Oil & Gas Geology ›› 2017, Vol. 38 ›› Issue (5): 887-895.doi: 10.11743/ogg20170507
Previous Articles Next Articles
Li Wei1,2, Wen Zhigang1, Xu Yaohui1, Zhu Cuishan1, Gao Yongliang1
Received:
2016-06-29
Revised:
2017-06-14
Online:
2017-10-28
Published:
2017-11-10
CLC Number:
Li Wei, Wen Zhigang, Xu Yaohui, Zhu Cuishan, Gao Yongliang. Hydrocarbon charging pathway tracing with rearranged hopane parameters in Longdong area,Ordos Basin[J]. Oil & Gas Geology, 2017, 38(5): 887-895.
Add to citation manager EndNote|Reference Manager|ProCite|BibTeX|RefWorks
[1] Moldowan J M,Fago F J,Carison R M K,et al.Rearranged hopanes in sediments and petroleum[J].Genchimica et Cosmochimica Acta,1991,55(11):3333-3353. [2] Telnaes N,Isaksen G H,Farromond P.Unusual triterpane disribution in lacustrine oil[J].Organic Geochemistry,1992,18(6):785-789. [3] Farrimond P,Telenaes N.Three series of rearranged hopanes in Toarician sediments[J].Organic Geochemistry,1996,25(3):165-177. [4] 张敏.地质体中高丰度重排藿烷类化合物的成因研究现状与展望[J].石油天然气学报(江汉石油学院学报),2013,35(9):1-4. Zhang Min.Research and prospects of genesis of high abundant rearrangedhopanes in geological bodies[J].Journal of Oil and Gas Technology,2013,35(9):1-4. [5] 张水昌,张宝民,边立曾,等.8亿多年前由红藻堆积而成的下马岭组油页岩系[J].中国科学(D辑:地球科学),2007,37(5):636-643. Zhang Shuichang,Zhang Baomin,Bian Lizeng,et al.The oil shale formed by the accumulation of the red algae more than 800 million years ago in Xiamaling Formation[J].Science in China (Series D:Earth Sciences),2007; 37(5):636-643 [6] 曹剑,边立曾,胡凯,等.柴达木盆地北缘侏罗系烃源岩中发现底栖宏观红藻类生烃母质[J].中国科学(D辑:地球科学),2009,39(4):474-480. Cao Jian,Bian Lizeng,Hu Kai,et al.Benthic macro red alga:A new possible bio-presursor of Jurassic mudstone source rocks in the nor-thern Qaidam Basin,northwestern China[J].Science in China (Series D:Earth Sciences),2009,39(4):474-480. [7] Smith M,Bend S.Geochemical analysis and familial associction of Red River and Winnipeg reservoired oils of the Williston Basin,Canada[J].Organic Geochemistry,2004,35(4):443-452. [8] 张文正,杨华,侯林慧,等.鄂尔多斯盆地延长组不同烃源岩17α(H)-重排藿烷的分布及其地质意义[J].中国科学(D辑:地球科学),2009,39(10):1438-1455. Zhang Wenzheng,Yang Hua,Hou Linhui,et al.Distribution and geological significance of 17α(H)-diahopanes from different hydrocarbon source rocks of Yanchang Formation in Ordos Basin[J].Science in China (Series D:Earth Sciences),2009,39(10):1438-1445. [9] Kolaczkowska E,Slougui N E,Watt D S,et al.Thermodynamic stabi-lity of various alkylated,and rearranged 17α-and 17β-hopane isomers using molecuar mechanics calculations[J].Organic Geochemistry,1990,16(4-6):1033-1038. [10] 肖中尧,黄光辉,卢玉红,等.库车凹陷却勒1井原油的重排藿烷系列及油源对比[J].石油勘探与开发,2004,31(2):35-37. Xiao Zhongyao,Huang Guanghui,Lu Yuhong,et al.Rearranged hopanes in oils from the Quele 1 well,Tarim Basin,and the significance for oil correlation[J].Petroleum Exploration and Development,2004,31(2):35-37. [11] 王春江,傅家谟,盛国英,等.18α(H)-新藿烷及17α(H)-重排藿烷类化合物的地球化学属性与应用[J].科学通报,2000,45(13):1366-1372. Wang Chunjiang,Fu Jiamo,Sheng Guoying,et al.Geochemical properties and application of 18α(H)-neohopanes and 17α(H)-rearranged hopanes[J].Chinese Science Bulletin,2000,45(13):1366-1372. [12] 黄海平,卢松年,袁佩兰.古代沉积物中新检出的重排藿烷及其在油气勘探上的意义[J].