IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0966195
(2010-12-13)
|
등록번호 |
US-8511404
(2013-08-20)
|
우선권정보 |
GB-0811815.0 (2008-06-27) |
발명자
/ 주소 |
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
16 인용 특허 :
64 |
초록
▼
The Smart Reamer® Tool, Apparatus or Method is used to underream an oil or natural gas well while interlinked calipers and calibration sensors simultaneously record data relating to the geometry of the drilling operation (well diameter, diameter of the underreamed zone) and drilling fluid properties
The Smart Reamer® Tool, Apparatus or Method is used to underream an oil or natural gas well while interlinked calipers and calibration sensors simultaneously record data relating to the geometry of the drilling operation (well diameter, diameter of the underreamed zone) and drilling fluid properties (density). Further sensors provide data on the relative position of the cutting and stabilizing blocks. Other sensors measure vibration data. All the sensors are interlinked by means of microprocessors which compare and correlate said data to automatically verify and deliver a desired wellbore diameter without the need to unnecessarily stop drilling or trip out of the hole.
대표청구항
▼
1. A wellbore underreaming tool for use in oil and natural gas drilling arranged for attachment to a rotary drill-bit and associated drill-pipe to enlarge the wellbore to a diameter greater than a pass-through diameter of a wellbore restriction, the underreaming tool comprising: at least one radiall
1. A wellbore underreaming tool for use in oil and natural gas drilling arranged for attachment to a rotary drill-bit and associated drill-pipe to enlarge the wellbore to a diameter greater than a pass-through diameter of a wellbore restriction, the underreaming tool comprising: at least one radially extendable cutter block to form the enlarged wellbore diameter;at least one caliper to determine the wellbore diameter;a position sensor to sense a relative position of the cutter block to a tool body;at least one calibration sensor to measure and detect changes in fluid properties, the at least one calibration sensor sensing fluid properties from one of a group comprising flow, rpm, weight, and hydraulic force; andat least one processor inter-connecting the at least one caliper and the at least one calibration sensor, said processor providing verification and control of a desired wellbore diameter by comparing simultaneous measurements from the caliper measuring wellbore diameter and from the position sensor for sensing the relative position of the extendable cutter block to the tool body, and compensating the measurements using said calibration sensor. 2. The underreaming tool as claimed in claim 1, further comprising: at least one extendable stabilizer block to stabilize the underreaming tool during expansion. 3. The underreaming tool as claimed in claim 1, in which the processor is adapted to receive and send information to a transponder housed within a caliper tool body from the caliper and the at least one calibration sensor to determine underreamed wellbore diameter and control extension of said block in response to caliper data to achieve a desired wellbore diameter. 4. The underreaming tool as claimed in claim 1, in which the processor receives and sends information to a transponder housed within the tool body from said caliper and the at least one calibration sensor as well as from the position sensor to control the extension of said block in response to obtained data from the caliper or the position sensor to achieve said desired wellbore diameter. 5. The underreaming tool as claimed in claim 1, in which the at least one calibration sensor includes a transmitter and a receiver located at two fixed points, facing each other and embedded within open longitudinal channels in a caliper tool body to permit the measurement of the fluid properties. 6. The underreaming tool as claimed in claim 5, further comprising: the at least one calibration sensor measures fluid properties selected from the group consisting of: drilling fluid density, drilling fluid sound transit time during drilling operations, drilling fluid sound transit time during non-drilling operations, and wellbore fluid sound transit time. 7. The underreaming tool as claimed in claim 2, further comprising: a plurality of sets of expansion elements integrated within independent tool modules, the first module comprising a first said set of cutter blocks that adapt their expansion to the actual borehole diameter, and the second module comprises a second set of stabilizer blocks that stabilize the tool against a wellbore wall during expansion. 8. The underreaming tool as claimed in claim 1, further comprising: a plurality of sets of expansion elements integrated within independent modules, the first module comprising a first said set of cutter blocks that adapt their expansion to the actual borehole diameter, and the second module comprises a second set of cutter blocks extended in response to feedback from caliper to deliver said wellbore diameter and reduce drilling downtime. 