Enhanced hydrocarbon recovery by steam injection of oil sand formations
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
E21B-043/24
E21B-043/16
E21B-043/26
E21B-043/25
E21B-049/00
출원번호
UP-0626112
(2007-01-23)
등록번호
US-7591306
(2009-10-20)
발명자
/ 주소
Hocking, Grant
출원인 / 주소
Geosierra LLC
대리인 / 주소
Smith, Gambrell & Russell
인용정보
피인용 횟수 :
6인용 특허 :
67
초록▼
The present invention involves a method and apparatus for enhanced recovery of petroleum fluids from the subsurface by injection of a steam and hydrocarbon vaporized solvent in contact with the oil sand formation and the heavy oil and bitumen in situ. Multiple propped hydraulic fractures are constru
The present invention involves a method and apparatus for enhanced recovery of petroleum fluids from the subsurface by injection of a steam and hydrocarbon vaporized solvent in contact with the oil sand formation and the heavy oil and bitumen in situ. Multiple propped hydraulic fractures are constructed from the well bore into the oil sand formation and filled with a highly permeable proppant. Steam, a hydrocarbon solvent, and a non-condensing diluent gas are injected into the well bore and the propped fractures. The injected gas flows upwards and outwards in the propped fractures contacting the oil sands and in situ bitumen on the vertical faces of the propped fractures. The steam condenses on the cool bitumen and thus heats the bitumen by conduction, while the hydrocarbon solvent vapors diffuse into the bitumen from the vertical faces of the propped fractures. The bitumen softens and flows by gravity to the well bore, exposing fresh surface of bitumen for the process to progressively soften and mobilize the bitumen in a predominantly circumferential, i.e. orthogonal to the propped fracture, diffusion direction at a nearly uniform rate into the oil sand deposit. The produced product of oil and dissolved solvent is pumped to the surface where the solvent can be recycled for further injection.
대표청구항▼
I claim: 1. A hydrocarbon production well in a formation of unconsolidated and weakly cemented sediments having an ambient reservoir pressure and temperature, comprising: a. a bore hole in the formation to a predetermined depth; b. an injection casing grouted in the bore hole at the predetermined d
I claim: 1. A hydrocarbon production well in a formation of unconsolidated and weakly cemented sediments having an ambient reservoir pressure and temperature, comprising: a. a bore hole in the formation to a predetermined depth; b. an injection casing grouted in the bore hole at the predetermined depth, the injection casing including multiple initiation sections separated by a weakening line and multiple passages within the initiation sections and communicating across the weakening line for the introduction of a fracture fluid; c. a fracture fluid source for delivering the fracture fluid into the injection casing with sufficient reservoir fracturing pressure to dilate the formation and initiate a vertical hydraulic fracture, having a fracture tip, at an azimuth orthogonal to the direction of dilation to create a process zone within the formation, for controlling the propagation rate of each individual opposing wing of the hydraulic fracture, and for controlling the flow rate of the fracture fluid and its viscosity so that the Reynolds Number Re is less than 100 at fracture initiation and less than 250 during fracture propagation and the fracture fluid viscosity is greater than 100 centipoise at the fracture tip; and d. a source for injecting steam at a steam pressure into the casing and the hydraulic fractures to produce hydrocarbons from the formation. 2. The well of claim 1, wherein the source injects an injection gas that is a mixture of steam, hydrocarbon solvent having a hydrocarbon solvent vapor phase, hydrogen, and carbon monoxide. 3. The well of claim 2, wherein the hydrocarbon solvent is one of a group of ethane, propane, butane, or a mixture thereof. 4. The well of claim 2, wherein the hydrocarbon solvent is mixed with a diluent gas. 5. The well of claim 4, wherein the diluent gas is non-condensable under the process conditions. 6. The well of claim 5, wherein the non-condensable diluent gas has a lower solubility in the hydrocarbons in the formation than the saturated hydrocarbon solvent. 7. The well of claim 4, wherein the diluent gas is one of a group of methane, nitrogen, carbon dioxide, natural gas, or a mixture thereof. 8. The well of claim 2, wherein the hydrocarbon solvent vapor is maintained saturated at or near its dew point. 9. The well of claim 8, wherein a spent tail gas is produced, additional steam and hydrocarbon solvent is added to the tail gas to create a tail gas mixture, and the tail gas mixture re-injected into the casing. 