Recognized sedimentary cycle style and superposition mode in different region.
识别出不同地区的沉积旋回类型及其叠加方式。
The sedimentary facies and the sedimentary cycle control low resistivity oil & gas zone on sedimentation .
在沉积上受沉积相、沉积旋回的控制;
The close relation of origin is shown between the iron-formation and the sedimentary cycle in time, space and compositional source.
含铁建造与沉积旋回在时空和物源上存在着密切的成因联系。
Well logging data including a great amount of geological information are the main sources applied to study multi-scale sedimentary cycle.
测井数据具有良好的连续性和高分辨率特性,是研究沉积旋回多尺度特性的主要资料。
The Sanjianfang Formation's oil reservoir can be divided into 24 substratums in detail on sedimentary cycle and sedimentary rhythmic character of reservoir.
按储层沉积旋回和沉积韵律特征,将三间房组油藏进一步细分为24个小层。
The Upper Permian System Longtan coal measure in the Changguang coal deposit is a complete sedimentary cycle, consisting of a regressive and a transgressive series.
长广煤田上二迭统龙潭含煤岩系是由海退系列和海进系列组成的一个完整沉积旋回。
In this paper, various types of structure and the relationship between sedimentary dynamic process and strata response of the short cycle sequences is discussed.
讨论了短期基准面旋回层序的各种结构类型和沉积动力学过程与地层响应的关系。
The sedimentary systems in the T-R cycle: fluvial fan, fan delta, common delta and lacustrine sedimentary system.
识别出扇三角洲、远(近)源三角洲、水下扇及浅湖、深湖-半深湖等沉积体系。
It is shown that cycle of sedimentary wave is response to each order sequence and the character of high frequency wave is correlated with oil source, reservoir and cap rock.
通过分析沉积波动周期与各级层序持续时间的对应关系,找出了高频沉积波动特征与生储盖之间的对应关系。
Volcanic rocks compose with clastic rocks together, form sedimentary-eruption rhythm or cycle.
火山岩与碎屑岩共生,构成沉积—喷发韵律或沉积—喷发旋回。
The short exposure of sedimentary intervals at the top of a meter-scale cycle is the primary mechanism for forming acicular-dissolved holes in this region.
一个米级旋回的顶部所出现的沉积间断短期暴露是针孔状溶孔形成的主要机制。
Volcanogenic—sedimentary ore deposits are situated at the top of volcanic eruption cycle;
火山沉积型矿床就位于火山喷发旋回顶部;
Sedimentary response of Galacticyear cycle and the great anamoly of Earth system will provide a new thinking way to study the period changes of Earth history and it's coupling of Earth shell.
银河年旋回的沉积学响应与地球系统大异常,为研究地球历史阶段性变化及其圈层耦合,提供了一个新的思考途径。
By taking a mid-period cycle as a unit, the planar distribution of the sedimentary microfacies in different units are aligned according to time sequences and even can be drawn into animated cartoons.
结合层序地层学研究的结果对模拟结果进行检验,把不同时间单元的沉积微相平面分布提取出来,根据时间的先后顺序进行排列,甚至做成动画,对沉积微相的演化得到直观的认识。
By taking a mid-period cycle as a unit, the planar distribution of the sedimentary microfacies in different units are aligned according to time sequences and even can be drawn into animated cartoons.
结合层序地层学研究的结果对模拟结果进行检验,把不同时间单元的沉积微相平面分布提取出来,根据时间的先后顺序进行排列,甚至做成动画,对沉积微相的演化得到直观的认识。
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