应用于油气地质储量计算,能有效地提高储量计算的精度。
Using it to compute reserves, the accuracy of calculation can be increased.
在我国碳酸盐岩油气藏也有广泛的分布,并拥有相当数量的油气地质储量。
In our country, carbonate reservoirs has distributed widely and owns rather geological reserves.
本文视油气藏为一个“容积单元化”的地质系统,利用泛克里金技术估算油气地质储量。
Referring to the oil and gas reservoir as a "Volume Unitized" geological system, the geological re - serve of oil and gas is estimated by using Universal Kriging technique in this paper.
可为提高油气勘探成功率及油气储量计算提供准确的地质依据,是一项实用的成熟技术。
This practical ripe technique can provide with accurate geologic basis for improving oil and gas exploration success ratio and calculation of hydrocarbon reserves.
石油、天然气地质储量是指导油气田勘探、开发,确定投资规模的重要依据。
Geologic reserves are an important factor to decide oil and gas exploration and exploitation as well as investment sum.
油气藏地质建模是储量计算的基础和前提。
The modeling of complex hydrocarbon reservoirs is the premise and basis of the calculation of the reserves.
油气储量的计算方法很多,大体可分为动态法和静态法两类。一个油田应根据其地质特征、开发实践及具体情况决定油气储量计算方法。
There are a lot of methods of calculating reserves, which are mainly divided into dynamic method and static method. it is generally chosen by the geologic features and the practical conditions.
地层的孔隙度、渗透率以及饱和度是评价油气层、计算地质储量的重要参数。
The porosity, permeability and saturation are important parameters which are used to evaluate hydrocarbon reservoir and calculate reserves.
该油藏是底水油藏,储层和原油性质均很好,其原油地质储量占全油气田原油地质储量的38.97%。
As a bottom water drive reservoir with good petrophysical and oil properties, H2 has oil in place accounting for 38.97% of the total reserve in PHOGF.
该油藏是底水油藏,储层和原油性质均很好,其原油地质储量占全油气田原油地质储量的38.97%。
As a bottom water drive reservoir with good petrophysical and oil properties, H2 has oil in place accounting for 38.97% of the total reserve in PHOGF.
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