基于多感官频谱声学的海上油井环空压力持续诊断

S. Shtun, A. Senkov, O. Abramenko, Mickhail Rakitin, V. Nagimov, A. Trusov, A. Frolov
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引用次数: 0

摘要

海上油井的可持续环空压力(SAP)监测在具有大量气顶的油藏开发中起着重要作用。工作中提出的用于识别SAP来源的频谱噪声测井和高精度温度测井方法(Shtun 2020)在确定天然气运动间隔方面表现良好,但该方法的答案有限。频谱噪声测井方法最大的局限性是无法根据功率谱来区分环空空间的气体流动区域和产生SAP的储层的气体流入区域。这一信息对于正确的修井计划以消除SAP至关重要。这一局限性涉及到结果信号的幅度和频率不仅取决于空间流体流过的孔径,还取决于湍流流体流动的。本文介绍了一种新的多感官径向定位被动声学技术,该技术旨在区分井中的远近声源,以准确地确定SAP的来源。本文给出了海上油井的实验室和现场案例结果,并将单传感器频谱噪声测井与多感官径向定位被动声学进行了比较,并根据实际案例给出了答案。正如本文所示,所描述的技术可以更准确地确定SAP的来源和近井带流体运动的几何形状。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Sustained Annulus Pressure Diagnostics in Offshore Wells by Multisensory Spectral Acoustics
The monitoring of sustainable annulus pressure (SAP) in offshore wells plays an important role in the development of an oil reservoir with a massive gas cap. The method of spectral noise logging and high-precision temperature logging used to identify SAP source presented in work (Shtun 2020) proved to be good in determining the intervals of gas movement, however, the method is limited in answers. The most significant limitation of the spectral noise logging method is associated with the impossibility based on power spectrum to distinguish the zones of gas flow in the annular space and gas inflow zones from reservoir contributing SAP. This information is critical for proper workover planning to eliminate SAP. This limitation relates to the fact that the amplitude and frequency of the resulting signal depend on not only the aperture of space fluid flow through and depend on the turbulence of the fluid flow. The paper describes a novel technology of multisensory passive acoustics of radial location that is designed to differentiate far and near acoustic sources in wells to accurately define the sources of SAP. The results of laboratory and field cases in offshore oil wells were presented in this paper as well as the comparison between single sensor spectral noise logging and multisensory passive acoustics of radial location answers was given at the end of the paper based on real case studies. As shown in the paper the described technology provides a more accurate determination of the source of SAP and the geometry of fluid movement in the near-wellbore zone.
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