Shot perforator device and method for water well bore decommissioning
원문보기
IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0544002
(2009-08-19)
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등록번호 |
US-8281858
(2012-10-09)
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발명자
/ 주소 |
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출원인 / 주소 |
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대리인 / 주소 |
Steins & Associates, P.C.
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인용정보 |
피인용 횟수 :
0 인용 특허 :
1 |
초록
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Application of the method and device to a water well will permanently seal the well casing in order to prevent hydraulic cross-contamination with other water wells in the area. The method employs a string to explosive modules in spaced relation along the depth of a well casing. This weighted string
Application of the method and device to a water well will permanently seal the well casing in order to prevent hydraulic cross-contamination with other water wells in the area. The method employs a string to explosive modules in spaced relation along the depth of a well casing. This weighted string of explosive modules is lowered into the well casing, wet concrete should then be introduced into the casing, after which the explosive elements are detonated sequentially, starting at the top of the well. Detonation of the elements in such a manner should force the wet concrete or cement out through the well casing perforations, so that the well casing will be entirely captured within the cured concrete. The individual explosive elements are made from detonating cord and metallic ball bearings wrapped into bundles, and then the bundles are bound in suitable adhesive tape.
대표청구항
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1. A method for decommissioning water wells defined by a subterranean casing, and an open mouth at its upper end, the method comprising the steps of: lowering a shot perforation assembly into the water well, wherein said shot perforation assembly of said lowering step comprises three perforation mod
1. A method for decommissioning water wells defined by a subterranean casing, and an open mouth at its upper end, the method comprising the steps of: lowering a shot perforation assembly into the water well, wherein said shot perforation assembly of said lowering step comprises three perforation modules in spaced relation along detonating cord, each said perforation module having its own detonator device independent of said other modules; injecting liquid concrete or cement directly into said water well to at least cover said shot perforation assembly;placing and securing a cover plate over said mouth;detonating said shot perforation assembly, said detonation configured to drive said liquid concrete out through apertures formed in the casing; andfurther comprising placing additional liquid concrete or cement in the casing after said detonating step until the casing is substantially filled with said concrete or cement. 2. The decommissioning method of claim 1, wherein said detonating step comprises detonating each said perforation module individually in a pre-programmed sequence. 3. The decommissioning method of claim 2, wherein said detonating step further consists essentially of detonating each said perforation module in time spaced relation by one and one-half seconds. 4. The decommissioning method of claim 2, wherein each said perforation module of said lowering step comprises one or more perforation elements, each said perforation element comprising: a length of explosive detonating cord selectively wrapped into a bundle of a predetermined number of said wraps;a plurality of hard projectile elements integrated within said wrapped bundle; anda binding element binding said wraps and hard projectile elements into a tight bundle. 5. The decommissioning method of claim 4, wherein each said perforation module of said lowering step comprises three said perforation elements in relative spaced relation along said detonating cord. 6. The decommissioning method of claim 5, wherein each said perforation module of said lowering step comprises a separate length of said detonating cord comprising said perforation elements and terminating in opposing ends in sealing caps crimped to said ends, said sealing caps creating liquid-tight seals at said ends. 7. The decommissioning method of claim 6, wherein each said perforation module of said lowering step comprises a detonator device attached to one said sealing cap. 8. The decommissioning method of claim 7, wherein: said injecting step is preceded by an insertion step wherein a trim pipe is inserted into said casing until it reaches substantially to the bottom of said well;said injecting step comprises injecting said concrete or cement into the upper end of said trim pipe; andsaid detonating step is preceded by a removal step wherein said trim pipe is removed from said casing. 9. The decommissioning method of claim 8, wherein said perforation assembly of said lowering step further comprises a ballast element attached to the lowest end of the lowest said perforation module. 10. A well decommissioning assembly, comprising: one or more perforation modules, each said module comprising: a segment of detonating cord terminating in sealing caps crimped to opposing ends thereof;at least one perforation element comprising a bundle of wrapped detonating cord formed in said detonating cord between said opposing ends, the wrapping of said wrapped detonating comprising binding tape encircling said each said bundle, each said perforation element further comprising a plurality of hard projectile elements integrated within said bundle; anda detonator device attached to one said opposing end and electrically connected to a lead line. 11. The assembly of claim 10, wherein each said perforation element comprises said binding tape encircling said bundle of wrapped detonating cord and said projectile elements. 12. The assembly of claim 11, wherein each said perforation module comprises three said perforation elements in relative spaced relation along said detonating cord. 13. The assembly of claim 12, comprising three said perforation modules, wherein said detonator devices each detonate in relative time-spaced relation, commencing at a top said perforation module, next detonating a middle perforation module, and finally detonating a bottom perforation module. 14. The assembly of claim 13, wherein said time spacing between said detonations is approximately one and one-half seconds. 15. The assembly of claim 14, wherein said perforation elements are spaced from between two and three feet from said other said perforation elements comprising a respective said perforation module.
이 특허에 인용된 특허 (1)
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Kevin Alan Gillingham, Perforating charge carrier and method of assembly for same.
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