管道输送核磁共振测井确保低电阻率储层的成功表征

Pedro A. Romero Rojas, L. Tagarieva, S. Mohamed, Mohand Arezki Belloul, Chao Chen, Mohammed Boushari, Mahdi Nwab, Khaled Al-Hindi, Jesus Manzo
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引用次数: 0

摘要

北科威特的Middle Burgan地层非常具有挑战性:其垂直厚度有限,整体电阻率低,需要复杂而特殊的钻井、地层评估和完井作业,以确保最佳产量。本案例研究的目的是证明核磁共振(NMR)测井数据在这种具有挑战性的环境中提供岩石质量和流体类型的价值,在这种情况下,常规测井数据不足以了解水平井的储层。在Middle Burgan地层中,使用油基泥浆钻取了6 1/8英寸的水平段,同时获得了伽马射线、电阻率、密度数据,并通过管道(PCL)传输了最新一代多频、聚焦核磁共振电缆工具(FMR)的数据。低电阻率储层含水饱和度计算结果往往超出常规测井计算的实际含水饱和度。在这种环境下,核磁共振测井被证明是正确表征储层和支持完井设计关键决策的关键。基岩质量和渗透率剖面由核磁共振提供。通过应用2D-NMR方法、扩散vs. T2或DT2图来确定油饱和度。尽管存在冲蚀,但在水平井段不同深度的调查中获得了高质量的核磁共振数据。将核磁共振数据与常规测井数据相结合,有助于提高储层特征,通过清晰地识别储层和页岩层,减少地层评价中的不确定性,此外,还可以为压裂设计的管理决策提供必要的信息,以最大限度地提高石油产量。利用高质量的核磁共振测井资料,实现了储层评价和井眼目标。该工具的多频功能允许在不同的调查深度采集数据,这有助于克服数据解释中冲蚀的负面影响。根据非常可靠的测井数据解释所做出的决定,预计将在低电阻率、薄储层中获得出色的井性能和高产能。
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Pipe Conveyed NMR Logging Secures Successful Reservoir Characterization in a Low Resistivity Pay
The Middle Burgan formation in North Kuwait is very challenging: its limited vertical thickness and overall low resistivity require complex and special operations for drilling, formation evaluation and completion to ensure optimum production. The objective of this case study is to demonstrate the value of Nuclear Magnetic Resonance (NMR) log data to provide rock quality and fluid typing in this challenging environment, where conventional logs are not enough for reservoir understanding along a horizontal well. A horizontal 6 1/8" section was drilled through the Middle Burgan formation with oil-based mud and Gamma Ray, Resistivity, Density data were acquired while drilling, and data from the latest generation of multifrequency, focused NMR wireline tool (FMR), conveyed on pipe (PCL). Water saturation computation in low resistivity pay often exceeds the real value when computed using conventional logs. In this environment, NMR logging proved to be essential for the proper reservoir characterization and to support critical decisions on well completion design. Fundamental rock quality and permeability profiles were supplied by NMR. Oil saturation was identified by applying the 2D-NMR methods, Diffusion vs. T2, or DT2 maps. Despite the presence of washouts, high quality NMR data was obtained at different depths of investigation in the horizontal well section. Integrating the NMR data with conventional well logs helped advanced reservoir characterization, in reducing the uncertainty in formation evaluation by clearly identifying pay and shale zones, and furthermore, in providing necessary information to support management decisions regarding fracking design to maximize oil production. The formation evaluation and well objectives were met with the aid of the high-quality NMR log data. The multifrequency capability of the tool allows data acquisition at different depths of investigation which helped to overcome the negative effects of washouts in the data interpretation. A remarkable well performance and high productivity from the low resistivity, thin reservoir layers, is expected based on decisions made from the by very reliable well log data interpretation.
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