二连盆地呼仁布其凹陷南洼下白垩统烃源岩分布特征与油源分析

doi:10.12108/yxyqc.20200310

岩性油气藏 ›› 2020, Vol. 32 ›› Issue (3): 104–114.doi: 10.12108/yxyqc.20200310

二连盆地呼仁布其凹陷南洼下白垩统烃源岩分布特征与油源分析

山鑫杰^1,2, 王飞宇^1,2, 刘念^1,2, 冯伟平^1,2, 江涛^1,2, 杜喜^1,2, 程志强^1,2, 李思嘉^1,2, 李月^1,2

1. 中国石油大学(北京)地球科学学院, 北京 102249;
2. 中国石油大学(北京)油气资源与探测国家重点实验室, 北京 102249

收稿日期:2019-09-16 修回日期:2019-10-17 出版日期:2020-05-21 发布日期:2020-04-30
作者简介:山鑫杰(1994-),女,中国石油大学(北京)在读硕士研究生,研究方向为油气地球化学。地址:(102249)北京市昌平区府学路18号。Email:shxinjie@163.com。
基金资助:
国家科技重大专项“中国典型盆地气源灶和大中型气田形成”（编号：2016ZX05007001-003）与中国石油华北油田科技项目“二连盆地烃源灶与油气成藏”（编号：HBYT-YJY-2017-JS-152）联合资助

Distribution characteristics and oil-source analysis of Lower Cretaceous source rock in southern trough of Hurenbuqi sag，Erlian Basin

SHAN Xinjie^1,2, WANG Feiyu^1,2, LIU Nian^1,2, FENG Weiping^1,2, JIANG Tao^1,2, DU Xi^1,2, CHENG Zhiqiang^1,2, LI Sijia^1,2, LI Yue^1,2

1. College of Geosciences, China University of Petroleum(Beijing), Beijing 102249, China;
2. State Key Laboratory of Petroleum Resources and Prospecting, China University of Petroleum(Beijing), Beijing 102249, China

Received:2019-09-16 Revised:2019-10-17 Online:2020-05-21 Published:2020-04-30

摘要/Abstract

摘要： 呼仁布其凹陷位于二连盆地西部的巴音宝力格隆起中段，前期勘探已发现优质烃源岩和较好的油气显示，但凹陷南洼烃源岩的研究还比较薄弱。通过对呼仁布其凹陷南洼烃源岩测井地球化学评价以及烃源岩和原油样品的有机地球化学对比，揭示了其下白垩统烃源岩有机相分布、烃源岩地球化学特征和油源关系。结果表明：呼仁布其凹陷南洼下白垩统烃源岩主要分布于南洼漕东部，发育阿尔善组、腾一段和腾二段等3套烃源岩，其中阿尔善组烃源岩处于低成熟—成熟阶段，腾一段烃源岩处于低成熟阶段，腾二段烃源岩处于未成熟—低成熟阶段。呼仁布其凹陷南洼下白垩统3个层段均发育C相和D/E相烃源岩，其中，C相烃源岩主要分布于腾一段，厚度为300～400 m，初始氢指数为400～800 mg（/g TOC），显微组分多为腐泥组、壳质组和镜质组，母质来源主要为藻类等低等水生生物，形成于微咸水—半咸水、还原环境；D/E相烃源岩主要分布于阿尔善组，厚度为100～200 m，初始氢指数为200～400 mg（/g TOC），显微组分多为壳质组、镜质组和惰质组，母质来源主要为陆源高等植物，形成于淡水—微咸水、弱还原环境。油源对比认为：阿尔善组的成熟原油来源于阿尔善组烃源岩，腾一段成熟度较低的原油来源于腾一段烃源岩，而腾二段的原油可能来源于腾一段烃源岩。

