How to make use of geologic parameter and production data is important to carve up production and then to study the dynamics of gas reservoir.
如何利用各层地质参数及生产数据,对正确进行产量劈分以及进行气藏动态研究有重要的意义。
By applying this method to SP curve computing, the shoulder-bed effect could be, to some extent, removed so that the data accuracy of geologic parameter is enhanced as a matter of course.
将这种方法用于自然电位(SP)曲线的计算,能够部分地消除围岩影响,提高地质参数的数据精度。
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.
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。
To study further collector geologic model, some collector parameter quantitative prediction methods at present are discussed in this paper.
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。
Using the engineering geologic analogy method, the parameter had been suggested and the stability of the landslide at various conditions is evaluated.
利用工程地质类比法选取参数,对各种状态下的滑坡稳定性进行定量评价。
Resistivity log is the basis for the determination of lithological character and vapor oil water level and a major parameter for the calculation of geologic reserve.
电阻率测井曲线是确定岩性,划分油、气、水层的依据,是计算地质储量的主要参数。
Resistivity log is the basis for the determination of lithological character and vapor oil water level and a major parameter for the calculation of geologic reserve.
电阻率测井曲线是确定岩性,划分油、气、水层的依据,是计算地质储量的主要参数。
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