天然气地球科学,1994,23(5):23-28. Huang Haiping,Lu Songnian,Yuan Peilan.The new discovered diahopanes in the Paleozoic sediments and their significance in petro-leum exploration[J].Natural Gas Geoscience,1994,5(3):23-28. [13] Obermajer M,Osadetz K G,Fowler M G,et al.Delineating compositional variabilities among crude oils from central Montana,USA,using light hydrocarbon and biomarker characteristics[J].Organic Geochemistry,2002,33(12):1343-1359. [14] Peters K E,Moldowan J M.The biomarker guide:Interpreting mole-cular fossils in petroleum an ancient sediments[M].New Jersey,USA:Prentice Hall Inc,1993:112-116. [15] 王铁冠,何发岐,李美俊,等.烷基二苯并噻吩类:示踪油藏充注途径的分子标志物[J].科学通报,2005,50(2):176-182. Wang Tieguan,He Faqi,Li Meijun,et al.Alkyi-dibenzothiophenes:Molecular tracers for filling pathway in oil reservoirs[J].China Science Bulletin,2005,50(2):176-182. [16] Connan J,Bouroullec J,Dessort D,et al.The microbial input in carbonate-anhydrite facies of Sabkha palaeoenvironment from Guatemala:A molecular approach[J].Organic Geochemistry,1986,10(1):29-50. [17] Radke M.Application of aromatic compounds as maturity indicators in source rocks and crude oils[J].Marine and Petroleum Geology,1988,5(3):224-236 [18] Hughes W B.Use of thiophenic organosulfur compounds in characte-rizing crude oils derived from carbonate versus siliclastic sources[C].AAPG Studies in Geology,1984,18:181-196. [19] England W,Mackenzie A S,Mann D M,et al.The movement and entrapment of petroleum fluids in the subsurface[J].Journal of the Geological Society,1987,144(2):327-347. [20] 李美俊,王铁冠,刘菊,等.烷基二苯并噻吩总量示踪福山凹陷凝析油藏充注途径[J].中国科学(D辑:地球科学),2008,38(增刊1):122-128. Li Meijun,Wang Tieguan,Liu Ju,et al.Total alkyi dibenzothiophenes content tracing the filling pathway of condensate reservoir in the Fushan Depression,South China Sea[J].Science in China(Series D:Earth Sciences),2008,38(S1):122-128. [21] 徐耀辉,王铁冠,陈能学,等.二苯并噻吩参数与油藏动态监测、剩余油分布预测——以南堡凹陷柳北沙三3油藏为例[J].中国科学(D辑:地球科学),2013,43(7):1141-1148. Xu Yaohui,Wang Tieguan,Chen Nengxue,et al.DBT parameters and dynamic monitoring during reservoir development,and distribution region prediction of remaining oil:A case study on the Sha-33 oil reservoir in the Liubei region,Nanpu Sag[J].Science in China(Series D:Earth Sciences),2013,43(7):1141-1148. [22] 张利文,李美俊,杨福林,等.二苯并呋喃地球化学研究进展及作为油藏充注示踪标志物的化学机理[J].石油与天然气地质,2012,33(4):633-639. Zhang Liwen,Li Meijun,Yang Fulin.Progress of geochemical research on dibenzofuran and its chemical mechanism as molecular tracer for oil charging pathways[J].Oil & Gas Geology,2012,33(4):633-639. [23] 吕修祥,杨海军,王祥,等.地球化学参数在油气运移研究中的应用——以塔里木盆地塔中地区为例[J].石油与天然气地质,2010,31(6):838-846. Lu Xiuxiang,Yang Haijun,Wang Xiang,et al.Application of geochemical parameters in hydrocarbonm igration studies:Taking Tazhong area of the Tarim Basin as an example[J].Oil & Gas Geology,2010,31(6):838-846. [24] 崔景伟,王铁冠,徐耀辉.原油中烷基酚类化合物研究述评[J].石油天然气学报,2011,33(5):51-54. Cui Jingwei,Wang Tieguan,Xu Yaohui.Research of alkyl-phenols in crude oils[J].Journal of Oil and Gas Technology,2011,33(5):51-54. [25] Bastow T P,Aarssen B G K,Alexander R,et al.Origins of alkyphenols in crude oils:Hydroxylation of alkylbenzenes[J].Organic Geochemistry,2005,36(7):991-1001. [26] Galimberti R,Ghiselli C,Chiaramonte M A.Acidic polar compounds in petroleum:A new analytical methodology and applications as molecular migration indices[J].Organic Geochemistry,2000,31(12):1375-1386. [27] 任晓霞,李爱芬,王永政,等.致密砂岩储层孔隙结构及其对渗流的影响——以鄂尔多斯盆地马岭油田长8储层为例[J].