IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
UP-0412246
(2009-03-26)
|
등록번호 |
US-7836759
(2011-01-22)
|
발명자
/ 주소 |
|
출원인 / 주소 |
- REM Scientific Enterprises, Inc.
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
3 인용 특허 :
24 |
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 system comprising: a logging tool configured to be inserted into a conduit and to generate a magnetic field perpendicular to a radial flow of conductive fluid through a conduit wall, the logging tool comprising a sensor orthogonally disposed to the magnetic fiel
What is claimed is: 1. An inspection system comprising: a logging tool configured to be inserted into a conduit and to generate a magnetic field perpendicular to a radial flow of conductive fluid through a conduit wall, the logging tool comprising a sensor orthogonally disposed to the magnetic field and the radial flow of conductive fluid through the conduit wall, the sensor configured to use the magnetic field to directly detect the radial flow of conductive fluid through the conduit wall; and a measuring and recording device communicatively coupled to the logging tool, the measuring and recording device receiving and recording information regarding the radial flow of conductive fluid through the conduit wall. 2. The inspection system of claim 1, wherein the measuring and recording device is located remotely from the logging tool. 3. The inspection system of claim 1, wherein the logging tool comprises a conduit insert shaped to fit within the conduit, the insert positioning the sensor adjacent to the conduit wall. 4. The inspection system of claim 3, wherein the logging tool further comprises an electromagnetic field generator to generate the magnetic field. 5. The inspection system of claim 1, wherein the measuring and recording device and the logging tool are communicatively coupled by an electrical line. 6. The inspection system of claim 1, wherein the measuring and recording device comprises a logging graph for illustrating a position of the radial flow of conductive fluid through the conduit wall detected by the sensor. 7. The inspection system of claim 6, wherein the position comprises a depth in the conduit of the detected radial flow of conductive fluid through the conduit wall. 8. The inspection system of claim 7, wherein the position comprises an azimuthal orientation of the detected radial flow of conductive fluid through the conduit wall. 9. The inspection system of claim 1, wherein at least a portion of the logging tool is configured to rotate. 10. The inspection system of claim 1, wherein the measuring and recording device determines a position in the conduit of the radial flow of conductive fluid detected by the logging tool. 11. An inspection system comprising: a detection tool having a sensor to detect a radial flow of conductive fluid through a conduit wall of a conduit by using a electromagnetic field, the sensor having a pair of electrodes, the electromagnetic field being generated along a direction such that the electromagnetic field, the radial flow of conductive fluid through the conduit wall, and an imaginary line interconnecting the pair of electrodes are orthogonal to each other; and a measuring and recording device communicatively coupled to the detection tool, the measuring and recording device receiving and recording data from the sensor. 12. The inspection system of claim 11, wherein the measuring and recording device further records positional information of the detection tool in the conduit. 13. The inspection system of claim 11, wherein the measuring and recording device visually depicts locations in the conduit at which the radial flow of conductive fluid is detected. 14. The inspection system of claim 13, wherein each of the locations comprises a depth in the conduit of the detected radial flow of conductive fluid. 15. The inspection system of claim 14, wherein each of the locations comprises an azimuthal orientation of the detected radial flow of conductive fluid. 16. The inspection system of claim 11, wherein the data includes a voltage level proportional to a radial flow rate of the conductive fluid. 17. The inspection system of claim 11, wherein the detection tool exerts pressure radially outward on the conduit wall. 18. The inspection system of claim 11, wherein the sensor comprises a second pair of electrodes. 19. An inspection system comprising: a conduit insert configured to be inserted into a conduit; a sensor coupled to the conduit insert such that the conduit insert positions the sensor near an interior wall of the conduit, the sensor configured to detect a radial flow of conductive fluid through the conduit wall by sensing a voltage level caused by the radial flow of conductive fluid perpendicular to an electromagnetic field near a surface of the interior wall of the conduit; and a measuring and recording device communicatively coupled to the sensor, the measuring and recording device receiving and recording a voltage signal representative of the radial flow of conductive fluid through the conduit wall sensed by the sensor. 20. The inspection system of claim 19, wherein the sensor is coupled to the conduit insert by an arm that is rotatable around the interior wall of the conduit. 21. The inspection system of claim 19, further comprising a magnetic field generator coupled to the conduit insert. 22. The inspection system of claim 19, wherein the measuring and recording device includes memory disposed in the conduit insert for storing information related to the radial flow of conductive fluid. 23. The inspection system of claim 19, wherein the measuring and recording device graphically plots information related to the radial flow of conductive fluid through the conduit wall. 24. The inspection system of claim 23, wherein the information comprises a depth in the conduit of the radial flow of conductive fluid through the conduit wall. 25. The inspection system of claim 24, wherein the information comprises an azimuthal orientation of the radial flow of conductive fluid through the conduit wall. 26. The inspection system of claim 19, wherein the sensor extends along a circumference of the interior wall of the conduit. 27. The inspection system of claim 1, wherein the sensor comprises a pair of electrodes, and wherein an imaginary line between the electrodes is orthogonal to the magnetic field and the radial flow of conductive fluid through the conduit wall.
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