关键词: 有机相, 油源分析, 阿尔善组, 腾格尔组, 下白垩统, 二连盆地

Abstract: The Hurenbuqi sag is located in the middle of the Bayinbaolige uplift in the western part of the Erlian Basin. It is one of the many oil-rich sags in the Erlian Basin. The early exploration has found high-quality source rocks and better oil and gas display,but the current research on source rock is weak. The study of source rocks is still relatively weak. Based on the geochemical evaluation of source rock and the organic geochemical analysis of source rock and crude oil samples,the distribution of organic facies and geochemical characteristics of source rocks and oil-source relationships in the southern trough of the Huerenbuqi sag were revealed. The results show that the source rocks of the southern trough in the Huerenbuqi sag are mainly distributed in the eastern belt,and three sets of source rocks in the K₁ ba,K₁ bt₁ and K₁ bt₂ are developed. The source rocks of the K₁ ba are in the stage of low maturation,the source rocks of the K₁ bt₁ are in a low maturation stage,and the source rocks of the K 1 bt₂ are in the immature to lowmature stage. The C source rocks and D/E source rocks are developed in the three layers of the Lower Cretaceous in the southern part of the Hurenbuqi sag. The C source rocks of the main body of the depression are mainly distributed in the K₁ bt₁,the thickness is 300-400 m,the initial hydrogen index is 400- 800 mg/g TOC,and the maceral is composed of sapropelinite and exinite and vitrinite. The parent material is mainly low level aquatic organisms such as algae,formed in brackish water to salt water and reducing environment. The D/E source rocks are mainly distributed in the K₁ ba,with a thickness of 100-200 m,the initial hydrogen index is 200-400 mg/g TOC,and the microscopic composition is mainly composed of exinite,vitrinite and inertinite. The parent material is mainly terrestrial plants formed in fresh water to micro-salt water and weak reducing environment. The hydrocarbon center is located in the eastern belt. According to the oil-source analysis,the mature crude oil of the K₁ ba was derived from the source rocks of the K₁ ba. The low mature crude oil of the K₁ bt₁ was derived from the source rocks of the K₁ bt₁,while the crude oil of the K₁ bt₂ may be derived from the K₁ bt₁ source rock.

Key words: organic facies, oil source analysis, Alshan Formation, Tenger Formation, Lower Cretaceous, Erlian Basin

中图分类号:

TE122.1+13

山鑫杰, 王飞宇, 刘念, 冯伟平, 江涛, 杜喜, 程志强, 李思嘉, 李月. 二连盆地呼仁布其凹陷南洼下白垩统烃源岩分布特征与油源分析[J]. 岩性油气藏, 2020, 32(3): 104–114.

SHAN Xinjie, WANG Feiyu, LIU Nian, FENG Weiping, JIANG Tao, DU Xi, CHENG Zhiqiang, LI Sijia, LI Yue. Distribution characteristics and oil-source analysis of Lower Cretaceous source rock in southern trough of Hurenbuqi sag，Erlian Basin[J]. Lithologic Reservoirs, 2020, 32(3): 104–114.