9. The underreaming tool as claimed in claim 1, wherein the extendable cutter block is placed within an open chamber in the tool body and is composed of high strength cutting elements arranged externally and receiving drilling fluid from a source of drilling fluid to an external nozzle placed adjacent to said cutting elements. 10. The underreaming tool as claimed in claim 1, further comprising: a telemetry device for communicating data from the caliper for measuring the wellbore diameter, and the position sensor measuring the position of the at least one extendable cutter block, and control signals between the underreaming tool and a control area provided at surface to permit an operator to optimize drilling performance in real-time. 11. The underreaming tool of claim 1, further comprising: a calibration channel and a mechanism to determine in-situ properties of wellbore fluids using a transducer and the at least one processor to measure said wellbore fluid properties between two fixed points facing each other and located within said calibration channel. 12. The underreaming tool of claim 11, wherein said wellbore fluid is drilling mud and the sensed in-situ property is drilling mud density. 13. The underreaming tool of claim 12, wherein said mechanism is an acoustic caliper and the sensed in-situ property is sound transit time. 14. The underreaming tool of claim 13, wherein said acoustic caliper includes a mud-pulser. 15. The underreaming tool of claim 12, wherein said calibration channel is within a junk slot area, and the transducer is located in the junk slot area. 16. The underreaming tool of claim 1, wherein the underreaming tool outputs the desired wellbore diameter, and wherein the desired wellbore diameter is selected from the group consisting of: cementing thickness, casing tolerance, a well section isolated from the formation, and a well isolated from the surface to a subsurface reservoir. 17. The underreaming tool of claim 1, wherein the underreaming tool outputs a desired wellbore diameter, and wherein the desired wellbore diameter is selected from the group consisting of: expandable tubular expansion, expandable tubular cementing thickness, expandable casing tolerance for an expandable tubular, a well section isolated from the formation, and a well isolated from the surface to a substitute reservoir. 18. The underreaming tool of claim 10, further comprising: at least one pressure signal generated during underreaming. 19. The underreaming tool as claimed in claim 1, wherein the drill-bit is replaceable by a bullnose, and wherein said enlarged wellbore diameter is greater than the pass-through diameter. 20. A method of real-time underreaming below a restriction in a well, comprising: providing a drill-bit and an extendable tool to underream and increase a diameter of a borehole greater than a diameter of the drill-bit after passing through the restriction, said tool being activated to extend extendable blocks on the extendable tool to underream a diameter greater than that of the restriction and the drill-bit;rotating said extendable tool and moving it axially along said borehole;sensing a relative position of the extendable blocks to a body of the extendable tool using a position sensor;measuring a borehole diameter using a caliper;sensing a fluid property from one of a group comprising flow, rpm, weight, density, sound transit time and hydraulic force using at least one calibration sensor;calibrating said measurements using a sensed fluid property from the at least one calibration sensor; andusing a processor, providing verification and control of a desired wellbore diameter by comparing and correlating data received from said caliper and from the position sensor to deliver the desired wellbore diameter. 21. The method of claim 20 wherein the cutter blocks position is compared and correlated with the measured underreamed wellbore diameter to achieve said desired wellbore diameter and reduce drilling downtime. 22. The method of claim 21, comprising using data received from the relative position of the extendable cutter blocks, from the caliper for measuring the underreamed wellbore diameter, and from the fluid properties sensor to a surface control area to transmit, data to a further location to achieve the desired wellbore diameter and reduce drilling time. 23. The method of claim 20, wherein the cutter block is activated using hydraulic force or fluid flow. 24. The method of claim 20, wherein the cutter block is lockable using hydraulic force or fluid flow. 25. The method of claim 20, further comprising: at least one said cutter block movable within a tool body. 26. An underreaming apparatus comprising: extendable blocks;wellbore diameter measurement calipers to determine a wellbore diameter, the wellbore diameter measurement calipers incorporating fluid properties calibration sensors to calibrate said calipers, said extendable blocks and calipers housed in separate tool bodies connected to each