Lithologic Reservoirs ›› 2007, Vol. 19 ›› Issue (1): 46-51.doi: 10.3969/j.issn.1673-8926.2007.01.008

Previous Articles     Next Articles

Favorable condition and exploration prospecting of lithologic hydrocarbon reservoir in large-scale saline basin:Case study on the Eogene in the southwest of Qaidam Basin

CHEN Qilin   

  1. Northwest Branch, Research Institute of Petroleum Exploration and Development, Petrochina
  • Online:2007-03-15 Published:2007-03-15

PDF (PC)

582

Abstract:

In the Eogene and Neogene,Qaidam Basin experienced the multiphase tectonic movement;the paleoclimate evolved from warm-humid to arid;the water in the basin was gradually salinized;the depocenter migrated from west to east.The master factors and developmental characters of lithologic hydrocarbon reservoirs have their own  particularity.Taking the fine exploration zones of the southwest hydrocarbon-rich depression in Qaidam as the key point, with the analysis of source-rock distribution,sedimentary evolution and sedimentary system distribution,the author proposes that the density difference increases after the fluvial water enters,then dam and bar sand bodies are formed easily due to density flow.Highstand system tract and transgressive system tract below the maximum flooding surface are the main exploration areas of lithologic reservoir.The Eogene slope setting sin southwest Qaidam provide the basic accumulation condition for lithologic reservoirs. The broad structures and the nose-like uplifts are favorable for lithologic reservoirs;structural settings and sand genesis determine the local accumulation of oil and gas; the broad platforms within slope settings are the main oil-gas accumulation areas of downsource and within-source lithologic reservoirs.The dam and bar sandbodies in saline lake basin, the meare dam sand bodies of the transgressive system tract,the insular sandbodies within the fan-delta and delta front,and the algal limestones widely distributed over the meare are the main exploration domains of lithologic hydrocarbon reservoirs.

