An efficient high-temperature water vapor generator is used to heat heavy oil located in an underground cavity, thereby reducing the viscosity of the oil and enabling the oil to be pumped to the surface. The vapor generator includes a combustion chamber and a surrounding structure, wherein a cavity
An efficient high-temperature water vapor generator is used to heat heavy oil located in an underground cavity, thereby reducing the viscosity of the oil and enabling the oil to be pumped to the surface. The vapor generator includes a combustion chamber and a surrounding structure, wherein a cavity is located therebetween. Water is routed through the cavity and into the combustion chamber, where water vapor and heat are generated in the presence of fuel, ignition and air. The generated heat pre-heats the water in the cavity, thereby creating an efficient system. The water vapor is forced into the underground cavity, thereby heating the oil located in the cavity.
대표청구항▼
What is claimed is: 1. A method of extracting heavy oil, comprising: introducing water to a cavity that surrounds a combustion chamber, wherein the water is introduced at a location adjacent to a first end of the combustion chamber; removing water from the cavity at a location adjacent to a second
What is claimed is: 1. A method of extracting heavy oil, comprising: introducing water to a cavity that surrounds a combustion chamber, wherein the water is introduced at a location adjacent to a first end of the combustion chamber; removing water from the cavity at a location adjacent to a second end of the combustion chamber, opposite the first end; routing the water removed from the cavity into the combustion chamber at a location adjacent to the first end of the combustion chamber; introducing fuel and air into the combustion chamber at the first end; igniting the fuel and air, thereby heating the water in the combustion chamber to create water vapor, and pre-heating the water in the cavity surrounding the combustion chamber; routing the water vapor into a region containing heavy oil, whereby the water vapor heats the heavy oil, thereby reducing the viscosity of the heavy oil; and then extracting the heated heavy oil from the region. 2. The method of claim 1, further comprising forcing all combustion byproducts from the combustion chamber into the region containing heavy oil. 3. The method of claim 1, further comprising positioning the combustion chamber such that the first end is located at a higher elevation than the second end. 4. The method of claim 1, further comprising positioning the combustion chamber immediately adjacent to the region containing heavy oil. 5. The method of claim 1, further comprising forcing the water into the cavity, out of the cavity and into the combustion chamber. 6. The method of claim 1, further comprising introducing the air into the combustion chamber through a baffle. 7. The method of claim 1, wherein the air is introduced at a rate in the range of about 100 to 500 cubic feet per minute (cfpm) at a maximum pressure in the range of about 2 to 5 pounds/square inch (psi). 8. The method of claim 1, wherein the step of igniting the fuel and air comprises continuously introducing sparks at the first end of the combustion chamber. 9. A heavy oil extraction system comprising: a combustion chamber having a first end and a second end, located opposite the first end; means for initiating combustion at the first end of the combustion chamber; an outer structure surrounding the combustion chamber, wherein a cavity is located between the combustion chamber and the outer structure; a water inlet located at the outer structure adjacent to the first end of the combustion chamber, wherein the water inlet is configured to receive water into the cavity; a water outlet located at the outer structure adjacent to the second end of the combustion chamber, wherein the water outlet is configured to receive water from the cavity; a water injection element configured to introduce water adjacent to the first end of the combustion chamber; and a water conduit coupling the water outlet to the water injection element, wherein the water conduit is configured to transfer water from the cavity to the water injector element; and a vapor outlet configured to couple the second end of the combustion chamber to a region that contains heavy oil. 10. The heavy oil extraction system of claim 9, further comprising means for holding the combustion chamber in an upright position, wherein the first end of the combustion chamber is located at a higher elevation than the second end of the combustion chamber. 11. The heavy oil extraction system of claim 9, further comprising means for positioning the combustion chamber immediately adjacent to the region containing heavy oil. 12. The heavy oil extraction system of claim 9, further comprising a water pump coupled to the water inlet, wherein the water pump regulates the flow of water into the water inlet. 13. The heavy oil extraction system of claim 9, wherein the water injector element is configured to spray water into the combustion chamber. 14. The heavy oil extraction system of claim 9, wherein the means for initiating combustion comprise: an ignition source located in the combustion chamber adjacent to the first end; a fuel inlet configured to receive fuel into the combustion chamber adjacent to the first end; and an air inlet configured to receive air at the first end of the combustion chamber. 15. The heavy oil extraction system of claim 14, further comprising a blower configured to force air into the air inlet. 16. The heavy oil extraction system of claim 14, further comprising a baffle element coupled to the air inlet, wherein the baffle element shields the ignition source and the fuel inlet from the air inlet. 17. The heavy oil extraction system of claim 14, wherein the ignition source and the fuel inlet are located on opposite sides of the combustion chamber. 18. The heavy oil extraction system of claim 14, wherein the ignition source comprises a spark plug. 19. The heavy oil extraction system of claim 9, wherein the combustion chamber comprises a first cylindrical element and the outer structure comprises a second cylindrical element, wherein the cavity is located between the first and second cylindrical elements. 20. The heavy oil extraction system of claim 19, wherein the first and second cylindrical elements are tapered at each end.
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