10. The well of claim 2, wherein the dew point of the hydrocarbon solvent vapor is adjusted to the downhole conditions by employing a solvent injector at depth to add additional hydrocarbon solvent to the process zone. 11. The well of claim 2, wherein the hydrocarbon solvent injection is sufficient to maintain a saturated state of the hydrocarbon solvent vapor in the process zone. 12. The well of claim 2, wherein the well further includes means for injecting a hydrogenising gas into the well casing and thus into the process zone to promote hydrogenation and thermal cracking of at least a portion of the hydrocarbons in the process zone. 13. The well of claim 12, wherein the well further include means for delivering a catalyst to the process for catalyzing the hydrogenation and thermal cracking of at least a portion of the petroleum fluids in the process zone. 14. The well of claim 13, wherein the catalyst is a metal-containing catalyst is used to catalyze said hydrogenation and thermal cracking reactions. 15. The well of claim 13, wherein the catalyst is contained in a canister inside of the well casing. 16. The well of claim 13, wherein a proppant in the hydraulic fractures contains the catalyst for the hydrogenation and thermal cracking reactions. 17. The well of claim 2, wherein the well has recycling means for recovering the dissolved hydrocarbon solvent in the produced hydrocarbons for re-injection. 18. The well of claim 2, wherein the hydrocarbon solvent vapor saturation within the injection gas is monitored and adjusted, based on the dew point of the injection gas. 19. The well of claim 1, wherein the steam pressure is close to the ambient reservoir pressure but substantially below the reservoir fracturing pressure. 20. The well of claim 1, wherein the hydraulic fractures are filled with proppants of differing permeability. 21. The well of claim 1, wherein the steam injection is a pressure pulsed cyclic intermittent injection. 22. The well of claim 1, wherein the steam injection is a continuous injection. 23. The well of claim 1, further comprising controlling the temperature and pressure in the majority of the part of the process zone, wherein the temperature is controlled as a function of pressure, or the pressure is controlled as a function of temperature. 24. The well of claim 1, wherein the pressure in the majority of the part of the process zone is at ambient reservoir pressure. 25. The well of claim 1, wherein at least two vertical fractures are installed from the bore hole at approximately orthogonal directions. 26. The well of claim 1, wherein at least three vertical fractures are installed from the bore hole. 27. The well of claim 1, wherein at least four vertical fractures are installed from the bore hole.
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이 특허에 인용된 특허 (67)
Grant Hocking ; Samuel L. Wells, Azimuth control of hydraulic vertical fractures in unconsolidated and weakly cemented soils and sediments.
Vinegar Harold J. (Houston TX) Mikus Thomas (Houston TX) Glandt Carlos A. (Houston TX) Karanikas John M. (Houston TX) De Rouffignac Eric P. (Houston TX), Heat injection process and apparatus.
Chaffee Brent F. (Yorba Linda CA) Kelly Brian J. (Corona CA) Koepke Jeffery W. (Orange CA) Kirby Michael J. (Kent WA), Hydraulic fracturing of shallow wells.
Klazinga Aan Hendrik,NLX ; Maesen Theodorus Ludovicus Michael,NLX ; Van Veen Johannes Anthonius Robert,NLX ; Van Vegchel Ingrid Maria,NLX, Hydrocarbon conversion catalysts.
Karanikas, John Michael; Vinegar, Harold J.; Wellington, Scott Lee; de Rouffignac, Eric Pierre; Maher, Kevin Albert; Zhang, Etuan; Fowler, Thomas David; Ryan, Robert Charles; Sumnu-Dindoruk, Meliha D, In situ thermal processing of hydrocarbons within a relatively permeable formation.
Glandt Carlos A. (Houston TX) Vinegar Harold J. (Houston TX) Gardner John W. (West University TX), Method and apparatus for producing tar sand deposits containing conductive layers having little or no vertical communica.
Eastlund Bernard J. (Spring TX) Schmitt Kenneth J. (The Woodlands TX) Bass Ronald M. (Houston TX) Harrison John M. (Houston TX), Method and system for introducing electric current into a well.
Ostapovich Eugene (Calgary CAX) Pebdani Farrokh N. (Calgary CAX), Method for enhanced oil recovery through a horizontal production well in a subsurface formation by in-situ combustion.
Glandt Carlos A. (Houston TX) Vinegar Harold J. (Houston TX) Prats Michael (Houston TX), Method of producing tar sand deposits containing conductive layers.
Vinegar Harold J. (Houston TX) De Rouffignac Eric P. (Houston TX) Glandt Carlos A. (Houston TX) Mikus Thomas (Houston TX) Beckemeier Mark A. (Houston TX), Oil recovery process.
Vinegar Harold J. (Houston TX) DeRouffignac Eric P. (Houston TX) Glandt Carlos A. (Houston TX) Mikus Thomas (Houston TX) Beckemeier Mark A. (Houston TX), Oil recovery process.
Butler Roger M. (7 Bayview Drive S.W. Calgary ; Alberta CAX T2V 3N7 ), Process and apparatus for the recovery of hydrocarbons from a reservoir of hydrocarbons.
Sultenfuss, Daniel R.; Menard, Wendell; Dreher, Jr., Wayne R.; Blount, Curtis G.; Parsche, Francis E.; Trautman, Mark A., RF fracturing to improve SAGD performance.
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