Key words: uplift, reservoir-forming model, southeast uplift, Songliao Basin

[1 ] Jia Chengzao, Chi Yingliu. Resource potential and exploration techniques of stratigraphic and subtel reservoirs in China [ J].Petroleum Science, 2004, 1( 2): 1-12.
[2 ] 贾承造,赵文智,邹才能,等. 岩性油气藏勘探的两项核心技术[ J] . 石油勘探与开发, 2004, 31( 3): 3-9.
[3 ] 江波,司丹,王兰生,等. 柴西南地区油气成藏特征及有利储层预测[ J] . 天然气工业, 2004, 24( 9): 8-10.
[4 ] 袁选俊,薛良清,池英柳,等. 坳陷型湖盆层序地层特征与隐蔽油气藏勘探—— 以松辽盆地为例[ J ]. 石油学报, 2003, 24( 3):11-15.
[ 5] 李丕龙,陈冬霞,庞雄奇. 岩性油气藏成因机理研究现状及展望[ J] . 油气地质与采收率, 2002, 9( 5): 1-3.
[6 ] 胡建义,徐树宝,刘淑兰,等. 非构造油气藏[M ]. 北京: 石油工业出版社, 1986: 81-83.
[7 ] 付晓飞,王朋岩,申家年,等. 简单斜坡油气富集规律—— 以松辽盆地西斜坡为例[ J] .地质论评, 2006, 54( 4): 522-531.
[ 8] 陈启林,卫平生,杨占龙.银根— 额济纳盆地构造演化与油气勘探方向[ J] .石油实验地质, 2006, 28( 4): 311-315.
[9 ] 陈启林,杨占龙,关银录,等. 银根— 额济纳裂谷盆地群凹陷结构样式及对成藏的控制[ J] . 天然气地球科学, 2005, 16 ( 5):559-563.
[10 ] 林畅松,潘元林,肖建新,等. “构造坡折带”—— 断陷盆地层序分析和油气预测的重要概念[ J]. 地球科学—— 中国地质大学学报, 2000, 25( 3): 260-265.
[11 ] 赵文智,邹才能,汪泽成,等. 富油气凹陷“满凹含油”论—— 内涵与意义[ J] .石油勘探与开发, 2004, 31( 2): 5-13.
[12 ] 方志雄,陈开远,杨香华,等. 潜江盐湖盆地层序地层特征[ J ].盐湖研究, 2003, 11( 2): 14-23.
[ 13] 金强,查明,赵磊. 柴达木盆地西部第三系盐湖相有效生油岩的识别[ J] .沉积学报, 2001, 19( 1): 125-129.
[14 ] 吴因业,江波,郭彬程,等. 岩性油气藏勘探的沉积体系域表征技术—— 以柴达木盆地为例[ J]. 新疆石油地质, 2004, 25( 4):358-361.
[15 ] 陈启林,杨占龙. 岩性油气藏勘探方法与技术[ J ]. 天然气地球科学, 2006, 17( 5): 622-626.
[16 ] 杨占龙,陈启林. 岩性圈闭与陆相盆地岩性油气藏勘探[ J ]. 天然气地球科学, 2006, 17( 5): 616-621.
[1] RAN Yixuan, WANG Jian, ZHANG Yi. Favorable exploration area and formation condition of bedrock reservoir in the of central paleo-uplift,northern Songliao Basin [J]. Lithologic Reservoirs, 2024, 36(6): 66-76.
[2] LI Daoqing, CHEN Yongbo, YANG Dong, LI Xiao, SU Hang, ZHOU Junfeng, QIU Tingcong, SHI Xiaoqian. Intelligent comprehensive prediction technology of coalbed methane “sweet spot”reservoir of Jurassic Xishanyao Formation in Baijiahai uplift,Junggar Basin [J]. Lithologic Reservoirs, 2024, 36(6): 23-35.
[3] QU Weihua, TIAN Ye, DONG Changchun, GUO Xiaobo, LI Lili, LIN Siya, XUE Song, YANG Shihe. Characteristics of Cretaceous source rocks and their controlling effect on hydrocarbon accumulation in Dehui Fault Depression,Songliao Basin [J]. Lithologic Reservoirs, 2024, 36(6): 122-134.
[4] ZHOU Gang, YANG Dailin, SUN Yiting, YAN Wei, ZHANG Ya, WEN Huaguo, HE Yuan, LIU Sibing. Sedimentary filling process and petroleum geological significance of Cambrian Canglangpu Formation in Sichuan Basin and adjacent areas [J]. Lithologic Reservoirs, 2024, 36(5): 25-34.
[5] WANG Hongxing, HAN Shiwen, HU Jia, PAN Zhihao. Prediction and main controlling factors of tuff reservoirs of Cretaceous Huoshiling Formation in Dehui fault depression,Songliao Basin [J]. Lithologic Reservoirs, 2024, 36(5): 35-45.
[6] YI Zhenli, SHI Fang, YIN Taiju, LI Bin, LI Meng, LIU Liu, WANG Zhukun, YU Ye. Provenance transformation and sedimentary filling response of Mesozoic in Halahatang-Hade area,Tarim Basin [J]. Lithologic Reservoirs, 2024, 36(5): 56-66.
[7] YANG Weihua. Hydrocarbon accumulation model and main controlling factors of tight oil of the fourth member of Cretaceous Yingcheng Formation in Shuangcheng fault depression,Songliao Basin [J]. Lithologic Reservoirs, 2024, 36(4): 25-34.
[8] MENG Qinghao, ZHANG Changmin, ZHANG Xianghui, ZHU Rui, XIANG Jianbo. Morphology,distribution and main controlling factors of modern distributive fluvial system in Tarim Basin [J]. Lithologic Reservoirs, 2024, 36(4): 44-56.
[9] LU Keliang, WU Kangjun, LI Zhijun, SUN Yonghe, XU Shaohua, LIANG Feng, LIU Lu, LI Shuang. Characteristics and evolution model of hydrocarbon accumulation of Cambrian Longwangmiao Formation in the north slope of central Sichuan paleo-uplift [J]. Lithologic Reservoirs, 2024, 36(4): 159-168.
[10] HE Wenyuan, ZHAO Ying, ZHONG Jianhua, SUN Ningliang. Characteristics and significance of micron pores and micron fractures in shale oil reservoirs of Cretaceous Qingshankou Formation in Gulong sag,Songliao Basin [J]. Lithologic Reservoirs, 2024, 36(3): 1-18.
[11] DU Changpeng. Natural gas accumulation conditions and main controlling factors of Cretaceous tight volcanic rocks in Yingshan-Shuangcheng fault depression,Songliao Basin [J]. Lithologic Reservoirs, 2023, 35(4): 115-124.
[12] XU Zhuang, SHI Wanzhong, WANG Ren, LUO Fusong, XIA Yongtao, QIN Shuo, ZHANG Xiao. Hydrocarbon accumulation law and model of Cretaceous clastic rocks in western Tabei uplift [J]. Lithologic Reservoirs, 2023, 35(2): 31-46.
[13] YANG Taozheng, LIU Chenglin, TIAN Jixian, LI Pei, RAN Yu, FENG Dehao, LI Guoxiong, WU Yuping. Prediction and genesis of formation pressure in Dafengshan uplift, Qaidam Basin [J]. Lithologic Reservoirs, 2023, 35(1): 96-107.
[14] CHEN Zhonghong, CHAI Zhi. Difference of maturity parameters of mixed crude oil and its geological significance:A case study of Ordovician in Tuofutai area,Tabei uplift [J]. Lithologic Reservoirs, 2022, 34(5): 38-49.
[15] ZHOU Hongfei, DAI Xin, JIA Min, ZHANG Rui, LI Guohui, LI Nan, YANG Qiang, BAI Rong. Hydrocarbon accumulation characteristics of the second member of Sinian Dengying Formation in the north slope of central Sichuan paleo-uplift [J]. Lithologic Reservoirs, 2022, 34(5): 130-138.
Viewed
Full text


