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Title: Generation of electricity during the injection of a dense fluid into a subterranean formation
Claims: Having now described the invention, I claim: 1. A method for the generation of electricity during the injection of a dense fluid through an injection well and into a subterranean formation having a connate fluid pressure less than the available downhole pressure of the dense fluid in the injection well, which method comprises: placing a fluid engine/generator at a preselected position in said injection well, thereby defining upper and lower zones in said well above and below said fluid engine/generator, respectively, said fluid engine/generator including means for converting the motive power of a flowing stream of said dense fluid to electricity; establishing a column of said dense fluid in said upper zone of said well; flowing said dense fluid from said upper zone through said fluid engine/generator and into said subterranean formation, thereby generating electricity; and transmitting said electricity to the surface. 2. The method defined in claim 1 wherein said dense fluid is a liquid selected from the group consisting of aqueous and oleaginous liquids. 3. The method defined in claim 1 wherein said dense fluid is an aqueous liquid derived from geothermal steam or geothermal brine. 4. The method defined in claim 1 wherein said dense fluid is a normally gaseous fluid which has been compressed to a relatively dense liquid-like state at temperatures above its critical temperature. 5. The method defined in claim 4 wherein said dense fluid comprises carbon dioxide which has been compressed to a relatively dense liquid-like state at temperatures above its critical temperature. 6. The method of claim 1 wherein said fluid engine/generator includes a fluid engine, an electrical generator and means for mechanically coupling said engine to said generator, and wherein the flow of said dense fluid through said engine results in the generation of electricity. 7. The method of claim 6 wherein said fluid engine is selected from the group consisting of turbines and positive displacement engines, and wherein said fluid engine/generator further includes means for allowing said dense fluid to bypass said fluid engine/generator when said fluid engine/generator is inactivated. 8. The method of claim 1 wherein said preselected position is at least 500 feet below the earth surface but above said subterranean formation. 9. The method of claim 1 wherein said preselected position is at least 5,000 feet below the earth surface but above said subterranean formation. 10. In a method for generating electricity wherein a hot geothermal fluid is produced from a subterranean geothermal reservoir, the thermal energy of the hot fluid is extracted therefrom to produce a cool geothermal liquid, and the geothermal liquid is injected through an injection well into a subterranean formation having a connate fluid pressure less than the available hydrostatic head of the geothermal liquid in the injection well, the improvement comprising: placing a fluid engine/generator at a preselected position in said injection well, said fluid engine/generator including means for converting the motive power of a flowing stream of said geothermal liquid to electricity, said preselected position being at least about 5,000 feet below the earth surface but above said subterranean formation; establishing in said injection well a column of said geothermal liquid above said fluid engine/generator; flowing said geothermal liquid through said fluid engine/generator and into said subterranean formation, thereby generating electricity; and transmitting said electricity to the earth surface. 11. In the method for recovering oil from a subterranean formation, in which a displacement fluid comprising a normally gaseous fluid is introduced into the top of an injection well as a dense fluid and is flowed downwardly through said injection well to a downhole point adjacent said subterranean formation and into said formation to displace oil through the formation to a production well, the pressure of said displacement fluid at said downhole point being in excess of a desired displacement pressure, the improvement comprising: positioning a fluid engine/generator at a preselected position in said injection well, said fluid engine/generator including means for converting the motive power of a flowing stream of said displacement fluid to electricity thereby reducing the pressure of said displacement fluid; introducing said displacement fluid into the top of said injection well at the desired fluid injection rate and at a pressure sufficient to maintain said displacement fluid in the dense fluid state throughout said injection well; flowing said displacement fluid through said fluid engine/generator and into said subterranean formation, thereby generating electricity and reducing the pressure of said displacement fluid at said downhole point to about said desired displacement pressure; and transmitting said electricity to the earth surface. 12. The method of claim 11 wherein said displacement fluid is a fluid selected from the group consisting of carbon dioxide, nitrous oxide and the normally gaseous hydrocarbons having from 1 to 6 carbon atoms per molecule. 13. The method of claim 11 wherein the pressure of said displacement fluid at said downhole point is at least about 500 p.s.i. in excess of said desired displacement pressure. 14. The method of claim 11 wherein the desired displacement pressure is the pressure at which said dense fluid miscibly displaces said oil. 15. In the method for recovering oil from a subterranean formation by miscible-displacement of the oil with a displacement fluid comprised of carbon dioxide, wherein said displacement fluid is introduced into the top of an injection well as a dense fluid, and is flowed downwardly through said injection well to a downhole point adjacent said formation and into said formation to miscibly displace oil through the formation to a production well, the pressure of said displacement fluid at said downhole point being at least about 500 p.s.i. above the miscible-displacement pressure, the improvement comprising: positioning a fluid engine/generator at a preselected position in said injection well, said fluid engine/generator including means for converting the motive power of a flowing stream of said displacement fluid to electrical energy and thereby reduce the pressure of said displacement fluid; introducing said displacement fluid into the top of said injection well at the desired flow rate and at a pressure sufficient to maintain said displacement fluid in the dense fluid state throughout the well; flowing said displacement fluid through said fluid engine/generator and into said subterranean formation, thereby generating electricity and reducing the pressure of said displacement fluid at said downhole point to about said miscible-displacement pressure; and transmitting said electricity to the earth surface. Other info: Inventors: Chasteen, Anthony J. (Brawley, CA, US) Application Number: 869603 Filing Date: 1978-01-16 Publication_date: 1979-01-02 Assignee: Union Oil Company of California (Brea, CA) Primary Class(es): 166/268 60/641.2, 166/65.1, 166/305.1, 290/52 Other Classes: US Patent Ref:
Other Refs:
Chasteen, "Geothermal Steam Condensate Reinjection," Ibid, pp. 1335, 1336. Scott, "Hydropower from Underground Pumped Storage," Energy Sources, vol. 2, No. 2, Sept. 1975, pp. 217-227. | |