Log facies analysis is a significant aspect of modern reservoir description.
测井相分析是现代油藏描述技术的一个重要研究内容。
On the base of core observation, combining well logging and logging, 10 sorts of log facies and the association are divided.
在岩心观察的基础上,结合测井及录井资料划分出10种测井相及其组合。
The obtained conclusion provides a premise for the application of chaotic time series analysis in well-log facies recognition.
这一结论为混沌时间序列分析方法应用于测井曲线识别领域提供了前提条件。
The paper describes the main characteristics of each petrophysical facies and generally classifies these five facies into three grades by the log facies.
阐述了各类岩石物理相的主要特征,并根据测井相初步划分为三个级别。
Recognition of log facies is the key to the recognition of deposition facies and the identification of the features representing the nature of log is very important for pattern recognition.
测井相识别是油田沉积相识别的重要内容,找出反应测井曲线本质的特征是模式识别的关键。
Sedimentary environment and its evolution, distribution of sedimentary facies and sand bodies are discussed on the base of the data of log, drilling and c, o isotope.
本文利用测井、钻井和C、O同位素等资料,研究了核二段各砂组沉积时期的沉积环境、相带分布、砂体展布以及沉积演化规律。
At Chaluhe area in Yitong Graben, the relationship between log properties and lithology combining with core and well logging data was used for sedimentary facies analysis and reservoir prediction.
在伊通地堑岔路河地区,利用测井属性与岩性之间的对应关系,结合岩心和录井资料,进行了沉积相分析和储层预测。
Study shows that using well log data for appraisal of petrophysical facies is one of an important tool to evaluate reservoir quality.
研究表明,利用测井资料评价岩石物理相是储集层评价的重要手段之一。
Sedimentary facies study integrating drilling, log and seismic data and using sequence stratigraphy is a base of petroleum exploration.
综合钻井、测井和地震资料,用层序地层学方法进行沉积相研究是油气勘探的基础。
According to the geology and log information which has known, has carried on the sedimentary facies analysis, has determined the macroscopic distributed characteristic of reservoir.
根据井区已有的地质测井资料,进行了沉积相分析,确定了储层的宏观分布特征。
Sand control technology may be determined according to the classified log sedimentary facies and has got initial results.
根据测井划分的沉积相确定防砂工艺,也取得了初步成果。
The log practice shows that the method for sedimentary facies identification can highly improve interpretation reliability and efficiency.
实践表明用该方法识别沉积微相,可靠性和识别效率得到很大提高。
The sedimentary facies of 4th-order sequence have been characterized by combining seismic data with lithologic log data.
通过地震资料与测井资料相结合,刻画出扶余油层三个四级层序的沉积相。
The sedimentary facies of 4th-order sequence have been characterized by combining seismic data with lithologic log data.
通过地震资料与测井资料相结合,刻画出扶余油层三个四级层序的沉积相。
应用推荐