Abstract
During extended-reach well drilling, the torque of a rotary drill string is too large in the horizontal section, which results in the failure of the drill string. The effect of radial vibration on the friction and torque of the rotary drill string is unclear. In this work, first, the principle of the impact of radial vibration on the friction and torque of the rotary drill string in the horizontal section is analysed. Then, joints with an elliptical outer edge of the section are designed, which can generate low-amplitude vibration as the drill string rotates owing to the interaction with the wellbore wall. The radial vibration characteristics can be tuned by changing the major to minor radius ratio of the ellipse. A self-developed experimental device was designed to test the performance of tools with reduced friction and torque. The drill string torque with different penetration rates, rotation speeds, and ratios of the major radius to minor radius of the ellipse were systematically studied. The experimental results show that the average and the maximum amplitudes of the torque fluctuation first decrease to the lowest value and then increase with the increase of the ratio. When the ratio reaches 1.065, the average and the maximum amplitudes of the torque fluctuation evidently reduce; therefore, a joint with a ratio of 1.065 can effectively reduce frictional torque. The average torque reduces when the penetration rate and rotation speed decrease. At rotation speeds of 45 and 60 r/min, the maximum amplitude of torque fluctuation increases first and then decreases with an increase in penetration rate, and it reaches a maximum value at a penetration rate of 22.5 m/h. The fundamental frequency of torque fluctuation is almost linearly related to rotation speed, which is irrelevant to the penetration rate and the ratio of major to minor radius of the ellipse.
Highlights
Extended-reach wells have been widely applied in the exploration of unconventional oil and gas reservoirs
Many studies have focused on the vibration to reduce the friction and torque of the drill string; most of them focused on the axial vibration [7, 8, 15,16,17,18,19,20,21,22], and only a few studies about the impact of radial vibration on the friction and torque of rotary drill string have been reported
Li [10] developed a radial vibration torsion reduction tool powered by drilling fluid. e field experiment showed that the tool can improve the transfer of drilling weight on the bit
Summary
Extended-reach wells have been widely applied in the exploration of unconventional oil and gas reservoirs. The drill string lies on the bottom of the borehole wall by its gravity, and the friction caused by interaction between the drill string and the borehole wall is large because of the long horizontal section in extended-reach wells It is difficult for the drill string to transmit torque, and the large torque results in the failure of the drill string. The instantaneous torques of the rotary drilling are measured with different experimental conditions, including the ratio of major radius to minor radius of the joint elliptical section (Ra/b), penetration rate, and rotation speed, which have major impacts on the radial vibration characteristics. The instantaneous torques of the rotary drilling are measured with different experimental conditions, including the ratio of major radius to minor radius of the joint elliptical section (Ra/b), penetration rate, and rotation speed, which have major impacts on the radial vibration characteristics. e experimental results support the theoretical analysis, providing guidance to study the friction and torque reduction of the rotary drill string by radial vibration
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