摘要
八十年代以来,测井技术的迅速发展,油气、煤田勘探开发的需要,层序地层学理论的出现以及其它相关学科的进展已迅速推动与拓展了测井地质学的研究范围。表现在传统测井地质,如地层压实、有机质含量求取、用测井资料确定岩性、岩相、沉积环境研究等有了更新的概念。在测井曲线旋回分析(如Milankovitch旋回分析)、测井层序地层学分析、测井曲线计算有机质含量并分析其在测井层序中的变化模式,而在以层序地层、旋回地层与地层模拟为基础的测井-地震综合使地震高分辨率上升到测井的量级,等等。这将影响到多井解释、油藏描述、储层研究等一系列方面。
The rapid progress in logging technique, the inspiration for subtle oil&gas reservoir, coal exploration and mining and other progress of related subjects had progreesed the logging data geological usages since 1980s. It made normal well logging geological analysis, such as formation compaction, carbonate content caculation, lithologies, lithofaces and sedimentary enviroment recognition, have new concepts. Wed logging now have been used in new sedimentary analysis (such as Milankovitch cycles), well logging sequences analysis, carbonate contenet caculation and it's stacking pattern analysis in Sequence Stratigraphy framework. And the integration of well logging and seismic data based on Sequence Siratigraphy,Cycleology and sedimentary simulation could make the seismic data more vertical resolution with well logging. This maybe be used in multi-well processing and interpretation of reservoir description, reservoir simulation, etc.
出处
《地球物理学进展》
CSCD
1996年第2期66-80,共15页
Progress in Geophysics
关键词
测井
地质学
层序地层
测井相
Well logging
geology
Logging faces
Well logging Sequence Stratigraphy Stacking patterns of carbonate contennent in sequence Framework Integrated inversion of logging and seismic data.
