油气运移方向可能为由西北向东南。
The possible migration direction of oil and gas is from northwest to southeast.
地应力是油气运移、聚集的动力之一。
Earth stress is one of dynamic forces of hydrocarbon migration and accumulation.
叙述了地应力与裂缝和油气运移的关系。
The relation among tectonic stress, migration of oil and gas, and fracture are described.
多次构造运动改变了构造面貌,促使油气运移。
Multiple tectonic movements changed tectonic morphology and impelled hydrocarbon migration.
油气运移以垂向为主,以高压作动力,断裂为通道。
Oil and gas are carried by high pressure through vertical fractures.
油气运移方向的确定对油气的进一步勘探具有重要意义。
Definition of oil migration orientation has great importance to further oil exploration.
影响巴楚地区油气运移的因素有断裂、不整合面及输导层。
The factors that affect hydrocarbon migration are fault, carrier bed and unconformity in Bachu area.
断层、裂缝、不整合面和储层是缓坡带油气运移的主要通道。
The fault, fracture, unconformable surface and reservoir are the major channels of hydrocarbon migration in gentle slope belt.
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。
The process of reconstructing the migration and accumulation of hydrocarbon depends on the establishment of an effective dynamic model.
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 distribution areas of organic fluid inclusions showed the areas of the hydrocarbon migration and accumulation.
油气运移的条件和油气运移的特征决定了油气藏的形成与分布。
Conditions and characteristics of hydrocarbon migration determine the accumulation and distribution of reservoirs.
在此基础上,引入流体流动模拟分析技术,研究了油气运移方向。
Fluid flow simulation analysis technology is introduced to study the direction of hydrocarbon migration.
地层与断层的组合关系制约着上第三系油气运移方向和富集位置。
The association of strata and faults control the migration and enrichment of Tertiary hydrocarbon.
为研究稠油油藏油气运移规律,准确进行油藏数值模拟提供理论基础。
On these concepts, oil & gas migration regularities in heavy oil reservoir and its numerical simulation are performed accurately.
咔唑类化合物是原油中极性较大的化合物,是研究油气运移的有效指标。
Carbazoles are polar compounds in oils, and they are useful indicators for study of hydrocarbon migration.
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。
The effect of Yanshan movement and Himalayan orogeny on hydrocarbon migration and accumulation in Junggar basin is analyzed.
构造应力对油气运移聚集的影响是油气运移聚集机理研究中的重要课题。
The influence of ground stress field on migration accumulation of oil and gas is an important issue in mechanism study of the migration accumulation.
本文运用流体地质学方法研究了库车前陆盆地油气运移的物理化学条件。
The physical chemical conditions of oil gas migration in the Kuqa foreland basin were studied with fluid geology method in this paper.
导油断层不仅控制圈闭的形成和储集体的分布,还直接控制油气运移路径。
Oil diverting faults did not only control trap formation and reservoir distribution, but also controlled the migration paths.
在多产层、多源岩、构造复杂断层发育的油气区,油气运移是十分复杂的。
The migration of oil and gas in a multiple pay, multiple source rock, structurally complex, and extensively faulted region is very complicated.
由于距离烃源岩较远,油气运移聚集条件成为地层圈闭成藏的主要控制因素。
Due to far away from the hydrocarbon source rock, oil-gas migration and building-up conditions became the main controlling factor of the formation trap reservoir forming.
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。
A model summarizing the relationships of salt tectonics, fluid flow, and hydrocarbon migration and accumulation is proposed based on it.
该构造的脊线是油气运移的主要指向,在脊线附近的探井具有良好的油气显示。
The crestal line is the major direction of hydrocarbon migration, the exploration Wells near the crestal line are indications of oil and gas.
因此,与裂缝相关的油气运移机制是东营凹陷下第三系烃源岩排烃的主要机制。
So the migration related to fractures is the main mechanism of hydrocarbon expulsion of the Low Tertiary source rocks in the Dongying Depression.
在相同地层结构模型中,间歇性开启断裂中的油气运移速度较永久性开启断裂快;
In the same structural model, hydrocarbon migration rate within interim opening fractures is faster than that of permanent ones.
与最大主应力小角度相交的先期主要断裂的方向也可能成为油气运移的主要方向。
While direction of previous main faults that intersect the maximum principal stress by minor Angle also probably becomes the major migration direction of oil and gas.
为了提高确定油气运移方向及汇聚区的精度,提出了改进的流体势能场分析方法。
An improved fluid potential analysis method is brought forward in order to determine the migration direction and to improve the accuracy of accumulation area.
利用已知油气藏与烃源岩有机地化指标亲缘关系对比进一步证实了油气运移方向。
By contrasting the geochemistry indicator between proved reservoir and source rock, confirm the migrating direction of petroleum.
应力是油田勘探中不可缺少的部分,因为它影响着油气运移,决定油气的成藏位置。
Stress is an important part in oil exploration because it affects the oil migration and the location where oil exists.
应力是油田勘探中不可缺少的部分,因为它影响着油气运移,决定油气的成藏位置。
Stress is an important part in oil exploration because it affects the oil migration and the location where oil exists.
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