Where the Laterals Go? A Feasible Way for the Trajectory Measurement of Radial Jet Drilling Wells

Zhe Huang, Zhongwei Huang, Yinao Su, Weichang Li, Tianwen Jiang
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引用次数: 3

Abstract

Radial jet drilling (RJD) is an unconventional drilling technology to drill multiple radial laterals by using a high-pressure liquid jet. It is a cost-effective alternative to bypass damage zones near the wellbore, restimulate the production of old wells and develop the unconventional reservoirs. However, due to the structure of the deflector and the diameter of the radial laterals, traditional well-trajectory measuring tools cannot be applied in the RJD wells. It hinders the conduct of some significant operations. The unknown trajectory is a crucial limitation to further development and field application of the RJD technology. In this paper, except an introduction of RJD technology, a measuring system and a mini-tool were proposed for the attitude measurement and motion state recognition. Based on the navigation theory, a reckoning method of the trajectory was established. After that, an experiment study was carried out to test the performance of the measuring tool and the reckoning method. As results of the experiments, the average errors of the measured lateral length, inclination and azimuth are 8.12%, 5.10% and 5.10% respectively.
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支线去了哪里?一种可行的径向射流钻井轨迹测量方法
径向射流钻井(RJD)是一种利用高压液体射流钻取多个径向分支的非常规钻井技术。它是绕过井筒附近受损区域、恢复老井产量和开发非常规油藏的一种经济有效的替代方案。然而,由于转向器的结构和径向分支的直径,传统的井眼轨迹测量工具无法应用于RJD井。它阻碍了一些重要行动的进行。未知轨迹是制约RJD技术进一步发展和现场应用的关键因素。本文在介绍RJD技术的基础上,提出了一种用于姿态测量和运动状态识别的测量系统和小型工具。基于导航理论,建立了弹道的推算方法。在此基础上,对测量工具的性能和推算方法进行了实验研究。实验结果表明,测得的横向长度、倾角和方位角的平均误差分别为8.12%、5.10%和5.10%。
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