利用空化液压振动器进行旋转振动钻井钻头振动加速度的评价

Q3 Engineering

International Journal of Mining and Mineral Engineering Pub Date : 2020-07-16 DOI:10.1504/ijmme.2020.10030568

O. Nikolayev, Y. Zhulay, Y. Kvasha, N. Dzoz

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引用次数: 3

摘要

空化水力振动器是一种很有前途的地质勘探和生产井强化钻井装置。空化水力振动器将钻井泥浆的静止流动转化为功率增加的离散脉冲流。水力振动器中的泥浆振荡流被转换为钻头的高频（1000Hz至20000Hz）振动。提出了一种测定带钻头钻柱纵向振动的方法。该方法基于钻柱纵向振动与岩体之间动态相互作用的实验研究结果，通过使用钻柱的有限元离散化对这一过程进行数学建模。钻头的计算振动加速度和实验数据的令人满意的收敛性证实了所开发的数学模型的充分性及其确定水力振动器合理操作模式的能力。

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Evaluation of the vibration accelerations of drill bit for the well rotative-vibration drilling using the cavitation hydrovibrator

Cavitation hydrovibrator is one of the promising devices to intensify drilling of geological prospecting and production wells. Cavitation hydrovibrator transforms the stationary flow of drilling mud into a discrete-pulsed flow of increased power. The mud oscillating flow in hydrovibrator is converted into high-frequency (1,000 Hz - 20,000 Hz) vibrations of the drill bit. A method for determining the longitudinal vibrations of a drill string with bit has been developed. The method is based on the results of experimental studies of the dynamic interaction between longitudinal oscillations of the drilling string with rock massive by mathematical modeling this process with use of finite-element discretisation of drilling string. An obtained satisfactory convergence of the computed vibration accelerations of the drill bit and experimental data confirms the adequacy of the developed mathematical model and the ability with its help to determine the rational operational modes of the hydrovibrator.

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来源期刊

International Journal of Mining and Mineral Engineering Engineering-Industrial and Manufacturing Engineering

CiteScore

1.90

自引率

0.00%

发文量