The present invention involves a pack-off system for use in packing off an area of interest within a wellbore. The pack-off system comprises at least two packing elements disposed on a tubular body. The packing elements of the present invention comprise overlapping leaves which are pivotally mounted
The present invention involves a pack-off system for use in packing off an area of interest within a wellbore. The pack-off system comprises at least two packing elements disposed on a tubular body. The packing elements of the present invention comprise overlapping leaves which are pivotally mounted on the tubular body. The present invention further involves a method for using the pack-off system, wherein the packing elements are placed adjacent to an area of interest within a wellbore. The overlapping leaves of the packing elements are extended radially to effectively obstruct fluid flow in the annular space between the outermost portions of the packing elements and the wellbore. The bulk of the fluid introduced into the wellbore is trapped between the packing elements and is thereby forced into the area of interest.
대표청구항▼
What is claimed is: 1. A method for introducing treatment fluid into an area of interest within a wellbore, the method comprising: running a pack-off system into the wellbore, the pack-off system comprising an upper packing element and a lower packing element disposed on a tubular body; positioning
What is claimed is: 1. A method for introducing treatment fluid into an area of interest within a wellbore, the method comprising: running a pack-off system into the wellbore, the pack-off system comprising an upper packing element and a lower packing element disposed on a tubular body; positioning the pack-off system adjacent to the area of interest, wherein the area of interest is between the upper packing element and the lower packing element; expanding radially the upper packing element and the lower packing element; introducing the fluid into the pack-off system; and controlling a leak rate of the fluid through spaces between the packing elements and the wellbore. 2. The method of claim 1, wherein the controlling the leak rate of the fluid comprises controlling the introduction of the fluid. 3. The method of claim 1, wherein the tubular body comprises perforations between the packing elements through which the fluid flows after introduction of the fluid into the pack-off system. 4. The method of claim 1, wherein the upper packing element is expanded radially downward at an angle from the tubular body and the lower packing element is expanded radially upward at an angle from the tubular body. 5. The method of claim 1, wherein the packing elements comprise metal. 6. The method of claim 1, wherein the packing elements comprise high performance plastic. 7. The method of claim 1, wherein multiple pack-off systems comprising upper packing elements and lower packing elements are disposed on the tubular body to isolate multiple areas of interest. 8. The method of claim 1, wherein expanding radially the upper packing element and the lower packing element comprises injecting a fluid into the pack-off system at a pressure level sufficient to set the upper and lower packing elements. 9. The method of claim 1, further comprising: positioning the pack-off system adjacent to a second area of interest, wherein the second area of interest is between the upper packing element and the lower packing element; introducing the fluid into the pack-off system; and controlling a leak rate of the fluid through spaces between the packing elements and the wellbore. 10. A pack-off system for isolating an area of interest within a wellbore, comprising: an upper packing element and a lower packing element disposed on a tubular body, wherein each packing element comprises overlapping leaves that are constructed and arranged to control a leak rate through space between the upper and lower packing elements after the packing elements are fully extended radially outward. 11. The pack-off system of claim 10, wherein the overlapping leaves are pivotally mounted on the tubular body. 12. The pack-off system of claim 10, wherein the overlapping leaves of the upper packing element extend radially downward at an angle from the tubular body and the overlapping leaves of the lower packing element extend radially upward at an angle from the tubular body. 13. The pack-off system of claim 10, wherein the overlapping leaves comprise metal. 14. The pack-off system of claim 10, wherein the overlapping leaves comprise high-performance plastic. 15. A pack-off system for increasing fluid pressure within an area of interest within a wellbore, comprising: a tubular body; two spaced-apart, selectively settable packing elements disposed on the tubular body for effectively sealing off the area of interest, wherein the area of interest is disposed between the two spaced-apart, selectively settable packing elements; selectively actuable setting apparatus connected to the tubular body for selectively setting the two spaced-apart selectively settable packing elements; and a fluid flow path formable between a first area in the wellbore defined by the packing elements after they are radially extended and a second area in the wellbore defined outside the first area, wherein a portion of the fluid flow path is defined by a space between at least one of the packing elements and the wellbore. 16. The pack-off system of claim 15, wherein the selectively actuable setting apparatus is actuable by fluid under pressure introduced into the tubular body. 17. The pack-off system of claim 15, wherein the selectively actuable setting apparatus comprises at least two members moveable in response to the force of the fluid under pressure to contact each of the two spaced-apart selectively-settable packing elements and to apply compressive force to each packing element, thereby expanding each packing element radially. 18. The pack-off system of claim 15, wherein the tubular body has at least one perforation through which fluid is flowable from the inside of the pack-off system to the outside thereof. 19. A pack-off system for isolating an area of interest within a wellbore, comprising: a tubular body, the body having a radially extendable upper packing element and a radially extendable lower packing element; and a fluid flow path formable between a first space in the wellbore defined between the upper and lower packing elements when the packing elements are fully extended radially outward and a second space in the wellbore defined outside of the tubular body and outside of the first space, wherein the fluid flow path is defined between a surface of at least one of the packing elements and the wellbore. 20. The pack-off system of claim 19, wherein the radially extendable packing elements comprise interengaging segments. 21. The pack-off system of claim 20, wherein the interengaging segments are distributed circumferentially around an outer surface of the tubular body. 22. A method for introducing treatment fluid into an area of interest within a wellbore, the method comprising: placing at least one upper packing element and at least one lower packing element on a tubular working string; running the tubular working string into the wellbore; positioning the tubular working string within the wellbore wherein the upper packing element is above the area of interest and the lower packing element is below the area of interest; injecting a fluid into the tubular working string, thereby expanding at least one of the packing elements radially and forming a portion of a fluid flow restriction proximate an inner diameter of the wellbore and a surface of at least one of the packing elements; and flowing a portion of the fluid through the restriction. 23. A method for introducing treatment fluid into an area of interest within a wellbore, the method comprising: positioning a tubular body adjacent the area of interest, the body having a radially extendable upper packing element and a radially extendable lower packing element; radially expanding the packing elements; and introducing the fluid into the area of interest while establishing and maintaining a leak rate of the fluid through an area defined between the packing elements and the wellbore.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (17)
Hughes Earnest D. (Wichita Falls TX) Seitz Peter W. (Wichita Falls TX), Cementing basket.
Clemens, Jack Gammill; Ludwig, Wesley Neil; Rodgers, John Patrick; Eaton, Edwin A.; Serra, Marco, Anchor assembly and method for anchoring a downhole tool.
Clemens, Jack Gammill; Ludwig, Wesley Neil; Vick, James Dan; Rodgers, John Patrick; Eaton, Edwin A.; Serra, Marco, Through tubing bridge plug and installation method for same.
Clemens, Jack Gammill; Ludwig, Wesley Neil; Vick, Jr., James Dan; Rodgers, John Patrick; Eaton, Edwin A.; Serra, Marco, Through tubing bridge plug and installation method for same.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.