因此,是一个真实的水文地质模型。
地质模型的建立在数值模拟中至关重要。
It is very important on the numerical simulation to establish the geological model.
储层地质模型是油气藏地质模型的核心。
矿床地质模型是综合信息找矿模型的基础。
Metallogenetic model is a base for the comprehensive ore-searching information model.
建立了气藏地质模型。
模拟数据的上行反射波成像剖面与地质模型吻合较好。
The images of the up-going waves of the simulated data fitted with the geology better.
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.
针对三层地质模型,进行了电磁波测井三参数反演方法研究。
Based on the three-lager model, three parameter inversion is carried out for the electromagnetic wave logging.
能根据用户需求对模拟出的三维地质模型图进行旋转和剖切显示。
The three-dimension geological model figure that is imitated can show under rotating and cutting according to user's needs.
为了提高油藏的采收率,必须开展精细油藏描述,建立油藏地质模型。
In order to enhance oil recovery of the reservoir, fine reservoir description has to be made by building up new reservoir geologic model.
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.
新建了精细可靠的油藏地质模型,为准确研究剩余油分布奠定了基础。
Fine and reliable reservoir geology model is established in this paper, which is the base of correct researches on the distribution of residual oil.
新解释的地质模型表明了更现实的勘探情况,也反应了更大的油气资源。
The new model represents a much more realistic exploration scenario and it translates to significantly larger hydrocarbon resources as well.
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.
根据地震相干体,预测出裂缝的分布,引入等效介质理论,建立了地质模型。
According to seismic coherent body, this paper predicts distribution of fractures, USES equivalent medium theory, and establishes geologic model.
利用VIP模拟器和两层地质模型首次进行了周期注水的油藏数值模拟研究。
By using the VIP simulator and a two-layer model, for the first time, the numerical reservoir simulation for the cyclic flooding have been studied.
传统上采用层状结构来描述地质模型,这对于复杂勘探区显然不能够满足需要。
Traditionally, the geology structure is described by samdwich model, which can't meet the needs in complex prospecting area obviously.
结合地下水动态变化特征对坝区地下水系进行划分,建立了坝区水文地质模型。
With the dynamic variational characteristic of ground water, The text divided ground water system and build the hydrogeological model in dam-region.
裂缝预测结果受地质模型、几何框架模型、岩石的力学性质和区域背景应力的影响。
The results of fracture prediction would be affected by geologic model, geometric framework model, rock mechanics properties and regional stress background.
文中给出了用单程波动方程法对一个复杂地质模型形成8个共炮点地震记录的例子。
The paper gives an example of 8 common shot seismic gathers for a complex geological model by using o.
最后利用优选的地质模型通过水驱油流线模型数值模拟来预测剩余油气饱和度分布。
Finally, the remaining oil saturation distribution is predicted through numeric simulation using water displacing oil streamline simulator.
针对非均质性稠油油藏,建立了二层地质模型。利用该模型研究了单井分层配汽问题。
A two layer geological model is established to study the problem of layer steam injection allocation in single well of viscous oil reservoir with heterogeneity layer.
地质法预测剩余油的关键是要建立高精度的地质模型及对油砂体动用状况的明确认识。
The key of geology method to predict remaining oil is to construct geology model with high accuracy and to have a clear recognition on production degree of oil sand.
通过油藏数值模拟的历史拟合精度来评价地质模型的可靠性,由动态模型验证静态模型。
Reliability of the geological model was evaluated by history matching precision of oil reservoir numerical simulation. Static model was validated by dynamic model.
国外研究主要集中在水文地质模型的建立和利用水化学方法对泉水地球化学特征进行分析。
At abroad, research mainly concentrates on establishing hydrogeological model and using chemical methods to analyze chemical characteristics of springwater.
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.
反演的基础是在建立流线模型的基础上对地质模型(特别是渗透率分布状况)进行准确预测。
Geologic models are made by the inversion, which can predict the accurate distribution of the permeability.
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.
应用推荐