特种油气藏2012,Vol.19Issue(5):1-5,20,6.DOI:10.3969/j.issn.1006-6535.2012.05.001
油气包裹体实验分析现状和发展方向
Current Status and Development Trend of Experimental Analyses of Hydrocarbon Fluid Inclusion
摘要
Abstract
The paper introduces and summarizes advantages and shortcomings of different analysis methods of hydrocarbon fluid inclusion based on the diversity of the current analyses, and therefore puts forward the future development of the analyses. Based on the analyses made above it is considered that current analyses of hydrocarbon fluid inclusion can be classified into 2 categories, namely, nondestructive and destructive; the former is characterized as the factor that it has a relatively simple sample preparation process, a single hydrocarbon fluid inclusion can be made in situ, it's data are objective and pertinent, the composition measurement is qualitative and semi -quantitative because the measurement is indirect based on optical characteristics and accurate measurements have to be destructive analyses; the. sample quantity of the single hydrocarbon fluid inclusion can hardly get the lower limitation of the measurement of instrument and the latter aim at the analyses of hydrocarbon fluid inclusion group, the indicating significance of which is not obvious, resulting in releasing and collecting a few of optional hydrocarbon fluid inclusions, and therefore the measurement of components and isotopic compositions should be the breakthrough of future experimental analysis of fluid inclusion; the hydrogen isotopic composition is expected to be an important content of prospective experimental analysis of fluid inclusion due to its a-bundant geology information and strong sensitivity.关键词
油气包裹体/实验分析/组分组成/同位素组成/现状及发展方向Key words
hydrocarbon fluid inclusion/experimental analysis/component composition/isotopic composition/current status and development direction分类
能源科技引用本文复制引用
阚亮,李吉君,宋方宇,张文华,张东伟..油气包裹体实验分析现状和发展方向[J].特种油气藏,2012,19(5):1-5,20,6.基金项目
国家自然基金项目"徐家围子断陷火山岩储层包裹体组分同位素组成及其在天然气成因判识中的应用"(41002044),黑龙江省高校青年学术骨干支持计划项目"大庆油田深层天然气成因判识及有利勘探区预测"(1251G003),国家大学生创新性实验计划项目"大庆油田深层火山岩包裹体碳、氢同位素组成分析"(101022002)联合资助 (41002044)
