1) oil/gas composition
油气成分
1.
Micro-fractures in reservoir lead to the irregular enlargement of holes;hence the oil/gas composition has a smaller part in logging response.
通过确定特低渗透储层有效厚度下限,将地层电阻率作为地质背景条件,分析岩性和电性特征及其相应的统计标准,充分利用测井资料分析、识别影响特低渗透储层参数变化特征及有效油气成分。
2) gas composition in oil
油中气体成分
1.
The system mainly contains hardware design of four circuits,on-line monitoring circuit of partial discharge,dielectric loss factor,gas composition in oil and core earthing current.
设计出了基于综合参数的电力变压器故障在线诊断系统,介绍了局部放电在线监测回路、介质损耗因数在线监测回路、油中气体成分在线监测回路、铁芯接地电流在线监测回路等4个回路的硬件设计;将预防性试验数据与关键的在线监测技术相结合,避免了运行事故。
3) composition of well stream
充气石油成分
4) Oil and gas generating zonation
油气形成的分带性
5) hydrocarbon accumulation
油气成藏
1.
Distribution of overpressure stratum and its relationship with hydrocarbon accumulation in the central part of Junggar Basin;
准噶尔盆地腹部超压层分布与油气成藏
2.
Research on relationships between physical properties of crude oil and hydrocarbon accumulation and reservoir development in Zhanhua Sag;
沾化凹陷原油物性与油气成藏及开发的关系
3.
The relationship between hydrocarbon accumulation and metallization and a discussion on intergrated exploration;
论油气成藏与金属成矿的关系及综合勘探
6) hydrocarbon generation
油气生成
1.
Thermal evolution history and hydrocarbon generation in superimposed basin:taking the southern structural zone in Turpan-Hami basin, Xinjiang, as an example;
叠合盆地的热演化史与油气生成——以吐鲁番-哈密盆地南部构造带为例
2.
Quantitative modeling of hydrocarbon generation is systematically analyzed in respects of thermal simulation method, selection of samples and calibration of simulation test results.
从油气生成热模拟方法、模拟样品的选取及模拟实验结果的校正等方面,对如何建立烃源岩油气生成定量模型进行了系统的分析,认为加水热模拟是目前较为流行和较好的一种模拟油气生成的方法,但其模拟结果(包括其他模拟方法的模拟结果)都必须经过校正之后,才可用来建立实际烃源岩不同母质类型的油气生成定量模型。
补充资料:油气田开发方式(见油气田生产方式)
油气田开发方式(见油气田生产方式)
development pattern of oil and gas field:see recovery pattern of oil and gas field
a垃d gas月e卫d) 、‘。尸卫Jlent见油气田小冰、*pa士teroof ojl
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条