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A subterranean formation stimulation system, comprising a gas generator, a high pressure seal, and a fluid injection system. The high pressure seal may be a packer and or plug having an outer sealing surface on its outer periphery. The outer sealing surface is configured for metal to metal contact w

A subterranean formation stimulation system, comprising a gas generator, a high pressure seal, and a fluid injection system. The high pressure seal may be a packer and or plug having an outer sealing surface on its outer periphery. The outer sealing surface is configured for metal to metal contact with the inner circumference of wellbore casing. The gas generator can be compressed gas or a propellant. A shaped charge can be included to activate the generator. The system is disposable in a wellbore on wireline, slick line, or tubing.

대표청구항 ▼

What is claimed is: 1. A wellbore hydrocarbon production stimulation system comprising: a housing formed for placement within a wellbore thereby defining an annulus between the housing and the wellbore; a wireline for conveying the system in and out of the wellbore; a first high pressure seal coupl

What is claimed is: 1. A wellbore hydrocarbon production stimulation system comprising: a housing formed for placement within a wellbore thereby defining an annulus between the housing and the wellbore; a wireline for conveying the system in and out of the wellbore; a first high pressure seal coupled to the housing and selectively extendable into sealing engagement between the housing and the wellbore inner surface; a second high pressure seal coupled to the housing and selectively extendable into sealing engagement between the housing and the wellbore inner surface; and a pressure generator provided with the housing between the first and second high pressure seals, so that when the first and second high pressure seals extend into sealing engagement with the wellbore inner surface and the pressure generator is activated the annulus is pressurized between the seals. 2. The system of claim 1, wherein the high-pressure seal is selected from the list consisting of a packer and a plug. 3. The system of claim 2, wherein the seal comprises a wall having a circumferential section configured to deform in response to an applied force. 4. The system of claim 3 further comprising another section and wherein one section is disposed on an inner surface of the wall and one section is on the outer surface of the wall. 5. The system of claim 2, wherein the packer seal further comprises an outer sealing surface disposed on its outer periphery. 6. The system of claim 5, wherein the outer sealing surface is configured for mating engagement with the inner surface of a wellbore casing thereby creating a metal to metal seal capable of sealing against high pressure. 7. The system of claim 1 further comprising shaped charges coupled with the housing, an injection material in the housing, and a selectively opened port in the housing between the injection material and the housing outer surface, the port disposed between the pressure generator and the shaped charges, so that detonating the shaped charges to create perforations from the wellbore, selectively opening the port thereby allowing the injection material to flow from the housing into the wellbore, and then activating the pressure source, pushes the injection material into the perforations. 8. The system of claim 1 wherein the pressure generator is selected from the list consisting of a propellant and compressed gas. 9. The system of claim 1 further comprising a shaped charge. 10. The system of claim 9, wherein the shaped charge is formed for initiating operation of the pressure generator. 11. The system of claim 1 further comprising a firing head. 12. The system of claim 1 further comprising injection material stored in the housing and a selectively opened port in the housing between the injection material and the housing outer surface. 13. The system of claim 12 wherein the injection material is selected from the list consisting of proppant, sand, acidic solution, and gel. 14. The system of claim 1, further comprising a controller. 15. A method of subterranean formation stimulation comprising: providing a stimulation system comprising, a housing, a selectively activatable seal coupled with the housing, a selectively activatable high pressure source selected from the list consisting of propellant and compressed gas, and an injection material in the housing; disposing the stimulation system into a wellbore that intersects the formation; sealing between the stimulation system and the wellbore by using the seal to pressure isolate a portion of the wellbore; pressurizing the isolated portion of the wellbore by activating the high pressure source; and releasing the injection material from the housing, so that the pressure from the high pressure source urges the isolation material into the formation. 16. The method of claim 15, wherein the system includes a second seal coupled with the housing on a side opposite the high pressure source, the method further comprising sealing between the housing and the wellbore with the second seal so that the isolated portion of the wellbore is adjacent the housing. 17. The method of claim 16, further comprising fracturing the subterranean formation using the pressure generated by the high pressure source. 18. The method of claim 17, wherein the high pressure produced by the high pressure generator urges the injection material into the fracture. 19. The method of claim 15, wherein the injection material is selected from the list consisting of proppant, gel, sand, and acid. 20. The method of claim 15, further comprising disposing a shaped charge in the wellbore aimed at the high pressure source. 21. The method of claim 15, wherein the seal comprises a high pressure seal apparatus that includes an outer sealing surface disposed on its outer periphery, wherein the outer sealing surface is configured for mating engagement with wellbore casing thereby creating a metal to metal seal. 22. The method of claim 15, wherein the stimulation system further comprises shaped charges, the method further comprising perforating the wellbore using the shaped charges, so that the injection material enters the formation through the perforations formed by the shaped charges. 23. A downhole tool for fracturing a hydrocarbon bearing formation comprising: a housing; a propellant coupled with the housing and circumscribing a portion of the housing; shaped charges in the housing directed at the propellant; a seal coupled with the housing and selectively extendable from the housing into sealing contact with the wellbore inner surface; and injection material disposed in the housing. 24. The downhole tool of claim 23 further comprising a wireline attachment. 25. The downhole tool of claim 23 wherein the injection material is selected from the list consisting of proppant, gel, sand, and acid. 26. The downhole tool of claim 23 further comprising a second seal on a side of the propellant opposite the first seal, the second seal coupled with the housing and selectively extendable from the housing into sealing contact with the wellbore inner surface. 27. The downhole tool of claim 23, wherein the seal is selected from the list consisting of a packer and a plug. 28. The downhole tool of claim 27, wherein the seal comprises a wall having a circumferential section configured to deform in response to an applied force. 29. The downhole tool of claim 27, wherein the packer seal further comprises an outer sealing surface disposed on its outer periphery. 30. The downhole tool of claim 29, wherein the outer sealing surface is configured for mating engagement with the inner surface of a wellbore casing thereby creating a metal to metal seal capable of sealing against high pressure. 31. The downhole tool of claim 30 further comprising another section and wherein one section is disposed on an inner surface of the wall and one section is on the outer surface of the wall.