参考文献

[1] 降栓奇,陈彦君,赵志刚,等.二连盆地潜山成藏条件及油藏类型.岩性油气藏,2009,21(4):22-27. JIANG S Q,CHEN Y J,ZHAO Z G,et al. Reservoir accumulation conditions and patterns of buried hill in Erlian Basin. Lithologic Reservoirs,2009,21(4):22-27.
[2] 于英太.二连盆地演化特征及油气分布.石油学报,1990,11(3):12-19. YU Y T. Evolution characteristics of Erlian Basin and the distribution of oil and gas deposits. Acta Petrolei Sinica,1990,11(3):12-19.
[3] 张文朝,王洪生,王元杰,等.二连盆地辫状河三角洲沉积特征及含油性.西安石油学院学报(自然科学版),2000,15(5):3-6. ZHANG W C,WANG H S,WANG Y J,et al. Depositional feature and oil-bearing feature of the braided river delta in Erlian Basin. Journal of Xi'an Petroleum Institute (Natural Science Edition),2000,15(5):3-6.
[4] 祝玉衡,张文朝,王洪生.二连盆地下白垩统沉积相及含油性.北京:科学出版社,2000:229-231. ZHU Y H,ZHANG W C,WANG H S. Sedimentary facies and oil-bearing properties of the Lower Cretaceous in the Erlian Basin. Beijing:Petroleum Industry Press,2000:229-231.
[5] 许辉.二连盆地呼仁布其凹陷南次凹石油成藏条件分析.西安:长安大学,2010. XU H. The analysis of forming conditions of the oil and gas reservoir in part of the south Hurenbuqi sag in Erlian Basin. Xi'an:Chang'an University,2010.
[6] 陈五泉.二连盆地呼仁布其凹陷烃源岩特征及资源潜力评价.新疆石油地质,2009,30(4):467-469. CHEN W Q. Source rock characteristics and resource potential evaluation of Hurenbuqi sag in Erlian Basin. Xinjiang Petroleum Geology,2009,30(4):467-469.
[7] 何锋,靳广兴,魏丽红.东濮凹陷优质烃源岩研究意义.石油天然气学报(江汉石油学院学报),2010,32(4):185-188. HE F,JIN G X,WEI L H. Research significance of high quality source rocks in Dongpu sag. Journal of Oil and Gas Technology (Journal of Jianghan Petroleum Institute),2010,32(4):185-188.
[8] 任拥军,杜雨佳,郭潇潇,等.渤中凹陷古近系优质烃源岩特征及分布.油气地质与采收率,2015,22(1):5-13. REN Y J,DU Y J,GUO X X,et al. Characteristics and distribution of Paleogene high-quality source rocks in Bozhong Sag. Petroleum Geology and Recovery Efficiency,2015,22(1):5-13.
[9] 庞雄奇,郭永华,姜福杰,等.渤海海域优质烃源岩及其分布预测.石油与天然气,2009,30(4):393-397. PANG X Q,GUO Y H,JIANG F J,et al. High-quality source rocks and their distribution prediction in the Bohai Sea waters. Oil & Gas Geology,2009,30(4):393-397.
[10] 程志强,王飞宇,江涛,等.二连盆地东北部下白垩统烃源岩有机相与生烃特征.新疆石油地质,2018,39(4):384-392. CHENG Z Q,WANG F Y,JIANG T,et al. Organic facies and hydrocarbon generation characteristics of lower cretaceous source rocks in northeastern Erlian Basin. Xinjiang Petroleum Geology, 2018,39(4):384-392.
[11] JONES R. Organic facies//BROOKS J,WELTE D. Advance in petroleum geochemistry. London:Academic Press,1987:1-90.
[12] PEPPER A,CORVI P. Simple kinetic models of petroleum formation. Part I:Oil and gas generation from kerogen. Marine and Petroleum Geology,1995,12(3):291-319.
[13] 郝芳,陈建渝,刘耀宗.伊通地堑下第三系的有机相组合及其与盆地沉积环境和构造演化的关系.岩相古地理,1992(4):10-18. HAO F,CHEN J Y,LIU Y Z. Organic facies associations in relation to sedimentary environments and tectonic evolution in the Yitong graben,northeastern Chian. Journal of Palaeogeography,1992(4):10-18.
[14] 郝芳,陈建渝,孙永传,等.有机相研究及其在盆地分析中的应用.沉积学报,1994,12(4):77-86. HAO F,CHEN J Y,SUN Y C,et al. Organic facies studies and their use in sedimentary basin analysis. Acta Sedimentologica Sinica,1994,12(4):77-86.
[15] 赵彦德,刘洛夫,王旭东,等.渤海湾盆地南堡凹陷古近系烃源岩有机相特征.中国石油大学学报(自然科学版),2009,33(5):21-28. ZHAO Y D,LIU L F,WANG X D,et al. Characteristics of organic facies of Eogene hydrocarbon source rocks in Nanpu sag, Bohai Bay Basin. Journal of China University of Petroleum (Edition of Natural Science),2009,33(5):21-28.
