Investigation on effects of water-shale interaction on acoustic characteristics of organic-rich shale in Ordos Basin, China

IF 2.4 4区 工程技术 Q3 ENERGY & FUELS
Yan Zhuang, Xiangjun Liu, Zhangxin Chen, Lixi Liang, Shifeng Zhang, Jian Xiong, Tiantian Zhang
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引用次数: 0

Abstract

The water-shale interaction affect the shale structure, leading to wellbore instability and increasing drilling costs. The extent of structural changes within the shale can be determined non-destructively by analyzing its acoustic characteristics. Experiments were conducted to investigate the acoustic properties of shale from the Yanchang Formation in the Ordos Basin before and after exposure to brines of varying types, soaking times, and salinities. The study investigated the effects of brine type, soaking time, and salinity on shale’s acoustic properties, including changes in acoustic wave propagation speed, P/S wave velocity ratio, and both time-domain and frequency-domain amplitudes. The results indicate that although the type of brine has a limited impact on the water-shale interaction, KCl exhibits a significant inhibitory effect. However, the soaking time and the brine salinity have a significant impact on the acoustic properties of shale. As the soaking time increases, the decrease in wave velocity increases, the P/S wave velocity ratio increases, and the decrease in time-domain amplitude increases. The amplitude of the main frequency in the frequency domain signal also decreases with the increase of reaction time, which is consistent with the analysis results of the time domain signal. As the salinity of brine increases, the decrease in wave velocity decreases, the P/S wave velocity ratio decreases, and the decrease in time-domain amplitude decreases. The amplitude of the main frequency in the frequency domain signal also decreases with the increase of brine salinity, which is consistent with the analysis results of the time domain signal. This work establishes the relationship between water-shale interaction and acoustic characteristics, which can quantitatively evaluate the degree of interaction between water and shale without damaging shale. Furthermore, this research provides new insights and guidance for predicting drilling collapse cycles and optimizing drilling fluid compositions.

Abstract Image

水-页岩相互作用对中国鄂尔多斯盆地富含有机质页岩声学特征的影响研究
水与页岩的相互作用会影响页岩结构,导致井筒不稳定,增加钻井成本。通过分析页岩的声学特征,可以非破坏性地确定页岩内部结构的变化程度。实验研究了鄂尔多斯盆地延长地层页岩在暴露于不同类型、浸泡时间和盐度的盐水前后的声学特性。研究调查了盐水类型、浸泡时间和盐度对页岩声学特性的影响,包括声波传播速度、P/S 波速度比以及时域和频域振幅的变化。结果表明,虽然盐水类型对水与页岩相互作用的影响有限,但氯化钾具有明显的抑制作用。然而,浸泡时间和盐水盐度对页岩的声学特性有显著影响。随着浸泡时间的延长,波速下降幅度增大,P/S 波速比增大,时域振幅下降幅度增大。频域信号中主频的振幅也随着反应时间的增加而减小,这与时域信号的分析结果一致。随着盐水盐度的增加,波速减小,P/S 波速比减小,时域振幅减小。频域信号中主频的振幅也随着盐水盐度的增加而减小,这与时域信号的分析结果一致。这项工作建立了水与页岩相互作用与声学特征之间的关系,可以在不破坏页岩的情况下定量评估水与页岩之间的相互作用程度。此外,这项研究还为预测钻井坍塌周期和优化钻井液成分提供了新的见解和指导。
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来源期刊
CiteScore
5.90
自引率
4.50%
发文量
151
审稿时长
13 weeks
期刊介绍: The Journal of Petroleum Exploration and Production Technology is an international open access journal that publishes original and review articles as well as book reviews on leading edge studies in the field of petroleum engineering, petroleum geology and exploration geophysics and the implementation of related technologies to the development and management of oil and gas reservoirs from their discovery through their entire production cycle. Focusing on: Reservoir characterization and modeling Unconventional oil and gas reservoirs Geophysics: Acquisition and near surface Geophysics Modeling and Imaging Geophysics: Interpretation Geophysics: Processing Production Engineering Formation Evaluation Reservoir Management Petroleum Geology Enhanced Recovery Geomechanics Drilling Completions The Journal of Petroleum Exploration and Production Technology is committed to upholding the integrity of the scientific record. As a member of the Committee on Publication Ethics (COPE) the journal will follow the COPE guidelines on how to deal with potential acts of misconduct. Authors should refrain from misrepresenting research results which could damage the trust in the journal and ultimately the entire scientific endeavor. Maintaining integrity of the research and its presentation can be achieved by following the rules of good scientific practice as detailed here: https://www.springer.com/us/editorial-policies
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