储层地质模型是油气藏地质模型的核心。
因此,高精度的孔隙度预测是建立储层地质模型的关键。
Therefore, high precision porosity prediction is the key to constructing geological model of reservoirs.
论文详细讨论了储层地质模型的主要研究方法、研究手段和应用局限。
In the thesis, it has been discussed detailedly about the main research methods, instrument and its application limits in the reservoir geological modeling.
最后,应用等时相控随机模拟方法建立了三维可视化的储层地质模型。
Finally, isochronal facies-restrained stochastic modeling method is used to build up the 3-d reservoir model.
模型验证结果表明,所建立的工区储层地质模型可信程度高,真实性强。
The model results show, the established geologic model in the work area enjoys high credibility and truth.
结果运用以上储层地质建模技术,建立了适合于该区的准确储层地质模型。
Results By using of this technology of reservoir geologic modeling, the reservoir geologic model was built that exact adapt to this area.
为开展精细的储层地质模型研究,本文探讨了目前应用较为广泛的几种储层参数定量预测方法。
To study further collector geologic model, some collector parameter quantitative prediction methods at present are discussed in this paper.
结论基于神经网络模型的井间参数预测方法,可以为储层精细评价提供高质量的油藏地质模型。
Conclusion The method of parameter predict can provide a high quality oil pool geological model for reservoir fine evaluation.
本文首先介绍了陆源沉积储层的地质模型,胜利油田部分油、气田储集层的岩石物理学特征。
In this paper, First introduce the geologic model of continental sedimentation, the rock physics expression about oil and gas reservoir of ShengLi oil Filed.
储层具有分形性质,有助于定量地将地质模型与数学模型有机结合起来,对油田开发具有重大意义。
The fractal property of reservoir is helpful to combine the geological model and mathematical model which is important to exploit oil field.
储层参数研究是储层综合评价和建立油藏地质模型的基础。
The study of reservoir parameter is the foundation of appraising reservoir comprehensively and establishing reservoir geological model.
储层地质学家设计了储层的地质模型,描述储层的三维结构,认识其静态和动态特征,指导油气勘探和开发。
The reservoir geologists have designed geological models of reservoir to describe the 3-D structure of the reservoir and help hydrocarbon exploration and production.
储层建模横向预测中,应用协克里金算法联合地震反演与原始测井两种数据,综合建立地质模型。
In the prediction of lateral reservoir variations, co-Krige method is used to combine seismic inversion results and original log data to form an integrated geological model.
在前面的各项研究的基础上开展了储层三维地质模型研究,采用地质统计学克里金方法进行井间插值。
After the above research work, the research studied on the 3d geological model of the reservoir, and used the geostatistics kriging interpolation.
在前面的各项研究的基础上开展了储层三维地质模型研究,采用地质统计学克里金方法进行井间插值。
After the above research work, the research studied on the 3d geological model of the reservoir, and used the geostatistics kriging interpolation.
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