the one or more reservoirs are located below one or more caprocks, each caprock having a permeability ranging from about 10−16 m2 to about zero (0) m2, wherein the one or more reservoirs are accessible without using large-scale hydrofracturing, each of the one or more injection wells having an injection well reservoir opening;one or more production wells, each having a production well reservoir opening, wherein a non-water based working fluid provided to the one or more injection wells at a second temperature lower than the first temperature and exposure of the non-water based working fluid to the first temperature produces heated non-water based working fluid capable of entering each of the one or more production well reservoir openings; andan energy converting apparatus connected to each of the one or more injection wells and the one or more productions wells, wherein thermal energy contained in the heated non-water based working fluid is converted to electricity, heat, or combinations thereof, in the energy converting apparatus. 2. The system of claim 1, wherein each of the one or more injection wells and each of the one or more production wells are located in a common channel and the system further comprises one or more injection pipes and one or more production pipes connected to the common channel. 3. The system of claim 1, comprising a non-water based working fluid source. 4. The system of claim 1, wherein the non-water based working fluid source is carbon dioxide obtainable from a power plant or an industrial plant. 5. The system of claim 4, wherein the power plant is an ethanol plant or a fossil-fuel based plant and the system further comprises the power plant or the industrial plant. 6. The system of claim 1, wherein the carbon dioxide is supercritical carbon dioxide, further wherein the energy converting apparatus comprises at least one of: one or more expansion; one or more generators; or one or more heat exchangers. 7. The system of claim 6, wherein the one or more expansion devices and the one or more generators provide electricity to an electricity provider. 8. The system of claim 6, wherein each of the one or more heat exchangers provide heat to a heat provider. 9. The system of claim 8, wherein the heat provider is a direct use provider or a ground heat pump. 10. The system of claim 1, further comprising one or more cooling units fluidly connected to the one or more production wells and the one or more injection wells. 11. A method comprising: without using large-scale hydrofracturing, accessing one or more underground reservoirs having a natural temperature, the one or more reservoirs located beneath one or more caprocks, each caprock having a permeability ranging from about 10−16 m2 to about zero (0) m2,introducing a non-water based working fluid into the one or more reservoirs;exposing the non-water based fluid to the natural temperature to produce heated fluid; andextracting thermal energy from the fluid. 12. The method of claim 11, wherein the non-water based working fluid is carbon dioxide. 13. The method of claim 12, wherein the carbon dioxide is supercritical carbon dioxide. 14. The method of claim 11, wherein the heated fluid also contains native fluid present in the one or more reservoirs. 15. The method of claim 11, wherein the one or more reservoirs each have a porosity ranging from about one (1) % to about 50% and a permeability ranging from about 10−16 m2 to about 10−6 m2. 16. The method of claim 11, wherein the natural temperature is between about −30° C. and about 300° C. 17. The method of claim 11, wherein the thermal energy is used for at least one of: producing electricity; heating a working fluid in one or more heat exchangers; providing condensed fluid to the one or more reservoirs; providing cooled fluid to the one or more reservoirs; or providing shaft power to one or more pumps or compressors. 18. The method of claim 17, wherein the electricity is produced either by providing the hot fluid to one or more expansion devices or by providing the working fluid heated in the one or more heat exchangers to the one or more expansion devices, wherein the one or more expansion devices produces shaft power to one or more generators, which, in turn, produce the electricity. 19. The method of claim 17, wherein the working fluid heated in the one or more heat exchangers provides heat for at least one of: direct use; for groundwater heat pumps; or for a Rankine power cycle. 20. The method of claim 11, further comprising: choosing the underground reservoir;transporting a non-water based working fluid source to an area proximate to the injection well;converting the non-water based working fluid source into the non-water based working fluid; andproviding the heat energy to a customer.
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Foster John W. (2 Highlands Close Crowborough ; Sussex GA GB2) Jones Clarence R. (3445 Walton Way Augusta GA 30909), Method for enhancing simultaneous fracturing in the creation of a geothermal reservoir.
Foster John W. (2 Highlands Close Crowborough ; Sussex GB2), Method for producing a geothermal reservoir in a hot dry rock formation for the recovery of geothermal energy.
Crawford John T. (Naperville IL) Tyree ; Jr. Lewis (Oak Brook IL) Fischer Harry C. (Maggie Valley NC) Coers Don H. (Naperville IL), Power plant using CO2as a working fluid.
Zubrin, Robert M.; Berggren, Mark H., Systems and methods for generating electricity from carbonaceous material with substantially no carbon dioxide emissions.
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Saar, Martin O.; Randolph, Jimmy Bryan; Kuehn, Thomas H.; Carpenter, Kenneth, Carbon dioxide-based geothermal energy generation systems and methods related thereto.
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