期刊文献+

东营凹陷湖相盆地类型演化与烃源岩发育 被引量:46

Evolution of lake-basin types and occurrence of hydrocarbon source rocks in Dongying Depression
下载PDF
导出
摘要 对东营凹陷沙三段中、下亚段和沙四段上亚段 3套主力烃源层的地层层序、岩性组合、微观结构特征和有机质丰度进行了分析 ,研究了湖相盆地类型与烃源岩发育的关系。东营凹陷在沙四段上亚段和沙三段下亚段沉积时期为均衡补偿盆地 ,受气候的影响显著 ,因而这两个层段岩性组合易于变化、非均质性强 ,表现为由纹层理发育的泥页岩与块状泥岩形成的不等厚互层沉积 ,有机质丰度整体较高 ,且频率分布曲线上呈现双峰形特征。相应地 ,在微观尺度上 ,固体颗粒有机质赋存方式以“富集有机质”为主。沙三段中亚段沉积时期 ,表现为过补偿盆地 ,受气候影响较小 ,烃源岩非均质性不明显 ,“富集有机质”含量低 ,有机质丰度低于前两个层段 ,且其频率分布呈现单峰形特征。分析结果表明 。 The stratigraphic sequences, lithological association, microscopic textures and organic matter of the Shahejie Formation in Dongying Depression were analyzed. The impacts of lake-basin types on the occurrence of hydrocarbon source rocks were investigated. The aggradational sequence expression indicates that the lake-basin sediments in the Upper Es2-34 and the Lower Es2-33 sections are the balanced-filled type. Under the strong influences of climate, these two sections show great heterogeneities and high abundance of organic matter with double peak in the frequency distribution curve. The enriched solid organic matter was the main composition in microscopic scale. The Middle Es2-33 section had progradational sequence expression of over-filled basin characteristics. Accordingly, the influence of the climate is not so strong, and this section show less change in rock types, and hydrocarbon source rocks have lower organic abundance with a single peak in the frequency distribution curve. There only existed a little enriched solid organic matter. The study results indicate that the Upper Es2-34 and the Lower Es2-33 sections are the favorable period for generating excellent hydrocarbon source rocks in Dongying Depression.
出处 《石油学报》 EI CAS CSCD 北大核心 2004年第4期42-45,共4页 Acta Petrolei Sinica
基金 中国石油化工集团公司"九五"科技攻关项目 (No .1 0 50 1 )"东营凹陷成藏组合体理论研究"部分成果
关键词 东营凹陷 烃源岩 湖相盆地类型 演化 有机质丰度 富集有机质 Dongying Depression hydrocarbon source rock lake-basin type evolution organic matter abundance enriched organic matter
  • 相关文献

参考文献7

  • 1[2]Carrol A R,Bohacs K M.Stratigraphic classification of ancient lakes:Balancing tectonic and climatic controls[J].Geology,1999,27(2):99-102.
  • 2[3]Bohacs K M,Carrol A R,Neal J E,et al.Lake-basin types,source potential,and hydrocarbon character:An integrated sequence-stractigraphic-Geochemical framework[A].In:Gierlowski-Kordesch E H & Kelts K R.Lake basins through space and time[C].AAPG Studies in Geology,2000,46:3-34.
  • 3蔡进功,姜秀芳,范存堂.东营盆地始新统沉积体系及盆地演化[J].沉积学报,1995,13(A01):27-37. 被引量:21
  • 4[10]Chen Zhilin, Zhou Guangjia, Alexander R A.Biomarker study of immature crude oils from the Shengli oilfield,People's Republic of China[J].Chemical Geology,1994,113:117-132.
  • 5[12]Brassell S C,Eglinton G,Fu Jia Mo.Biological marker compounds as indicators of the depositional history of the Maoming oil shale[J]. Org. Geochemistry,1986,10:927-941.
  • 6[13]Stephens N P,Carrol A R.Salinity stratification in the Permian Phosphoria sea:a proposed paleoceanographic model[J].Geology,1999,27(10):899-902.
  • 7[14]Tyson R V.The genesis and palynofacies characteristics of marine petroleum source rocks[A].In:Brooks J, Fleet A J.Marine petroleum source rocks.Geological Society special publication,No.26[C].London:Blackwell Scientific Publications,1987:46-67.

共引文献20

同被引文献732

引证文献46

二级引证文献609

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部