[16] 姚素平,张科,胡文瑄,等.鄂尔多斯盆地三叠系延长组沉积有机相.石油与天然气地质,2009,30(1):74-89. YAO S P,ZHANG K,HU W X,et al. Sedimentary organic facies of the Triassic Yanchang Formation in the Ordos Basin. Oil & Gas Geology,2009,30(1):74-89.
[17] 王飞宇,王波,金涛,等.富油气凹陷烃源灶定量表征的理论和关键技术//中国石油学会石油地质专业委员会.第三届中国石油地质年会论文集.北京:中国石油学会,2009:629. WANG F Y,WANG B,JIN T,et al. The theory and key technology of refined characterization of source kitchen in prolific sag//Petroleum Geology Committee of Chinese Petroleum Society. Proceedings of the Third Annual Petroleum Geology Conference of China. Beijing:Chinese Petroleum Society,2009:629.
[18] PASSEY Q R,CREANEY S,KULLA J B,at al. A practical model for organic richness from porosity and resistivity logs. AAPG Bulletin,1990,74(12):1777-1794.
[19] SCHMOKER J W. Determination of organic-matter content of Appalachian Devonian shales from gamma-ray logs. AAPG Bulletin,1981,65(7):1285-1298.
[20] 杨涛涛,范国章,吕福亮,等.烃源岩测井响应特征及识别评价方法.天然气地球科学,2013,24(2):414-422. YANG T T,FAN G Z,LYU F L,et al. The logging features and identification methods of source rock. Natural Gas Geoscience, 2013,24(2):414-422.
[21] 袁媛,杜克峰,葛云锦,等.鄂尔多斯盆地甘泉-富县地区长7烃源岩地球化学特征陆相沉积中的未熟石油及其意义.岩性油气藏,2018,30(1):39-45. YUAN Y,DU K F,GE Y J,et al. Geochemistry of hydrocarbon source rocks of Chang 7 in Ganquan-Fuxian area,Ordos Basin. Lithologic Reservoirs,2018,30(1):39-45.
[22] 黄彦杰,白玉斌,孙兵华,等.鄂尔多斯盆地甘泉-富县地区长7烃源岩地球化学特征陆相沉积中的未熟石油及其意义.岩性油气藏,2019,31(6):66-75. HUANG Y J,BAI Y B,SUN B H,et al. Characteristics and evaluation of Chang 7 source rocks of Yanchang Formation in Fuxian area,Ordos Basin. Lithologic Reservoirs,2019,31(6):66-75.
[23] 孙哲,彭靖淞,江尚昆,等.渤海海域庙西中南洼围区烃源岩有机相与测井评价.岩性油气藏,2019,31(6):102-110. SUN Z,PENG J S,JIANG S K,et al. Organic facies and well logging evaluation of source rocks in centeral-south sag of Miaoxi Depression and its surrounding areas,Bohai Sea. Lithologic Reservoirs,2019,31(6):102-110.
[24] 张志伟,张龙海.测井评价烃源岩的方法及其应用效果.石油勘探与开发,2000,27(3):84-87. ZHANG Z W,ZHANG L H. A method of source rock evaluation by well logging and its application result. Petroleum Exploration and Development,2000,27(3):84-87.
[25] 王贵文,朱振宇,朱广宇.烃源岩测井识别与评价方法研究.石油勘探与开发,2002,29(4):50-52. WANG G W,ZHU Z Y,ZHU G Y. Logging identification and evaluation of Cambrian-Ordovician source rocks in syneclise of Tarim Basin. Petroleum Exploration and Development,2002, 29(4):50-52.
[26] 张明亮,郭伟,沈俊,等.古海洋氧化还原地球化学指标研究新进展.地质科技情报,2017,36(4):95-106. ZHANG M L,GUO W,SHEN J,et al. New progress on geochemical indicators of ancient oceanic redox condition. Geological Science and Technology Information,2017,36(4):95-106.
[27] TEN HAVEN H L,DE LEEUW J W,RULLKÖTTER J,et al. Restricted utility of the Pristane/Phytane ratio as a palaeoenvironmental indicator. Nature,1987,330(12):641-643.
[28] 程鹏,肖贤明,田辉,等.成熟度对陆相烃源岩可溶有机质Pr/Ph比值的影响.沉积学报,2014,32(1):182-186. CHENG P,XIAO X M,TIAN H,et al. Effects of maturity on the Pr/Ph ratio of the soluble organic matters in the terrestrial source rocks. Acta Sedimentologica Sinica,2014,32(1):182-186.
[29] PETERS K,MOLDOWAN J. The biomarker guide:Interpreting molecular fossils in petroleum and ancient sediments. Englewood Cliffs,NJ (United States):Prentice Hall,1993:289-290.
[30] DAMSTé J S S,KENIG F,KOOPMANS M P,at al. Evidence for gammacerane as an indicator of water column stratification. Geochimicaet Cosmochimica Acta,1995,59(9):1895-1900.
[31] 张立平,黄第藩,廖志勤.伽马蜡烷--水体分层的地球化学标志.沉积学报,1999,17(1):136-140. ZHANG L P,HUANG D F,LIAO Z Q. Gammacerane geochemical indicator of water column stratification. Acta Sedimentologica Sinica,1999,17(1):136-140.
