Earth stress is one of dynamic forces of hydrocarbon migration and accumulation.
地应力是油气运移、聚集的动力之一。
The dense faults in the zone provide channel for hydrocarbon migration and accumulation.
转换带密集发育的断裂系统为油气的运移和聚集提供通道。
The transfer zone may form structures or traps that are prone to hydrocarbon migration and accumulation.
转换带可以形成有利于油气聚集的构造或圈闭;
The distribution areas of organic fluid inclusions showed the areas of the hydrocarbon migration and accumulation.
不同运移时期有机包襄体的分布代表了当时油气运移的区域。
The effect of Yanshan movement and Himalayan orogeny on hydrocarbon migration and accumulation in Junggar basin is analyzed.
分析了燕山运动和喜马拉雅运动在准噶尔盆地油气运移和聚集中的作用。
Simulation of hydrocarbon migration and accumulation is one of the most difficult and complicated contents of basin modeling.
油气运聚史模拟是盆地诸史模拟中难度最大、最复杂的内容之一。
The study shows that pressure system of Shuangcheng area has apparent controlling effect on hydrocarbon migration and accumulation.
研究表明双城地区压力系统对油气运聚具有明显的控制作用。
Reservoir stress has an important effect on hydrocarbon migration and accumulation, which is also the main factor of casing damage.
油藏地应力对油气资源的形成、运移及储集等有直接控制作用,同时又是套管损坏的主要因素。
A model summarizing the relationships of salt tectonics, fluid flow, and hydrocarbon migration and accumulation is proposed based on it.
在此基础上文中概括了盐构造、流体流动及油气运移和聚集相互关系的模式。
The lithological traps were the minimum oil-gas gathering and transferring stations in the course of hydrocarbon migration and accumulation.
洼陷带岩性圈闭是含油气盆地油气运聚成藏过程中的小型油气集输站。
Formation water is a major component of basin fluid, and its revolution reflects the rules of hydrocarbon migration and accumulation in the basin.
地层水作为盆地流体的一个重要组成部分,其演化反映了盆地内油气运移、聚集的规律。
As a major topic in petroleum geology, the mechanism of hydrocarbon migration and accumulation for lithologic reservoir has not been completely understood.
岩性油气藏成藏机理是石油地质学研究的重要课题,迄今为止,油气成藏动力机制、运聚机理等问题一直没有完全解决。
It accelerated the hydrocarbon maturation process, formed many new anticline and fault traps, and controlled Cenozoic hydrocarbon migration and accumulation.
它加速了生油岩的成熟过程,形成新的背斜和断层圈闭构造,而且还控制了新生代油气的运移和聚集。
The formation superpressure system developed in the Palaeogene system of Dongying Fault Basin plays an important role in hydrocarbon migration and accumulation.
东营断陷盆地古近系发育的地层流体超压系统对油气运聚、成藏至关重要。
The Himalayan movement controls final stereotype of local structures and faults, hydrocarbon migration and accumulation for forming reservoirs are also controlled by it.
喜马拉雅运动控制着局部构造和断裂的最后定型以及油气运移、聚集成藏。
But the existence of abnormal high pressure in it allows the reservoir quality to be improved and of significance in hydrocarbon migration and accumulation in this belt.
但由于异常高压的存在,可使储集物性得到一定的改善,同时对油气运聚也具有积极意义。
The effect of seismic on source rock, reservoir rock, caprock, trap, accumulation and preservation cannot be neglected, especially on hydrocarbon migration and accumulation.
地震对油气的生、储、盖、圈、聚、保都有不可忽视的作用,特别是在直接驱动油气运移聚集方面的作用是相当明显的。
An active tectonic movement changes the space shape of stratum and result in periodic stress concussion, which will influence hydrocarbon migration and accumulation as fluid deposit in stratum.
构造活动改变地层的空间形态,同时产生周期性的应力震荡变化。油气作为储存在地层中的流体矿产,在运聚期明显要受到构造活动的影响。
It is indicated that transported system in the studied area is a well developed, opening and more effective system that has well-controlled effect on the hydrocarbon migration and accumulation.
研究区的输导系统是非常发育的,是一个开放式的快速有效的系统,对油气的运移聚集起到了控制作用。
Based on systematic analysis of fault systems and its evolution in the Beier Sag, Hailaer Basin, the control of fault formation and evolution on hydrocarbon migration and accumulation was researched.
在系统分析海拉尔盆地贝尔凹陷断裂系统及其演化的基础上,研究了断裂演化对油气运聚条件的控制作用。
Organic enclosure is the direct indicator of hydrocarbon generation, migration, accumulation and evolution.
有机包裹体是烃类生成、演化、运移和聚集的直接标志。
The underground dynamic fluid field, i. e. fluid potential, is a fundamental factor to control migration and accumulation of hydrocarbon.
控制烃类运移和聚集的根本因素是地下流体动力场,即地下流体势。
Geological function of fluid occurred at the various stages of generation, migration, accumulation and later evolution of hydrocarbon in the petroleum system.
含油气系统中的流体地质作用贯穿于烃类生成、运移、聚集及后期演化的各个阶段。
Owing to tectonic activity with multiple stages and appropriate deformation, it lays a good foundation for hydrocarbon migration, accumulation and trap forming.
多期次的构造运动和适度的变形,为油气运移、聚集和圈闭的形成打下了良好的基础。
The process of reconstructing the migration and accumulation of hydrocarbon depends on the establishment of an effective dynamic model.
动态再现油气运移聚集过程的难点在于运移聚集模型的建立。
There is a close relationship between oilfield water systems and petroliferous systems. The generation, migration and accumulation process of hydrocarbon took place with oilfield water.
油田水系统与含油气系统关系十分密切,油气的生成、运移和聚集过程都是在油田水参与下进行的。
The hydrocarbon generation, migration and accumulation are strongly controlled by depositional features.
油气的生成、运移与聚集都受沉积特征的强烈控制。
The hydrocarbon generation, migration and accumulation are strongly controlled by depositional features.
油气的生成、运移与聚集都受沉积特征的强烈控制。
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