Analysis of Torsional Stick-Slip Situations from Recorded Downhole Rotational Speed Measurements

IF 1.3 4区工程技术 Q3 ENGINEERING, PETROLEUM

SPE Drilling & Completion Pub Date : 2021-01-01 DOI:10.2118/199678-PA

E. Cayeux, A. Ambrus, Lars Øy, Arvid Helleland, Svein Tore Brundtland, Harald Nevøy, M. Morys

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引用次数: 8

Abstract

The use of recorded downhole rotational speed measurements with a bandwidth up to 9 Hz gives new insights into the conditions under which stick-slip torsional oscillations occur. Observations made while drilling two reservoir sections have shown that, out of all the stick-slip situations identified, 72% of them for one well and 64% for the other well occurred in off-bottom conditions. In these off-bottom conditions, stick-slip was systematically observed while starting the topdrive (TD) until a sufficiently high TD rotational velocity was requested. For these two sections, off-bottomstick-slip was either related to using TD speeds below 120 rev/min or to reaming down during reciprocation procedures. In on-bottom conditions, stick-slip events occurred predominantly when the TD speed was less than 120 rev/min (53 and 32% of the on-bottom cases) but also in association with downlinking to the rotary steerable system (RSS) (23 and 46% of the on-bottom cases), and this, even though the TD speed was larger than 120 rev/min. These on-bottomstick-slip situations did not necessarily occur at a very high weight on bit (WOB) because 98% of them for one well and 46% for the other well took place when the WOB was lower than 10 ton. Downhole measurements have shown that when the drillstring is subject to strong stick-slip conditions, the downhole rotational speed changes from stationary to more than 300 rev/min in just a fraction of a second. Direct observations of downhole rotational speed at high frequency help in discovering conditions that were not suspected to lead to large torsional oscillations. This new information can be used to improve drilling operational procedures and models of the drilling process, therefore enabling increased drilling efficiency.

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从井下转速测量数据分析扭转粘滑情况

使用带宽高达9hz的记录井下转速测量数据，可以对粘滑扭转振荡发生的条件有新的了解。在钻探两个油藏段时进行的观察表明，在所有已确定的粘滑情况中，其中一口井发生了72%，另一口井发生了64%的粘滑情况。在这些离底条件下，在启动顶驱(TD)时，系统地观察到粘滑现象，直到要求足够高的TD旋转速度。对于这两个井段，离底粘滑要么与使用低于120转/分钟的TD速度有关，要么与往复过程中的扩孔有关。在井底工况下，粘滑主要发生在TD速度小于120转/分钟时(53%和32%的井底工况)，但也与旋转导向系统(RSS)的下行有关(23%和46%的井底工况)，即使TD速度大于120转/分钟也是如此。这些底部粘滑情况并不一定发生在钻压(WOB)很高的情况下，因为其中98%的情况发生在一口井，46%的情况发生在另一口井的WOB低于10吨的情况下。井下测量表明，当钻柱处于强粘滑状态时，井下转速在不到一秒的时间内从静止变为超过300转/分钟。直接观察高频下的井下转速有助于发现不会导致大扭转振荡的条件。这些新信息可用于改进钻井作业程序和钻井过程模型，从而提高钻井效率。

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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来源期刊

SPE Drilling & Completion 工程技术-工程：石油

CiteScore

4.20

自引率

7.10%

发文量

审稿时长

6-12 weeks

期刊介绍： Covers horizontal and directional drilling, drilling fluids, bit technology, sand control, perforating, cementing, well control, completions and drilling operations.