[32] FRENCH K L,ROCHER D,ZUMBERGE J E,et al. Assessing the distribution of sedimentary C40 carotenoids through time. Geobiology,2015,13(2):139-151.
[33] MACKENZIE A S. Applications of biological markers in petroleum geochemistry. Advances in Petroleum Geochemistry,1984, 1:115-214.
[34] 卢双舫,张敏.油气地球化学.北京:石油工业出版社,2008:204-226. LU S F,ZHANG M. Oil and gas geochemistry. Beijing:Petroleum Industry Press,2008:204-226.
[35] 李鑫,尚鸿群,李继宏,等.烃源岩热演化指标研究现状.新疆石油地质,2007,28(3):379-384. LI X,SHANG H Q,LI J H,et al. A review of indicators of thermal evolution of source rocks. Xinjiang Petroleum Geology, 2007,28(3):379-384.
[36] 李艳红,金奎励.烃源岩成熟度评价指标及选取.地质地球化学,2000,28(2):94-96. LI Y H,JIN K L. Evaluation indices for maturity of hydrocarbon-source rocks. Geology Geochemistry,2000,28(2):94-96.
[37] 程顶胜.烃源岩有机质成熟度评价方法综述.新疆石油地质, 1998,19(5):428-432. CHENG D S. A summary of evaluation methods for organic matter maturity of source rocks. Xinjiang Petroleum Geology, 1998,19(5):428-432.
[38] 任战利.中国北方沉积盆地构造热演化史恢复及其对比研究.西安:西北大学,1998. REN Z L. Comparative research on tectonic thermal history of sedimentary basins in the north China. Xi'an:Northwest University,1998.
[39] 王铁冠,钟宁宁,候读杰,等.中国低熟油的几种成因机制.沉积学报,1997,15(2):85-96. WANG T G,ZHONG N N,HOU D J,et al. Several genetic mechanisms of immature crude oils in China. Acta Sedimentologica Sinica,1997,15(2):85-96.
[40] 黄第藩,李晋超.陆相沉积中的未熟石油及其意义.石油学报,1987,8(1):1-9. HUANG D F,LI J C. Immature petroleum in continental deposits and its significance. Acta Petrolei Sinica,1987,8(1):1-9.
[41] 庞雄奇,李素梅,黎茂稳,等.八面河地区"未熟-低熟油"成因探讨.沉积学报,2001,19(4):586-591. PANG X Q,LI S M,LI M W,et al. Origin of "Immature Oils in the Bamianhe Oilfield of eastern China.Acta Sedimentologica Sinica,2001,19(4):586-591.
[42] SNOWDON L R,POWELL T G. Immature oil and condensatemodification of hydrocarbon generation model for terrestrial organic matter. AAPG Bulletin,1982,66(6):775-788.
[43] BEZHENNOVA O K,AREFIEV O A. Immature oil as the products of early catagenetic transformation of the bacterial-alga organic matter. Organic Geochemistry,1990,16(1/3):307-314.
[44] 王浩,王飞宇,降栓奇,等.二连盆地赛汉塔拉凹陷原油地球化学特征与油族划分.岩性油气藏,2017,29(2):36-43. WANG H,WANG F Y,JIANG S Q,et al. The oil families and their geochemical characteristics in Sanhantala Sag,Erlian Basin. Lithologic Reservoirs,2017,29(2):36-43.
[45] 刚文哲,仵岳,高岗,等.渤海湾盆地南堡凹陷烃源岩地球化学特征与地质意义.石油实验地质,2012,34(1):57-61. GANG W Z,WU Y,GAO G,et al. Geochemical features and geologic significances of source rocks in Nanpu Sag,Bohai Bay Basin. Petroleum Geology&Experiment,2012,34(1):57-61.
[46] 赵贤正,柳广弟,金凤鸣,等.小型断陷湖盆有效烃源岩分布特征与分布模式:以二连盆地下白垩统为例.石油学报, 2015,36(6):641-652. ZHAO X Z,LIU G D,JIN F M,et al. Distribution features and patern of effective source rock in small faulted lacustrine basin:a case study of the Lower Cretaceous in Erlian Basin. Acta Petrolei Sinica,2015,36(6):641-652.
[47] 杜维良,李先平,肖阳,等.二连盆地反转构造及其与油气的关系.科技导报,2007,25(11):45-47. DU W L,LI X P,XIAO Y,et al. Reverse structures in Erlian Basin and their relations with hydrocarbon. Science&Technology Review,2007,25(11):45-47.
[48] 李华东,王荣福,吴心一,等.有机相在油气源岩与油气评价中的作用:以下扬子区二叠系为例.石油实验地质,1993,15(2):201-212. LI H D,WANG R F,WU X Y,et al. Tyson R V. the role of organic facies in evaluation of source rocks and oil/gas:a case study in the permian system of lower yangtze. Experi-mental Petroleum Geology,1993,15(2):201-212.