Abstract

Cited
  Shared   
  Discussed   
[1] PANG Xiongqi,CHEN Dongxia, ZHANG Jun. Concept and categorize of subtle reservoir and problems in its application[J]. Lithologic Reservoirs, 2007, 19(1): 1 -8 .
[2] LEI Bianjun, ZHANG Ji,WANG Caili,WANG Xiaorong, LI Shilin, LIU Bin. Control of high r esolution sequence str atigr aphy on microfacies and reservoir s: A case from the upper Ma 5 member in Tong 5 wellblock, Jingbian Gas Field[J]. Lithologic Reservoirs, 2008, 20(1): 1 -7 .
[3] YANG Jie,WEI Pingsheng, LI Xiangbo. Basic concept, content and research method of petroleum seismogeology[J]. Lithologic Reservoirs, 2010, 22(1): 1 -6 .
[4] WANG Yan-qi1,HU Min-yi1,LIU Fu-yan1,WANG Hui1,HU Zhi-hua1,2. [J]. LITHOLOGIC RESERVOIRS, 2008, 20(3): 44 -48 .
[5] DAI Liming, LI Jianping, ZHOU Xinhuai, CUI Zhongguo, CHENG Jianchun. Depositional system of the Neogene shallow water delta in Bohai Sea area[J]. Lithologic Reservoirs, 2007, 19(4): 75 -81 .
[6] DUAN Youxiang, CAO Jing, SUN Qifeng. Application of auto-adaptive dip-steering technique to fault recognition[J]. Lithologic Reservoirs, 2017, 29(4): 101 -107 .
[7] HUANG Long, TIAN Jingchun, XIAO Ling, WANG Feng. Characteristics and evaluation of Chang 6 sandstone reservoir of Upper Triassic in Fuxian area, Ordos Basin[J]. Lithologic Reservoirs, 2008, 20(1): 83 -88 .
[8] YANG Shiwei, LI Jianming. Characteristics and geological significance of seismites[J]. Lithologic Reservoirs, 2008, 20(1): 89 -94 .
[9] LI Chuanliang, TU Xingwan. Two types of stress sensitivity mechanisms for reservoir rocks:Being favorable for oil recovery[J]. Lithologic Reservoirs, 2008, 20(1): 111 -113 .
[10] LI Jun, HUANG Zhilong, LI Jia, LIU Bo. The pool-forming pattern in the condition of arching in the southeast uplift in Songliao Basin[J]. Lithologic Reservoirs, 2007, 19(1): 57 -61 .
TRENDMD:

Copyright © 2018 Lithologic Reservoirs

Support by Beijing Magtech support@magtech.com.cn