通过计算安全作业范围协助定向钻井

SPE Journal Pub Date : 2024-07-01 DOI:10.2118/217707-pa
L. Saavedra Jerez, E. Cayeux, D. Sui
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引用次数: 0

摘要

如今,复杂的三维轨迹是通过连续的圆弧(CA)来实现的。虽然圆弧的曲率是恒定的,但其刀面却不是恒定的。因此,定向钻井人员必须定期调整工具面,以便在公差范围内到达目标入口。本文研究了如何使用恒定曲率和恒定刀面曲线(简称 CTC)来替代 CA,以帮助定向钻井工作在其边界内到达目标入口。该问题通过计算安全作业包络线(SOE)来解决,以达到目标入口的边界,并为曲率和工具面提供一个公差窗口,以支持定向钻井决策。目标入口公差被离散化为一个多边形。从当前钻头位置及其方向出发,可以选择不同的曲率和钻具面,以达到目标入口形状的边缘。SOE 可以用 CA 或 CTC 曲线计算。因此,可以比较这两种曲线的优缺点,以达到目标入口并保持在其边界内。CA 比 CTC 曲线短。但是,它需要在导航过程中调整刀面,而 CTC 曲线则不需要。因此,定向钻井者可以通过在计算出的 SOE 内设置工具面和曲率点来控制井底组件(BHA)的方向,从而使油井在目标入口范围内着陆。此外,还引入了一种表示 SOE 的新方法。它使用三维圆柱表示法,其中曲率映射为圆柱的高度,而工具面对应于圆柱坐标系中的方位角,长度则与径向距离相关联。这为理解 SOE 提供了视觉帮助。此外,这种可视化方法还有助于理解 SOE 构造中初始钻头位置和方向之间的关系,以及当钻头接近目标入口多边形时,余量是如何以特定方式增加的。CTC 曲线是定向容积马达(PDM)或旋转转向系统(RSS)所遵循的自然曲线。由于 CTC 曲线更容易被 PDM 和 RSS 遵循,因此有可能成为自动定向钻井控制的一种更直接的解决方案。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Assisting Directional Drilling by Calculating a Safe Operating Envelope
Nowadays, complex 3D trajectories are executed with a succession of circular arcs (CAs). Although they have constant curvature, their tool face is not constant. Consequently, directional drillers must adjust the tool face regularly to reach the target entry within its tolerances. This paper investigates the use of the constant curvature and constant tool face (CTC in short) curve as an alternative to the CA to assist the directional drilling work to reach the target entry within its boundaries. The problem is addressed by calculating a safe operating envelope (SOE) to reach the boundaries of the target entry and provide a tolerance window for the curvature and tool face to support directional drilling decisions. The target entry tolerance is discretized as a polygon. From the current bit position and its direction, the possible choices of curvatures and tool faces are obtained to reach the edges of the target entry shape. The SOE can be calculated with the CA or with the CTC curve. It is, therefore, possible to compare the advantages and disadvantages of both types of curves to attain the target entry and stay within its boundaries. The CA is shorter than the CTC curve. However, it requires adjusting the tool face during the navigation, which is not the case with the CTC curve. As a result, the directional driller can control the bottomhole assembly (BHA) direction such that the well lands within the target entry limits by using set points for tool face and curvature inside the calculated SOE. Furthermore, a new way to represent the SOE is introduced. It makes use of a 3D cylindrical representation where the curvature is mapped as the height of a cylinder, while the tool face corresponds to the azimuth in the cylindrical coordinate system, and the length is linked to the radial distance. This provides a visual aid to understand the SOE. Moreover, this visualization helps to appreciate the relationship between the initial bit location and direction in the construction of the SOE and how the margins increase in a particular manner as the bit approaches the target entry polygon. The CTC curve is the natural one followed by directional positive displacement motors (PDMs) or rotary steerable systems (RSS). Potentially, the CTC curve may be a more straightforward solution to automated directional drilling control because it is easier to be followed by both PDM and RSS.
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