Method and system for an automatic milling operation
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
E21B-044/00
E21B-029/00
E21B-044/02
E21B-004/18
E21B-023/00
출원번호
US-0355794
(2012-11-02)
등록번호
US-9920613
(2018-03-20)
국제출원번호
PCT/US2012/063174
(2012-11-02)
국제공개번호
WO2013/067263
(2013-05-10)
발명자
/ 주소
Lee, Grant
Jensen, Michael
Herbst, Neil
Blake, Sarah
출원인 / 주소
SCHLUMBERGER TECHNOLOGY CORPORATION
대리인 / 주소
Grove, Trevor G.
인용정보
피인용 횟수 :
0인용 특허 :
5
초록▼
A method (50) and an assembly (10) for milling an obstruction disposed within a wellbore (W) includes a milling module (12) having a motor (22) rotating a milling bit (14), a first electronics cartridge (26) for controlling the motor based upon a motor torque value, a tractor module (16, 18) for eng
A method (50) and an assembly (10) for milling an obstruction disposed within a wellbore (W) includes a milling module (12) having a motor (22) rotating a milling bit (14), a first electronics cartridge (26) for controlling the motor based upon a motor torque value, a tractor module (16, 18) for engaging with the wellbore and providing a push force against the wellbore to urge the milling assembly in a direction of the milling bit, and a second electronics cartridge (28) for controlling a push force value of tractor module. The method involves rotating the milling bit (54) and engaging the tractor module with the wellbore (56), and adjusting, iteratively, the operation (58) based on a calculated torque value and a calculated push force value to maintain the calculated values at around a target torque value and below a push force limit value (66, 70).
대표청구항▼
1. A method (50) for milling an obstruction disposed within a wellbore (W), comprising: providing a milling assembly (10) for use in the wellbore (W), the milling assembly including a milling module (12) having a motor (22) rotating a milling bit (14), an electronics cartridge (26, 28) for controlli
1. A method (50) for milling an obstruction disposed within a wellbore (W), comprising: providing a milling assembly (10) for use in the wellbore (W), the milling assembly including a milling module (12) having a motor (22) rotating a milling bit (14), an electronics cartridge (26, 28) for controlling the motor and calculating a torque value based on data received from the motor, at least one push module (16, 18) for engaging with the wellbore and providing a push force against the wellbore to urge the milling assembly in a direction of the milling bit, the electronics cartridge further configured for controlling the at least one push module and calculating a push force value for the at least one push module;setting a target torque value for the milling module and setting a push force limit value for the at least one push module (52);disposing the milling assembly into the wellbore;disposing the milling bit adjacent the obstruction in the wellbore;operating the milling assembly by rotating the milling bit and engaging the at least one push module with the wellbore (54); andadjusting, iteratively, operation (56, 58) of the milling module and the at least one push module based on the calculated torque value and the calculated push force value to maintain the calculated values at about the target torque value and at or below the push force limit value (66, 70). 2. The method according to claim 1 wherein the milling module motor (22) is an electric motor. 3. The method according to claim 1 wherein the at least one push module comprises at least two push modules (16, 18). 4. The method according to claim 1 wherein the at least one push module comprises at least one tractor module (16, 18) comprising a wheeled tractor assembly having wheels (34, 36) disposed on arms (30, 32) pivotally extending from the at least one tractor module, and including operating the at least one tractor module to engage the wheels with the wellbore (W). 5. The method according to claim 1 including determining a stall condition (64) of the milling bit (14) and adjusting the operation (66) of at least one of the milling module (12) and the at least one push module (16, 18) to counteract the stall. 6. The method according to claim 5 wherein the step of adjusting the operation to counteract the stall includes moving the at least one push module (16, 18) backward to provide a push force (66) in a direction away from the milling bit (14). 7. The method according to claim 5 wherein the step of adjusting the operation to counteract the stall includes reversing a direction of rotation of the milling bit (14). 8. The method according to claim 5 wherein the step of adjusting the operation includes moving the at least one push module (16, 18) backward to provide a push force (66) in a direction away from the milling bit (14) and simultaneously reversing a direction of rotation of the milling bit (14). 9. The method according to claim 1 wherein the step of adjusting the operation includes the following steps: comparing the calculated torque value with the target torque value (62);if the target torque value has been reached, determining whether the calculated torque value is greater than the target torque value (64); andif the calculated torque value is greater than the target torque value, decreasing the push force (66). 10. The method according to claim 1 wherein the step of adjusting the operation includes the following steps: comparing the calculated torque value with the target torque value (62);if the target torque value has not been reached, determining whether the push force limit value has been reached (68); andif the push force limit value has not been reached, increasing the push force (70). 11. An assembly (10) for milling an obstruction disposed within a wellbore (W), comprising: a milling module (12) having a motor (22) rotating a milling bit (14) mounted at one end of the assembly (10);a first electronics cartridge (26) for calculating a torque value based on data received from the motor (22) and operating the motor (22) in response to a comparison of the calculated torque value with a target torque value;at least one push module (16, 18) for engaging with the wellbore (W) and providing a push force against the wellbore to urge the milling assembly in a direction of the milling bit (14); anda second electronics cartridge (28) for calculating a push force value based on data received from the at least one push module (16, 18) and operating the at least one push module in response to a comparison of the calculated push force with a push force limit value, the first and second electronics cartridges communicating for performing the comparisons iteratively to maintain the calculated torque value and the calculated push force value at about the target torque value and below the push force limit value respectively. 12. The assembly according to claim 11 wherein the motor (22) is an electric motor. 13. The assembly according to claim 11 including a gearbox (24) connected between the motor (22) and the milling bit (14). 14. The assembly according to claim 11 wherein the at least one push module comprises at least two push modules (16, 18). 15. The assembly according to claim 11 wherein the at least one push module (16, 18) comprises a wheeled tractor assembly having wheels (34, 36) disposed on arms (30, 32) pivotally extending therefrom. 16. The assembly according to claim 11 including a compensator module (27) connected between the at least one push module (16, 18) and the first electronics cartridge (26). 17. The assembly according to claim 16 wherein the compensator module (27) is a hydraulic oil reservoir for use with a hydraulic motor to pivot arms (30, 32) of at least one tractor module (16, 18). 18. The assembly according to claim 11 including a logging head (38) mounted at an opposite end of the assembly (10) from the one end at which the milling bit (14) is mounted. 19. The assembly according to claim 18 including a telemetry cartridge (40) connected to the logging head (38). 20. The assembly according to claim 19 including an access line (42) connecting the logging head (38) with a surface unit (44) for communication of power, telemetry and control signals.
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