川南丹凤—塘河地区嘉陵江组沉积环境分析

doi:10.3969/j.issn.1673-8926.2011.06.009

Lithologic Reservoirs ›› 2011, Vol. 23 ›› Issue (6): 50-55.doi: 10.3969/j.issn.1673-8926.2011.06.009

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Sedimentary environment of Jialingjiang Formation in Danfeng-Tanghe area, southern Sichuan Basin

WANG Wenzhi¹， TIAN Jingchun¹， ZHANG Xiang¹， LONG Hui²， LIU Dongmei³， SUN Li¹

1. Institute of Sedimentary Geology， Chengdu University of Technology， Chengdu 610059， China； 2. Shunan Gas Field， PetroChina Southwest Oil and Gas Field Company， Luzhou 646005， China； 3. Xinkeao Oilfield Testing Technology Service Company， Karamay 834000， China

Online:2011-12-20 Published:2011-12-20

Abstract

Abstract:

Based on core observation and rock slice identification, combined with the studies on the combination of rock types，fossils，sedimentary texture, sedimentary structure and sedimentary sequence, the Jialingjiang Formation in Danfengchang-Tanghe area is divided into two sedimentary facies including open platform and restricted platform, and further divided into five subfacies and several microfacies. The distribution of sedimentary facies of Jialingjiang Formation was studied, and the sedimentary environment and its evolution were analyzed. It is considered that the carbonate rocks of Jialingjiang Formation has frequent sea-level changes, experienced six evolution stages，and formed three times of larger transgression-regression sedimentary cycle. Each cycle is composed of small subcycles, while small subcycle is composed by a number of little rhythms. After detailed study on the lithology and sedimentary environment, it is considered that the most favorable layers for shallow particles dolomite and beach room dolomite are Jia Ⅰ-Jia Ⅱ1 member of Jialingjiang Formation in Tanghe and Danfengchang area and Jia Ⅱ3member in Tanghe and Linfengchang area.

Key words: Kohonen, neural network, seismic facies, sedimentary facies, Qaidam Basin

WANG Wenzhi，TIAN Jingchun，ZHANG Xiang，LONG Hui，LIU Dongmei，SUN Li. Sedimentary environment of Jialingjiang Formation in Danfeng-Tanghe area, southern Sichuan Basin[J].Lithologic Reservoirs, 2011, 23(6): 50-55.

References

［1］童崇光.四川盆地断褶构造形成机制［J］.天然气工业，1992，12（5）：1-7.
［2］曹剑，谭秀成，陈景山.川西南犍为地区下三叠统嘉陵江组沉积相及其演化特征［J］.高校地质学报，2004，10（3）：429-439.
［3］雷卞军，周跃宗，杨金利，等.川中—川南过渡带嘉陵江组二段沉积相及其展布特征［J］.中国地质，2006，33（5）：1 149-1 158.
［4］乔占峰，李国蓉，李弢.泸州古隆起地区嘉陵江组层序特征及其对碳酸盐岩储层的控制［J］. 沉积学报，2008，26（1）：92-110.
［5］李文茂，李国蓉，张天操，等.川东南庙高寺—二里场地区嘉陵江组层序地层与沉积相［J］.海相油气地质，2010，15（2）：36-44.
［6］朱露，胡明毅，段健，等.四川盆地西南地区下三叠统嘉陵江组沉积相研究［J］.海洋石油，2010，30（1）：43-47.
［7］王国刚，苏培东，秦启荣.罗家寨构造嘉陵江组嘉四2 段底部裂缝预测［J］.岩性油气藏，2009，21（4）：82-86.
［8］谭秀成，邹娟，李凌，等. 磨溪气田嘉二段陆表海型台地内沉积微相研究［J］.石油学报，2008，29（2）：219-225.
［9］胡华，董兆雄，李其荣，等.长垣坝构造带下三叠统嘉陵江组沉积相研究［J］.江汉石油学院学报，2004，26（4）：22-25.
［10］昌燕，谭秀成，杜本强，等.岩相古地理对自贡地区嘉陵江组储层的控制［J］.西南石油大学学报，2007，29（1）：12-15.
［11］罗鹏，李国蓉，施泽进，等.川东南地区茅口组层序地层及沉积相浅析［J］.岩性油气藏，2010，22（2）：74-78.

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