Method and apparatus for precise positioning of a borehole measurement instrument
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G01V-001/40
G01V-007/06
G01V-001/24
G01V-001/16
E21B-047/09
E21B-023/00
출원번호
US-0698667
(2010-02-02)
등록번호
US-9002648
(2015-04-07)
발명자
/ 주소
Pfutzner, Harold G.
출원인 / 주소
Schlumberger Technology Corporation
대리인 / 주소
Hewitt, Cathy
인용정보
피인용 횟수 :
0인용 특허 :
23
초록▼
A system and method for use in a downhole tool having distance measurement, feature detection, and primary measurement devices positioned therein are provided. In one example, the method includes recording a first plurality of features and corresponding positions in a first log using the feature det
A system and method for use in a downhole tool having distance measurement, feature detection, and primary measurement devices positioned therein are provided. In one example, the method includes recording a first plurality of features and corresponding positions in a first log using the feature detection device and the distance measurement device, respectively. A first feature of the first plurality of features is selected and the position corresponding to the first feature is identified. The feature detection device is aligned relative to the first feature based on the identified position. A first primary measurement is taken using the primary measurement device while the feature detection device is aligned relative to the first feature. The steps of recording, selecting, moving, and taking are repeated to obtain a second primary measurement while the feature detection device is aligned relative to a second feature of a second plurality of features.
대표청구항▼
1. A method for use in a downhole tool having a distance measurement device, a feature detection device, and a primary measurement device positioned therein, the method comprising: recording in a first log, while the downhole tool is in a borehole, a first plurality of features detected using the fe
1. A method for use in a downhole tool having a distance measurement device, a feature detection device, and a primary measurement device positioned therein, the method comprising: recording in a first log, while the downhole tool is in a borehole, a first plurality of features detected using the feature detection device while the feature detection device and the distance measurement device are being moved with respect to the downhole tool, wherein each of the first plurality of features is recorded with a corresponding position measured using the distance measurement device, wherein the corresponding position of each of the first plurality of features corresponds to a distance measurement relating to an internal position of the feature detection device with respect to the downhole tool when the feature detection device detected the respective plurality of features;selecting a first feature of the first plurality of features in the first log and identifying the position corresponding to the first feature;without controllably moving an overall position of the downhole tool in the borehole, moving the feature detection device with respect to the downhole tool based on the identified relative position of the first feature to align the feature detection device relative to the first feature;taking a first primary measurement using the primary measurement device while the feature detection device is aligned relative to the first feature; andrepeating the steps of recording, selecting, moving, and taking to obtain at least a second primary measurement while the feature detection device is aligned relative to a second feature of a second plurality of features in a second log. 2. The method of claim 1, comprising: zeroing the distance measurement device a first time prior to recording the first plurality of features; andzeroing the distance measurement device a second time prior to recording the second plurality of features. 3. The method of claim 1 comprising: moving the downhole tool to a first measurement station in the borehole prior to recording the first plurality of features; andmoving the downhole tool to a second measurement station in the borehole prior to recording the second plurality of features. 4. The method of claim 1 comprising: determining a desired resolution of the recorded positions, wherein the desired resolution identifies an amount of distance that is to be present between each recorded pair of positions; andselecting a speed at which the feature detection device and the distance measurement device are being moved in order to achieve the determined resolution. 5. The method of claim 1 wherein recording the first plurality of features in the first log includes recording a data set obtained during a recording period, and wherein selecting the first feature of the first plurality of features includes identifying at least one of a local maximum, a local minimum, and a step-change in the data set. 6. The method of claim 5 wherein the at least one of the local maximum, local minimum, and step-change have a magnitude greater than a precision of the feature detection device. 7. The method of claim 1 comprising, after removing the downhole tool from the borehole and then placing the same downhole tool or another downhole tool into the borehole after a period of time has elapsed, repeating the steps of recording, selecting, moving, and taking to obtain third and fourth primary measurements made while the feature detection device is in the same alignment relative to the first and second features, respectively, as when the steps of recording, selecting, moving, and taking were performed to obtain the first and second primary measurements. 8. The method of claim 7 wherein the period of time is greater than twenty-four hours. 