other, the fluid properties calibration sensors sensing fluid properties from one of a group comprising flow, rpm, density, sound transit time, weight, and hydraulic force, the wellbore diameter measurement calipers using said fluid properties calibration sensors and at least one telemetry system located at longitudinally separated positions each connected to a tool body;a position sensor to sense a relative position of the extendable block to a tool body:a first housing to underream the wellbore;a second housing to stabilize the underreaming tool within the walls of the wellbore during expansion;a third housing to measure wellbore diameter;a fourth housing to transmit data; andat least one processor inter-connecting the wellbore diameter measurement calipers and the fluid properties calibration sensors, said processor providing verification and control of a desired wellbore diameter by comparing simultaneous measurements from the wellbore diameter measurement calipers and from the position sensor, and compensating the measurements using said fluid properties calibration sensors. 27. The underreaming apparatus according to claim 26, further comprising: the extendable blocks and the wellbore diameter measurement calipers incorporating data from the fluid properties calibration sensors to calibrate the caliper with at least two expansion housings configured with the extendable cutter blocks, the wellbore diameter measurement calipers incorporating said fluid properties calibration and the at least one said telemetry system located at longitudinally separated positions. 28. A method of closed loop underreaming to provide a wellbore of a predetermined diameter, comprising: a drilling rig in contact with a downhole processor, the downhole processor measuring an underreamed wellbore diameter using an acoustic caliper;sensing a relative position of the extendable blocks to a body of the extendable tool using a position sensor;sensing a fluid property from one of a group comprising flow, rpm, density, sound transit time, weight, and hydraulic force using at least one calibration sensor;calibrating said acoustic caliper using a sensed fluid property from the at least one calibration sensor;using a processor, providing verification and control of the predetermined diameter by comparing and correlating data received from said acoustic caliper and from the position sensor to deliver the predetermined diameter; andcomparing measured underreamed wellbore diameter with one or more of: calibration data, fluid properties, flow rate, underreamer cutter block position, weight and revolutions per minute to verify underreaming and delivery a desired wellbore diameter. 29. The method of claim 28 wherein a chamber is pressure compensated to the wellbore. 30. The method of claim 28 wherein a chamber is hydraulically sealed. 31. A method of closed loop underreaming to provide wellbore of a predetermined diameter, comprising: providing a drilling rig in contact with a downhole processor, the downhole processor measuring underreamed wellbore diameter using an acoustic caliper;sensing a relative position of the extendable blocks to a body of the extendable tool using a position sensor;sensing a fluid property from one of a group comprising flow, rpm, density, sound transit time, weight, and hydraulic force using at least one calibration sensor;calibrating said acoustic caliper using a sensed fluid property from the at least one calibration sensor;using a processor, providing verification and control of the predetermined diameter by comparing and correlating data received from said acoustic caliper and from the position sensor to deliver the predetermined diameter; andcomparing a measured underreamed wellbore diameter with one or more of: acoustic calibration data, fluid properties, flow rate, underreamer cutter block position, weight and revolutions per minute to verify underreaming and delivery of the predetermined diameter. 32. A method of real time reaming, comprising: providing a drill-bit and an extendable tool to ream a borehole;passing through a restriction;activating said tool to extend extendable cutter blocks to a diameter greater than the diameter of the drill-bit;sensing a relative position of the extendable cutter blocks to a body of the tool using a position sensor;rotating said tool and moving it axially along said borehole;measuring a borehole diameter using at least one caliper;sensing a fluid property from one of a group comprising flow, rpm, density, sound transit time, weight, and hydraulic force using at least one calibration sensor:calibrating said caliper using a sensed fluid property from the calibration sensor; andusing a processor connected to a control area which act in response to data received from said at least one caliper, verifying and controlling a predetermined diameter by comparing and correlating data received from the at least one caliper and from the position sensor to deliver the predetermined diameter.
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