超压砂层浅水流产生与发展的实验研究

Can Shi, B. Lin, Yan Jin, Jun Shentu
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摘要

浅水流是深水钻井中常见的一种地质灾害类型。通常发生在泥线以下较浅的地层中(约450-2500米)。当被钻头侵入时,超压砂体会产生SWF,这可能会严重损害钻柱和相关设备的完整性。然而,引发SWF的机制缺乏详细的了解,这使得钻穿SWF易发地层的安全设计成为悬而未决的问题。本文通过自主设计和研制的浅水渗流模拟装置,研究了沙岩在SWF事件中所发生的损伤及渗流机理。通过实验可以发现,在浅水流动事件发生时,泄压口周围存在较多的积砂。卸压口下方砂体整体向上抬升,卸压口上方砂层有比幅值下降。研究结果不仅有助于理解主权财富基金的发生过程,也为后续的主权财富基金事件防控研究奠定了基础。为钻井设备的改进提供理论指导,确保SWF危害得到充分控制。
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Experimental Investigation on Generation and Development of Shallow Water Flow in Overpressured Sand Formation
Shallow water flow (SWF) is a common type of geological hazard in deep-water drilling. It usually occurs in a relatively shallow stratum below mud line (about 450-2500m). When encroached by a drill bit, the substantially over-pressured sand body can generate SWF that may dramatically impair the integrity of the drill string and the associated equipment. However, the mechanism that triggers SWF is lack of detailed understanding, leaving a safe design of drilling through SWF prone strata in suspense. In this paper, through the independent design and development of the shallow water flow simulation device, the damage, and flow mechanism of the sandstone occurred during the SWF events. It can be found through the experiment that in the occurrence of shallow water flow event, there is much sand accumulation around the pressure relief port. The sand body below the pressure relief port is lifted upwards as a whole, and the sand layer above the pressure relief port has a specific amplitude decrease. The findings could not only help understand the SWF process but also build a foundation for subsequent research on prevention and control of SWF incident. In addition, it provides theoretical guidance for improving drilling equipment to ensure that the SWF hazard is adequately controlled.
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