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.
对胜利油区广泛采用的多层二维二相油藏模拟模型开展了并行化研究,提出并采用按层粗粒度并行及区域分解并行两种方法实现软件的并行化。
The two methods of coarse granularity parallel by layers and domain decomposition parallel are put forward and used to realize the software parallelization.
在选择区域范围内根据油藏横截面模拟模型能进一步确认流动单位校正模型。
The revised model based on flow units was further validated by cross-sectional reservoir simulation models in selected areas of the field.
文中给出了学习算法,并以油藏开发三次采油过程模拟为例验证了模型和算法的有效性。
The learning algorithm is given, and the effectiveness of the model and algorithm is proved by tertiary oil recovery process simulation of oil reservoir development.
其次应用网格粗化技术,再结合生产动态建立油藏数值模拟模型;
Secondly, the reservoir numerical simulation model is developed by using gridding technology integrated with production performance.
在油藏数值模拟中,井模型的选取直接影响整个计算结果。
The selection of the oil well models has a direct effect on the whole calculation results in the simulation of reservoir.
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.
为此采用拟双重介质模型模拟该类油藏:好储层对应裂缝系统,差储层对应基岩系统,但双重介质间窜流量考虑了储层之间的有效接触面积。
Therefore dual medium model was used for the reservoir simulation, where good reservoir was corresponded to fracture system and poor reservoir was to matrix system.
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.
油藏模拟的重要环节为建立油藏模型、确定油藏参数、选择模拟器和掌握模拟技巧。
The key of reservoir simulation is to develop reservoir models, determine the reservoir parameters, select optimal simulators and master simulation skills.
油藏数值模拟使用全组分模型,对不同开发方式进行了分析研究和对比,对油田实际开发具有指导作用。
A full composition model is used to analyze and correlate various development programs, thus it gives a practical guidance to the actual development of this oil field.
本文根据视觉模拟技术和经验模拟技术,提出了一种新的智能识别试井油藏模型的新方法。
Based on the visual simulation technique and experiential simulation technique, a new method of intelligence diagnosis of well testing reservoir model is presented in this paper.
模拟结果表明,流动单元约束的油藏数值模拟模型具有初始拟合程度高、模型修改程度低、能够更精确的反映层内和平面剩余油分布的特点。
The result of the simulation indicates that the reservoir numerical simulation restricted by fluid flow unit has many advantages in history matching and precision of remaining oil prediction.
根据裂缝性低渗透的渗流特征和裂缝分布特点,建立了裂缝性低渗透油藏渗流等效连续介质模型,编制了相应的裂缝性低渗透油藏数值模拟软件。
According to seepage characters and fissure distribution in fractured low permeability oil reservoir, equivalent model to simulate the fluid flow in fractured reservoir was set up.
建立了人造胶结油藏模型三维物理模拟实验技术,用于研究渗流机理和提高采收率。
A series of petrophysical modeling experiment technologies is established, utilizing a large scale artificial consolidated model, to research the mechanisms of fluid flow in porous media and EOR.
采用岩心水驱油试验及物理模型模拟试验等方法系统研究了低含油饱和度油藏的渗流特征及水驱油机制。
The field dynamic development data present that the low-oil saturation oil reservoirs have obviously different percolation features with common oil reservoirs.
最后,运用该模型对多组实际测试数据进行预测,并把预测所得到参数值反馈给油藏模型,将模拟产生的生产数据与油藏历史生产数据相比较。
Finally, the SVR model is used to predict multiple sets of data. And the predicted parameters values are loaded to reservoir model and are compared with actual historical production data.
根据野外地质模拟调查和油藏动态、静态资料分析,建立了任丘中元古界潜山油藏构造模型。
According to the analysis of field geological investigation, reservoir behavior and static state, the reservoir structure model of buried hill was built in Renqiu.
最后通过数值模拟评价了一些影响注空气采收率的参数,油藏温度、注入速度、含水饱和度、渗透率和模型网格大小。
At last, this paper evaluates some parameters which may have influence on recovery of air injection, reservoir temperature, injecting rate, water saturation, permeability and grid size.
通过所建立的模型进行了分层、分段储量计算,其结果与原结果基本一致,并且实现了油藏精细描述—油藏精细数字模拟一体化。
Reserves of separate layer and section are computed through the established model, and the calculated reserves are almost the same as the original reserves. The integration of reservoir deta...
模拟研究的主要成果是:①获得了适用于所选数学模型的地质模型,加深了对该油藏的认识;
Three main results obtained are:(1)A proper geological satisfying the requirements of the mathetical model is obtained so that a further understanding of this reservoir is obtained;
模拟研究的主要成果是:①获得了适用于所选数学模型的地质模型,加深了对该油藏的认识;
Three main results obtained are:(1)A proper geological satisfying the requirements of the mathetical model is obtained so that a further understanding of this reservoir is obtained;
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