油气包裹体是保存在矿物中的古油气组分。
Oil-bearing fluid inclusions have been generally believed as samples of paleo oils reservoired in authigenic minerals.
油气包裹体和粘土吸附油气组分具有明显的湖相泥岩地球化学特征。
The geochemical characteristics of inclusion and clay-adsorbed oils correlate well with the lacustrine mudstones.
根据油气包裹体寄主成岩矿物的形成时间序列,识别出两期油气包裹体。
Two different phases of hydrocarbon inclusions have been identified according to the formation time series of the host diagenetic minerals.
显微温度测试必须以油气包裹体鉴定为基础,单纯应用均一温度划分油气运移期次是不合适的。
It is not appropriate to classify the stages of petroleum migration only by applying homogenization temperatures of various inclusions.
油气包裹体由于其在油气生成、运移、储集过程中的特殊意义,已越来越受到广大石油地质研究者的关注。
Petroleum inclusions have attracted more and more attention from petroleum geologists due to their special significance in petroleum generation, migration and accumulation.
有机包裹体在油气成因、运移和演化研究中具有重要的意义。
Organic inclusion is of great importance to the study of development, migration and origin of oil and gas.
包裹体等分析表明,盆地油气运移始于晚渐新世—早中新世,延续至第四纪。
Inclusion data shows that the migration of petroleum in the basin initiated from the Late Oligocene to the Early Miocene, up to the Quaternary.
有机包裹体在油气成因、运移研究中具有重要的意义。
Organic inclusion is of great importance to the study of origin and migration of oil and gas.
由于有机包裹体丰度及有机组分含量较低,加之后期构造破坏,不利于现今的油气勘探。
Organic inclusion abundance and organic component content were lower, and the area underwent structure destruction in the late stages. These are unfavorable for present-day petroleum exploration.
包裹体类型和成分的不同,反映了油气的不同演化程度和不同运移期次。
Different types and composition of inclusions reflect different oil-gas evolution level and oil-gas migration in different phases.
本文将从流体包裹体均一化温度测定出发,结合盆地热演化史,系统分析鄂尔多斯盆地上古生界各个含气层系的油气充注史。
On the basis of homogenization temperature of inclusion, combining with thermal evolution history of the basin, infilling time of gases reservoirs of Ordos basin is analyzed.
对某多期成藏的油气藏的包裹体成分地化分析,结合其它的分析方法很容易恢复油藏的成藏过程。
For a pool had been recharged, whose history of oil charging can be recovered by the chemical composition analysis, combined with others analytical method.
包裹体生物标志物的总体特征反映了群体包裹体为多期油气混合的结果。
The whole characteristics of biomarkers of inclusions reflect that mass inclusions contain the oil gases of different periods.
包裹体均一温度和包裹体中油气组分是目前研究油气藏成藏时间和油气源最有效的方法之一。
The equalization temperature and oil and gas component of fluid inclusion is the one of available methods in researching buried time and oil and gas resource of oil reservoir at present.
近年来,(有机)流体包裹体在含油气沉积盆地分析研究中的作用日愈重要。
In recent years, much attention was paid to the application of (organic) fluid inclusions in the study of sedimentary basins generating petroleum.
利用流体包裹体研究油气充注史的核心问题是流体包裹体均一化温度的可靠性、埋藏热演化史的准确性。
The reliability of the homogenization temperature and the veracity of burial thermal evolution history is the key question in the study of infilling history of gas reservoirs by using fluid inclusion.
最后讨论了流体包裹体在油气生成、运移及勘探、评价方面的应用。
At last, the application of fluid inclusions in the analysis of the origin, migration, exploration and evaluation of oil and gas is further discussed.
沸腾包裹体反映了油气成藏与热流体的脉动式活动密切相关。
Boiling inclusions indicate that the formation of oil and gas reservoirs is closely related to pulsatile activities of hydrothermal fluids.
文中介绍了这些沸腾包裹体特征及其与油气成藏的关系。
This paper reports some characteristics of the boiling fluid inclusions and discusses the relation between boiling fluid inclusions and petroleum entrapment.
这一成功研究实例表明,随着流体包裹体测试技术的提高,有机包裹体分析在含油气盆地油气运聚方面的研究具有更广阔的应用前景。
The successed case study also indicates that organic inclusion analysis has more wide prospect in the study of migration and accumulation in petroliferous basin.
在以往原油成因与油源调查基础上,利用非烃含氮化合物及包裹体均一化温度对该区进行油气运移方向与相对距离、成藏时间与期次的分析。
In this paper, the basic styles and mechanism of petroleum migration were analyzed, based on organic-inorganic interaction during hydrocarbon formation and evolution.
传统地质分析、储层流体包裹体和伊利石测年等方法对于浅层油气藏油气充注时间的确定,都存在着明显的不足。
For the timing of hydrocarbon charging in shallow reservoirs, methods such as traditional geological analysis, fluid inclusions in reservoirs and illite dating have obvious shortages.
流体包裹体在划分油气运移充注期次、确定油气藏形成时间等方面均有重要的应用价值。
The study of fluid inclusions is very important in detecting the oil migration and accumulation process and the formation time of oil reservoirs.
CH4—H2O体系流体包裹体研究对含油气盆地流体分析和成矿流体研究都有重要的意义。
The study of fluid inclusion in CH4—H2O system is very important to analysis of petroliferous basin, so it is necessary to quantificationally analyze fluid inclusions in CH4—H2O system.
沸腾包裹体反映了油气成藏与热流体的脉动式活动密切相关。流体包裹体的均一温度高异常是由热流体活动所导致的。
The study indicates that the vein minerals are mostly the host mineral of the fluid inclusions related to the thermal fluid activity.
沸腾包裹体反映了油气成藏与热流体的脉动式活动密切相关。流体包裹体的均一温度高异常是由热流体活动所导致的。
The study indicates that the vein minerals are mostly the host mineral of the fluid inclusions related to the thermal fluid activity.
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