天然气在增产、生产和弃井后向浅层地下水的渗流路径评价

Q2 Earth and Planetary Sciences Environmental Geosciences Pub Date : 2014-09-01 DOI:10.1306/EG.04231414004
M. Dusseault, R. Jackson
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引用次数: 121

摘要

非常规油气储层的水力压裂(HFS)在逸散气体排放、裂缝高度增长、诱发地震活动和地下水水质变化等方面受到了公众的关注。我们评估了在增产、生产和弃井后失逸性气体渗流的潜在途径;我们得出结论,套管安装的质量是未来天然气运移的主要关注点。套管外的通道尤其令人担忧,因为它可能导致许多井从薄的中深层气层泄漏天然气,而不是从更深的目标储层泄漏天然气。必须了解这些路径,确定可能的情况,并通过套管射孔和挤压、延长使用寿命的膨胀封隔器以及诱导渗漏进入含盐含水层等方法来降低泄漏的可能性。HFS本身似乎不是一个重大风险,只有两个例外。这种情况发生在HFS的高压阶段,即:(1)遗留井套管被压裂液相交,(2)这些流体对附近未关井的邻井加压,特别是在同一地层中被压力耗尽区域包围的邻井,该区域的水平应力也降低了。本文重点研究了由水泥收缩相关的地质力学过程引起的套管外深层气体运移问题,并回顾了噪声测井、土地主井和地表套管通风孔中记录的气体脉冲的来源。
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Seepage pathway assessment for natural gas to shallow groundwater during well stimulation, in production, and after abandonment
Hydraulic fracture stimulation (HFS) of unconventional oil and gas reservoirs is of public concern with respect to fugitive gas emissions, fracture height growth, induced seismicity, and groundwater quality changes. We evaluate the potential pathways of fugitive gas seepage during stimulation, in production, and after abandonment; we conclude that the quality of the casing installations is the major concern with respect to future gas migration. The pathway outside the casing is of particular concern as it likely leads to many wells leaking natural gas from thin intermediate-depth gas zones rather than from the deeper target reservoirs. These paths must be understood, likely cases identified, and the probability of leakage mitigated by methods such as casing perforation and squeeze, expanding packers of long life, and induced leakoff into saline aquifers. HFS itself appears not to be a significant risk, with two exceptions. These occur during the high-pressure stage of HFS when (1) legacy well casings are intersected by fracturing fluids and when (2) these fluids pressurize nearby offset wells that have not been shut in, particularly offset wells in the same formation that are surrounded by a region of pressure depletion in which the horizontal stresses are also diminished. This paper focuses on the issue of gas migration from deeper than the surface casing that occurs outside the casing caused by geomechanical processes associated with cement shrinkage, and we review the origin of the gas pulses recorded in noise logs, landowner wells, and surface-casing vents.
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Environmental Geosciences
Environmental Geosciences Earth and Planetary Sciences-Earth and Planetary Sciences (all)
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