Metrics

Viewed

Full text

Abstract

Cited

Shared

Discussed

二连盆地呼仁布其凹陷南洼下白垩统烃源岩分布特征与油源分析

Distribution characteristics and oil-source analysis of Lower Cretaceous source rock in southern trough of Hurenbuqi sag，Erlian Basin

PDF (PC)

摘要/Abstract

引用本文

使用本文

参考文献

相关文章 15

Metrics

本文评价

推荐阅读 10

[1]	姚海鹏, 于东方, 李玲, 林海涛. 内蒙古地区典型煤储层吸附特征[J]. 岩性油气藏, 2021, 33(2): 1-8.
[2]	张闻亭, 龙礼文, 肖文华, 魏浩元, 李铁锋, 董震宇. 酒泉盆地青西凹陷窟窿山构造带下沟组沉积特征及储层预测[J]. 岩性油气藏, 2021, 33(1): 186-197.
[3]	宁从前, 周明顺, 成捷, 苏芮, 郝鹏, 王敏, 潘景丽. 二维核磁共振测井在砂砾岩储层流体识别中的应用[J]. 岩性油气藏, 2021, 33(1): 267-274.
[4]	黄杰, 杜玉洪, 王红梅, 郭佳, 单晓琨, 苗雪, 钟新宇, 朱玉双. 特低渗储层微观孔隙结构与可动流体赋存特征——以二连盆地阿尔凹陷腾一下段储层为例[J]. 岩性油气藏, 2020, 32(5): 93-101.
[5]	孙哲, 彭靖淞, 江尚昆, 叶涛, 郭颖. 渤海海域庙西中南洼围区烃源岩有机相与测井评价[J]. 岩性油气藏, 2020, 32(1): 102-110.
[6]	张以明, 陈树光, 崔永谦, 田建章, 王鑫, 王孟华. 二连盆地乌兰花凹陷安山岩岩相展布及储层预测[J]. 岩性油气藏, 2018, 30(6): 1-9.
[7]	魏巍, 朱筱敏, 朱世发, 何明薇, 吴健平, 王名巍. 阿南凹陷腾格尔组凝灰质混积岩岩相及储集空间特征[J]. 岩性油气藏, 2017, 29(2): 68-76.
[8]	赵贤正, 王权, 淡伟宁, 王文英, 乔晓霞, 任春玲. 二连盆地白垩系地层岩性油藏的勘探发现及前景[J]. 岩性油气藏, 2017, 29(2): 1-9.
[9]	肖阳, 张少华, 魏岩, 杨明慧, 陈玉婷, 潘娟. 二连盆地赛汉塔拉凹陷边界断裂构造特征及其控藏作用[J]. 岩性油气藏, 2017, 29(2): 44-50.
[10]	朱筱敏, 董艳蕾, 张明君, 潘荣, 梁官忠, 张久强. 二连盆地洪浩尔舒特凹陷洪10区块精细沉积学研究[J]. 岩性油气藏, 2017, 29(2): 10-18.
[11]	赵志刚, 王飞宇, 王洪波, 王名巍, 王浩, 蓝宝峰. 二连盆地赛汉塔拉凹陷烃源岩有机相与烃源灶[J]. 岩性油气藏, 2017, 29(2): 28-35.
[12]	王浩, 王飞宇, 降栓奇, 吴忠, 邢雅文, 蓝宝峰. 二连盆地赛汉塔拉凹陷原油地球化学特征与油族划分[J]. 岩性油气藏, 2017, 29(2): 36-43.
[13]	何明薇, 朱筱敏, 朱世发, 魏巍, 吴健平, 王名巍. 二连盆地额仁淖尔凹陷阿尔善组致密储层特征及成岩作用[J]. 岩性油气藏, 2017, 29(2): 77-86.
[14]	孙书洋, 朱筱敏, 魏巍, 朱世发, 何明薇, 刘伟, 吴健平. 二连盆地巴音都兰凹陷阿尔善组云质岩储层特征[J]. 岩性油气藏, 2017, 29(2): 87-98.
[15]	李啸, 刘海磊, 王学勇, 卞保力, 杨帆, 陈刚强. 坡折带砂体成因及分布规律——以准噶尔盆地车排子地区下白垩统清水河组为例[J]. 岩性油气藏, 2017, 29(1): 35-42.