9. The method of claim 1 comprising: selecting at least first and second measurement stations;calibrating the feature detection device and the distance measuring device prior to assembling the downhole tool;moving the downhole tool into the borehole to the first measurement station after assembling the downhole tool;engaging an anchor mechanism to stabilize the downhole tool in the borehole;disengaging the anchor mechanism after performing the steps of recording, selecting, moving, and taking the first primary measurement; andmoving the downhole tool to the second measurement station to repeat the steps of recording, selecting, moving, and taking to obtain the second primary measurement, wherein a distance between the first and second measurement stations is greater than a maximum travel distance of a conveyance mechanism positioned within the downhole tool. 10. The method of claim 1 wherein the primary measurement device is a gravity measurement device. 11. The method of claim 1 wherein the first and second logs are the same log. 12. A method for indexing fixed positions in a borehole using a downhole tool comprising: selecting at least first and second measurement stations, wherein a distance between the first and second measurement stations is greater than a maximum travel distance of a conveyance mechanism positioned within the downhole tool that moves internally within the downhole tool and with respect to the downhole tool;moving the downhole tool in the borehole to the first measurement station;recording a first data set representing a first plurality of features and a relative position of each of the first plurality of features at the first measurement station with respect to the downhole tool;selecting a first feature from the first data set and, without controllably moving the overall position of the downhole tool in the borehole, moving the conveyance mechanism with respect to the downhole tool to relate the conveyance mechanism to the first feature and taking a first measurement based on the relative position of the first feature;moving the downhole tool in the borehole to the second measurement station;recording a second data set representing a second plurality of features and a relative position of each of the second plurality of features at the second measurement station with respect to the downhole tool; andselecting a second feature from the second data set and, without controllably moving the overall position of the downhole tool in the borehole, moving the conveyance mechanism with respect to the downhole tool to relate the conveyance mechanism to the second feature and taking a second measurement based on the position of the second feature. 13. The method of claim 12 comprising: engaging an anchor mechanism to stabilize the downhole tool in the borehole at each of the first and second measurement stations prior to recording each of the first and second data sets; anddisengaging the anchor mechanism after taking each of the first and second measurements. 14. The method of claim 12 comprising calibrating a feature detection device used to record the first and second plurality of features relative to a distance measuring device used to record the position of each of the first and second plurality of features and relative to a primary measurement device used to take the first and second measurements. 15. The method of claim 14 comprising calibrating the feature detection device relative to a tool upper head. 16. The method of claim 12 comprising calculating a subsidence value for a formation forming at least a portion of the borehole, wherein the calculating is based at least in part on the first and second measurements. 17. A downhole tool comprising: a feature detection device configured to detect a plurality of features external to the downhole tool when positioned in a borehole;a primary measurement device configured to measure a value of a defined type;a conveyance mechanism coupled to the feature detection device and the primary measurement device, wherein the conveyance mechanism is configured to controllably move the feature detection device and the primary measurement device with respect to the downhole tool;a distance measuring device configured to measure a distance traveled by the conveyance mechanism with respect to the downhole tool; andcomputer-executable instructions for controlling the conveyance mechanism to position the primary measurement device relative to a feature of the plurality of features detected by the feature detection device based on a position of the feature as measured by the distance measurement device. 18. The downhole tool of claim 17 wherein the feature detection device is at least one of a gamma-ray detector and a stationary casing collar locator (SCCL). 19. The downhole tool of claim 17 wherein the primary measurement device is a gravimeter. 20. The downhole tool of claim 17 wherein the conveyance mechanism is a wheeled tractor. 21. The downhole tool of claim 17 wherein the distance measurement device is an optical encoder. 22. The downhole tool of claim 17 wherein the downhole tool is configured for conveyance in a wellbore via at least one of a wireline and a drill pipe.
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이 특허에 인용된 특허 (23)
Niebauer Timothy M. (Boulder CO) Hollander William J. (Boulder CO) Faller James E. (Boulder CO), Absolute gravity inline measuring apparatus incorporating improved operating features.
Kleinberg Robert L. (Ridgefield CT) Griffin Douglas D. (Bethel CT) Warburton Richard J. (Del Mar CA), Superconducting bearing for borehole and survey gravimeters.
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