各种静态数据约束下的三维储层模型是指可以同时满足地震和测井数据的模型。
The models constrained by many kinds of static data are representative as the models constrained by seismic data and well log data.
因此,精细恢复古地貌形态,建立地质储层模型,研究古地貌油气富集规律,对于整个鄂尔多斯盆地的侏罗系油气勘探工作具有十分重要的意义。
So it is important to rebuildpalaeogeomorphology and geology reservoir model and study oil-gas accumulationregulation accurately for oil-gas exploration of Jurassic in Ordos Basin.
通过多元线性回归分析,建立了用多种测井信息划分、评价储层的数学模型。
By using multivariate linear regression analysis, the mathematical model to classify and evaluate reservoir with well logging data was established.
因此,低渗透储集层的测井解释模型要针对不同的储集层类型建立模型,其核心问题是利用测井资料进行低渗透储集层类型的识别。
Therefore the log interpretation model should be set up in consideration of the different reservoir types and its key problem is to identify the low permeability reservoir type by use of log data.
并结合建模软件建立储层沉积微相模型,实现了测井解释成果的定量化应用。
It establishes reservoir microfacies using modeling software to realize quantitative application of well logging interpretation.
对储层的电阻率影响因素进行校正,建立精度较高的剩余油饱和解释模型;
Correct resistivity for its environmental effects and set up a high precision remaining oil saturation interpretation model.
最后采用指示模拟的方法建立了研究区的沉积微相模型,并以此模型为基础建立了研究区的储层参数模型。
The facies model and reservoir model of the study area were built up by using lots of indicators.
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.
储层参数的空间变化规律的把握是油藏模拟模型建立的关键。
How to master reserve space's changing regular is a key to establish oil reserves simulation model.
优选出来的模型客观地反映了储层的地质情况,揭示了剩余油分布规律,为制定合理的开发方案提供了技术保证。
The optimized model reflects the geological feature of reservoir and open out the rule of remaining oil distribution. These provided technological backups for making reasonable exploitation project.
按上述网格系统把储层物性模型转化为气藏数值模型后,对气田的初步开发方案进行了论证,并且和多种其它方法相对照,寻求气田开采的最佳方式。
This type of compound grid is used in the simulation of LuoDai gas field to demonstrate the best recovery scheme , with the aiding of other methods.
为此,在该区开展了基于模型的高分辨率薄互层反演技术进行砂体描述和储层预测的研究。
Therefore, the application of high-resolution thin-interbed inversion based on the model in sand body description and reservoir prediction has been studied.
利用有限元方法,建立了一个描述可变形饱和储层中流体流动的数值模型。
A numerical model, based on the finite element method, is established to describe a fluid flow in a deforming saturated oil reservoir.
建立准确的储层参数测井解释模型,是进行储层非均质性表征的前提和基础。
Establishment of accurate logging interpreting models for reservoir parameters is the foundation and premise for characterizing the reservoir heterogeneity.
利用物理模型或数学模型按比例复制流体在储层中的流动过程的方法。
The methods of using physical or mathematical models to scale and duplicate the fluid processes in a reservoir.
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.
然后以此砂体模型为相控制条件,建立储层物性参数模型。
Taking this sand body model as facies-controlling conditions, a reservoir property model was proposed.
将各种资料综合在同一个储层定量化数值模型之中,是目前储层建模的趋势。
To integrate multiple disciplines data in a numerical reservoir model is a tendency of reservoir modeling at present day.
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.
表明开展低孔隙度低渗透率储层的岩石物理实验,对于建立测井解释模型,进而评价该类储层,具有重要的研究价值。
It indicates that core experiments of petrophysical parameters for low porosity and permeability reservoir are important in establishing logging interpretation models and formation evaluation.
应用信息融合技术与不确定性决策理论,构建了对油气储层损害进行识别、诊断、评价和预测的信息融合模型。
An information fusion model for identification, diagnosis, estimation and forecast of formation damage using the data fusion technique and the uncertainty decision theory was established.
储层高度在计算和数学模型中使用,用来评价储层动态或潜在生产能力。
The reservoir height is used in calculations and mathematical models to assess reservoir performance or potential productivity.
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.
在建立高精度的测井解释模型的基础上,采用储层地质建模技术,模拟了井间储层非均质参数的变化。
Based on building high definition log interpretation model, in this paper, the reservoir geological modeling techniques is used to stimulate reservoir parameter characteristics between Wells.
文中首次建立了储层岩石应力与渗流的耦合渗流模型及新的求解方法;
Setting up rock stress of layers and coupling porous media flow model and new method of solving of porous media flow for the first time in this paper.
现有的压裂液滤失模型是针对均质储层而建立的,不能用于裂缝性储层压裂液的滤失计算。
The existing models of fracturing fluid leak-off are based on the homogenous reservoirs, and cannot be used to calculate the fracturing fluid leak-off for fractured reservoirs.
通过所建模型在某气田低孔隙度低渗透率储层测井解释中的实际应用,取得了满意的效果。
The actual application of these models to some gas reservoirs with low porosity and permeability has proved their reliability and satisfaction in logging interpretation.
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.
断块油藏测井解释模型的建立、资料的处理及储层评价应始终考虑地质因素的影响。
The influence of geological factors should always be taken into account in establishing well log interpretation model, log data processing and reservoir evaluation.
断块油藏测井解释模型的建立、资料的处理及储层评价应始终考虑地质因素的影响。
The influence of geological factors should always be taken into account in establishing well log interpretation model, log data processing and reservoir evaluation.
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