Fluid-Rock Characterization for NMR Well Logging and Special Core Analysis | |
George Hirasaki ; Kishore Mohanty | |
关键词: DRILL BITS; WELL DRILLING; DRILLING FLUIDS; MOTORS; DESIGN; PERFORMANCE; WELL LOGGING EQUIPMENT; | |
DOI : 10.2172/932890 RP-ID : None PID : OSTI ID: 932890 Others : TRN: US200814%%679 |
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美国|英语 | |
来源: SciTech Connect | |
【 摘 要 】
The overall objective of this effort is to develop, build and test a high-speed drilling motor that can meet the performance guidelines of the announcement, namely: 'The motors are expected to rotate at a minimum of 10,000 rpm, have an OD no larger than 7 inches and work downhole continuously for at least 100 hours. The motor must have common oilfield thread connections capable of making up to a drill bit and bottomhole assembly. The motor must be capable of transmitting drilling fluid through the motor'. To these goals, APS would add that the motor must be economically viable, in terms of both its manufacturing and maintenance costs, and be applicable to as broad a range of markets as possible. APS has taken the approach of using a system using planetary gears to increase the speed of a conventional mud motor to 10,000 rpm. The mud flow is directed around the outside of the gear train, and a unique flow diversion system has been employed. A prototype of the motor was built and tested in APS's high-pressure flow loop. The motor operated per the model up to {approx}4200 rpm. At that point a bearing seized and the performance was severely degraded. The motor is being rebuilt and will be retested outside of this program.
【 预 览 】
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RO201705190000043LZ | 4452KB | download |