Improvement of the Method for Calculating Downhole Weight on Bit and its Application in Autodriller Systems

Volume 8: Polar and Arctic Sciences and Technology; Petroleum Technology Pub Date : 2019-11-11 DOI:10.1115/omae2019-96784

Wu Zebing, Guo Longlong, Zhang Shuai, Yuanping Wu, Lantao Lv, Wang Wenjuan, Pan Yujie, Wang Yongyong, Adnane El Mokhtari

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Abstract

The accuracy of downhole weight on bit (DWOB) is one of the most important factors in the improvement of drilling efficiency, especially in horizontal well drilling. This paper introduced an analytical model and developed a corresponding program to calculate DWOB using drilling data on the surface. A well with field data measured was utilized to verify the model. The results indicate that the calculated friction factors are reasonable, and the DWOB calculated using the analytical model is consistent with those measured by the measurement tool. To satisfy the requirement of real-time drilling monitoring, a least square fitting (LSF) model for the relationship between the DWOB and surface weight on bit (SWOB) measured by deadline sensor on the surface was established to improve the calculation speed. Compared to the analytical method, the LSF model features much faster calculation speed, and the DWOB predicted by LSF model shows much better agreement with the measured DWOB. In addition, the influence of friction factors and standpipe pressure on the coefficients of LSF model was analyzed. The method and calculation technique proposed have applications potential, such as integration with present autodriller systems, post-drilling analysis, drilling operation monitoring, drilling optimization and automation.

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钻头井下重量计算方法的改进及其在自动钻系统中的应用

井下钻压(DWOB)的准确性是提高钻井效率的重要因素之一，特别是在水平井钻井中。本文介绍了利用地面钻井数据计算钻压的解析模型，并编制了相应的程序。利用现场实测数据对该模型进行了验证。结果表明，所计算的摩擦系数是合理的，利用分析模型计算的钻压与测量工具测量的结果一致。为满足实时钻井监测的要求，建立了井底钻压与地面钻压(SWOB)关系的最小二乘拟合(LSF)模型，提高了计算速度。与解析法相比，LSF模型的计算速度快得多，并且LSF模型预测的深钻压与实测的深钻压具有更好的一致性。此外，还分析了摩擦系数和立管压力对LSF模型系数的影响。所提出的方法和计算技术在与现有自动钻井系统集成、钻后分析、钻井作业监控、钻井优化和自动化等方面具有应用潜力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Volume 8: Polar and Arctic Sciences and Technology; Petroleum Technology

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