对于故意使井眼倾斜的井,或井眼接近于法定的边界,方位信息通常也要进行测量。
For intentionally deviated wellbores, or Wells close to legal boundaries, directional information is usually also measured.
确定证实储量边界的核心问题是对合理开发井距的确定。
Determining reasonable development well spacing is the key in identifying the boundary of proved reserves.
边界党还有一个任务,就是大小五井和九陇两个军事根据地的巩固。
The Party in the border area has another task, namely, the consolidation of the military bases at Five Wells and Chiulung.
然而若将其边界移至水平井的出水口处,则此处的边界条件却十分易于确定。
But if move at to produce water mouthfuls of place horizontal Wells, then here very much easy to determine the boundary conditions.
以试井资料为基础,结合试油、试采及其它地质资料通过压力诊断、曲线拟合、边界分析等,得到准确的油藏参数。
Based on testing data, combining well test, recovery and other geologic data, by pressure diagnose, curve analog and boundary analysis, an accurate reservoir parameter can be gained.
对算例分析表明边界条件对砂井地基固结的影响较大,半透水参数对其相邻土层的固结影响比远离该边界的土层的固结大得多。
Analysis for impeded boundaries shows that impeded boundaries parameters has great effect on the system consolidation and it affected the conjoint stratum more than that away from.
求解了不同边界条件下的理论公式;给出了利用试井理论曲线确定气层参数和单井控制范围的方法。
We gained solutions to theoretical formulas under different boundary conditions, presented the method to determine the gas reservoir factor and single well controllable range by means of type curve.
求解了不同边界条件下的理论公式;给出了利用试井理论曲线确定气层参数和单井控制范围的方法。
We gamed solutions to theoretical formulas under different boundary conditions, presented the method to determine the gas reservoir factor and single well controllable range by means of type curve.
基于其启动压力梯度,推导出了宾汉流体的运动半径和运动边界压力求取公式在此基础上推导出了垂直井在稳态状态下的产能预测公式。
Moving radius and moving boundary pressure are derived based on its star-tup pressure gradient. Productivity of vertical wells is derived on the above three parameters.
在解释多相流、开发井网、复杂边界和非均质油藏等复杂性试井资料方面,具有独到的优势。
In some ways of interpreting complicated well testing data such as multiple phase flow, producing pattern, complicated border and heterogeneous oil reservoir, this theory has a particular advantage.
确定油藏有效含油边界及预测油藏单井原油产能是储量评价和合理确定井位的基础。
To identify the effective boundary of oil reservoir and to predict potential production capacity in a single well are the foundation of reserves evaluation and drill_site selection.
水电站建筑物调压井体型庞大,荷载及边界条件都较为复杂,同时埋于岩体中属于地下结构范畴。
Surge Tank is a key part of hydropower station, and has huge volume and complicate load and boundary condition, which is embedded in the rock mass, so it belongs to underground structure.
沿构造翼部下倾部位或在产层外边界上所钻的井。边缘井经常穿透油水界面。
A well drilled down the flanks of structure or on the outer limits of a producing formation. An edge well often penetrates the oil-water contact.
针对油田特定注采方式下的垂直裂缝井,建立了矩形均质油藏混合边界垂直裂缝试井数学模型。
The mathematical model for well testing is established for mixed boundary in rectangle reservoirs with vertical fractures.
绘制了不同油藏边界下,具有不同裂缝几何特征的压裂水平井典型试井曲线,并对特征曲线进行了流动期分析。
According different fracture geometrical characters, this paper presents a lot of typical pressure curves and analyzes the flow period of these curves.
提出了三角形油藏在不同边界条件下的试井理论模型,并用有限元方法对问题进行了求解,得到了不同情况下的试井理论曲线。
A new well test model for the triangular reservoir with different boundary conditions is developed in this paper. The typical curves for the new model are calculated by the FEM method.
试井探边测试资料可以作为判断边界是否存在的依据, 再结合地质、地震、测井、录井等资料,可进一步确定出油藏边界的形状。
Limit-test data can be used as the basis of determining whether the exists. The reservoir shapes can be further defined combining with geologic, seismic, earthquake, logging data.
建立了一维径向油水两相流数值试井的数学模型,其内边界条件考虑井储效应和表皮系数的影响。
The one-dimension and two phases mathematics model of numerical well tests that flow is radial is established. Effects of well store and skin factor are considered to the inside boundary condition.
围井区应力图像和数据的分析,对自升式平台围井区计算中如何避免边界效应的影响具有一定的指导意义。
The comparative analysis of stress nephogram and data of leg well area is of guiding significance to the research on how to avoid boundary effect during the calculation of jack-up's leg well area.
在水平井生产过程中,井筒内管流与地层渗流互相制约、互相影响、互为边界条件,从而构成了一个完整的水动力学体系。
During the producing process of a horizontal well, fluid flow in well bore and stratum filtering flow have the restraining and effecting actions.
在水平井生产过程中,井筒内管流与地层渗流互相制约、互相影响、互为边界条件,从而构成了一个完整的水动力学体系。
During the producing process of a horizontal well, fluid flow in well bore and stratum filtering flow have the restraining and effecting actions.
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