IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0254447
(2005-10-20)
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등록번호 |
US-7509852
(2009-03-31)
|
발명자
/ 주소 |
|
출원인 / 주소 |
- REM Scientific Enterprises, Inc.
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
13 인용 특허 :
22 |
초록
▼
In a borehole logging tool, the flow of conductive fluid into or out of a wellbore at the wellbore wall is detected and measured with a sensor loop proximate the borehole inner wall. The sensor loop includes a series of contiguous sensors that act as electromagnetic flowmeters and provide fluid meas
In a borehole logging tool, the flow of conductive fluid into or out of a wellbore at the wellbore wall is detected and measured with a sensor loop proximate the borehole inner wall. The sensor loop includes a series of contiguous sensors that act as electromagnetic flowmeters and provide fluid measurements covering the entire circumference of the sensor loop. The sensor loop includes an elastic element that forces the sensor loop outward to maintain pressure along the sensor loop circumference against the interior borehole wall. The sensor loop is designed to lie at a non-perpendicular angle to the wellbore axis, and mechanical arms press the top and bottom of the loop against the borehole inner wall.
대표청구항
▼
What is claimed is: 1. An inspection tool for a casing, the casing having an interior wall, the tool comprising: a tool body shaped to fit within the casing; an arm coupled to the tool body, the arm having a near end proximate the tool body and a distal end opposite the near end, wherein the distal
What is claimed is: 1. An inspection tool for a casing, the casing having an interior wall, the tool comprising: a tool body shaped to fit within the casing; an arm coupled to the tool body, the arm having a near end proximate the tool body and a distal end opposite the near end, wherein the distal end of the arm is rotatable azimuthally along and adjacent to the casing interior wall; and an electromagnetic sensing device mounted on the distal end of the arm, wherein the electromagnetic sensing device is oriented to sense a radial flow of conductive fluid through the casing interior wall, while being relatively insensitive to radial nonconductive fluid flow and to fluid flow in a central region of the casing. 2. The inspection tool of claim 1, wherein the electromagnetic sensing device comprises a pair of electrodes. 3. The inspection tool of claim 2, wherein the electromagnetic sensing device further comprises a magnetic field generator oriented to generate a magnetic field substantially perpendicular to an imaginary line between the pair of electrodes and substantially perpendicular to the radial flow of the conductive fluid. 4. The inspection tool of claim 2, wherein the electrodes are spaced 0.3 inches or less from each other. 5. The inspection tool of claim 2, further comprising a voltage measuring circuit adapted to measure a voltage difference between the pair of electrodes, the voltage difference representative of the radial flow of the conductive fluid proximate the pair of electrodes. 6. The inspection tool of claim 5, wherein the voltage difference is proportional to a velocity of the radial flow of the conductive fluid. 7. The inspection tool of claim 1, wherein the tool further comprises multiple arms coupled to the tool body. 8. The inspection tool of claim 7, wherein the tool further comprises a plurality of individual electromagnetic sensors disposed on the multiple arms. 9. The inspection tool of claim 1, wherein the arm is adapted to exert pressure radially outward against the interior wall. 10. A logging tool for a borehole, the borehole having an interior wall, the tool comprising: a tool body adapted to be inserted into the borehole; an arm coupled to the tool body, the arm having a near end proximate the tool body and a distal end opposite the near end; and an electromagnetic flowmeter mounted on the distal end of the arm, wherein the electromagnetic flowmeter is rotatable azimuthally along and adjacent to the borehole interior wall, and wherein the electromagnetic flowmeter is oriented to sense a radial flow of conductive fluid through the borehole interior wall, with relatively little sensitivity to radial nonconductive fluid flow and to fluid flow in a central region of the borehole. 11. The logging tool of claim 10, wherein the electromagnetic flowmeter comprises a pair of electrodes. 12. The logging tool of claim 11, wherein the electromagnetic flowmeter further comprises a magnetic field generator oriented to generate a magnetic field substantially perpendicular to an imaginary line between the pair of electrodes and substantially perpendicular to the radial flow of the conductive fluid. 13. The logging tool of claim 11, further comprising a voltage measuring circuit adapted to measure a voltage difference between the pair of electrodes, the voltage difference representative of the radial flow of the conductive fluid proximate the pair of electrodes. 14. The logging tool of claim 10, wherein the tool further comprises multiple arms coupled to the tool body. 15. The logging tool of claim 14, wherein the tool further comprises a plurality of individual electromagnetic flowmeters, disposed on the multiple arms. 16. A method of measuring radial fluid flow in a casing having an interior wall, the method comprising: traversing the casing with a tool body having an arm with an electromagnetic sensing device attached to a distal end thereof; azimuthally rotating the arm as the tool body axially traverses the casing, thereby causing the electromagnetic sensing device to sweep around the casing interior wall; and detecting a radial flow of conductive fluid through the casing interior wall with the electromagnetic sensing device. 17. The method of claim 16, wherein the electromagnetic sensing device comprises a pair of electrodes, and wherein the detecting of the radial flow of the conductive fluid comprises: generating a magnetic field substantially perpendicular to an imaginary line between the pair of electrodes; and measuring a voltage difference between the pair of electrodes. 18. The method of claim 17, wherein the voltage difference is proportional to a velocity of the radial flow of the conductive fluid proximate the pair of electrodes. 19. The method of claim 16, wherein the rotating the arm further comprises maintaining the distal end of the arm in contact with the casing interior wall. 20. The method of claim 16, wherein the detecting the radial flow of the conductive fluid comprises making measurements with the electromagnetic sensing device within a distance of 0.75" from the casing interior wall.
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