石油与天然气地质,2015,36(5):774-779. Ren Xiaoxia,Li Aifen,Wang Yongzheng,et al.Pore structure of tight sand reservoir and its influence on percolation-Taking the Chang 8 reservoir in Maling oilfield in Ordos Basin as an example[J].Oil & Gas Geology,2015,36(5):774-779. [28] 赵向原,曾联波,祖克威,等.致密储层脆性特征及对天然裂缝的控制作用——以鄂尔多斯盆地陇东地区长7致密储层为例[J].石油与天然气地质,2016,37(1):62-71. Zhao Xiangyuan,Zeng Lianbo,Zu Kewei,et al.Brittleness characte-ristics and its control on natural fractures in tight reservoirs:A case study from Chang 7 tight reservoir in Longdong area of the Ordos Basin[J].Oil & Gas Geology,2016,37(1):62-71. [29] 刘显阳,惠潇,李士祥.鄂尔多斯盆地中生界低渗透岩性油藏形成规律综述[J].沉积学报,2012,30(5):964-974. Liu Xianyang,Hui Xiao,Li Shixiang.Summary of formation rule for low permeability lithologic reservoir of Mesozoic in Ordos Basin[J].Acta Sedimentologica Sinica,2012,30(5):964-974. [30] 杨华,张文正,彭平安,等.鄂尔多斯盆地中生界湖相油型油的精细划分与油源对比[J].地球科学与环境学报,2016,38(2):196-205. Yang Hua,Zhang Wenzheng,Peng Ping'an,et al.Oil detailed classification and oil-source correlation of Mesozoic lacustrine oil in Ordos Basin[J].Journal of Earth Sciences and Environment,2016,38(2):196-205. [31] 李威,文志刚.鄂尔多斯盆地马岭地区上三叠统长7油层组油气富集规律[J].岩性油气藏2012,24(6),101-105. Li Wei,Wen Zhigang.Hydrocarbon enrichment of Upper Triassic Chang-7 oil reservoir set in Maling area,Ordos Basin[J].Lithologic Reservoirs,2012,24(6):101-105. |
[1] | Weitao WU, Yansong FENG, Shixiang FEI, Yifei WANG, Heyuan WU, Xudong YANG. Enrichment factors and play fairway mapping for tight gas in the 5th member of the Permian Shiqianfeng Formation, Shenmu gas field, Ordos Basin [J]. Oil & Gas Geology, 2024, 45(3): 739-751. |
[2] | Chenglin LIU, Zhengang DING, Liyong FAN, Rui KANG, Sijie HONG, Yuxin ZHU, Jianfa CHEN, Haidong WANG, Nuo XU. Geochemical characteristics and enrichment factors of helium-bearing natural gas in the Ordos Basin [J]. Oil & Gas Geology, 2024, 45(2): 384-392. |
[3] | Junyu WAN, Jianhui ZHU, Suping YAO, Yi ZHANG, Chuntang LI, Wei ZHANG, Haijian JIANG, Jie WANG. Geobiological evaluation of hydrocarbon-generating organisms and source rocks in the Ordovician Majiagou Formation, east-central Ordos Basin [J]. Oil & Gas Geology, 2024, 45(2): 393-405. |
[4] | LiHua YANG, ChiYang LIU, Lei HUANG, Yijun ZHOU, Yongtao LIU, Yang QIN. Discovery of suspected intrusive rock bodies in Gufengzhuang area, Ordos Basin and its geological significance [J]. Oil & Gas Geology, 2024, 45(1): 142-156. |
[5] | Liang SHI, Bojiang FAN, Zhonghou LI, Ziwei YU, Zijin LIN, Xinyang DAI. Migration differentiation of hydrocarbon components in the 7th member of the Triassic Yanchang Formation, central Ordos Basin [J]. Oil & Gas Geology, 2024, 45(1): 157-168. |
[6] | Jiangjun CAO, Jiping WANG, Daofeng ZHANG, Long WANG, Xiaotian LI, Ya LI, Yuanyuan ZHANG, Hui XIA, Zhanhai YU. Effects of diagenetic evolution on gas-bearing properties of deep tight sandstone reservoirs: A case study of reservoirs in the 1st member of the Permian Shanxi Formation in the Qingyang gas field, southwestern Ordos Basin [J]. Oil & Gas Geology, 2024, 45(1): 169-184. |
[7] | Zongquan HU, Ruyue WANG, Jing LU, Dongjun FENG, Yuejiao LIU, Baojian SHEN, Zhongbao LIU, Guanping WANG, Jianhua HE. Storage characteristic comparison of pores between lacustrine shales and their interbeds and differential evolutionary patterns [J]. Oil & Gas Geology, 2023, 44(6): 1393-1404. |
[8] | Chenglin LIU, Zhengang DING, Jianfa CHEN, Liyong FAN, Rui KANG, Haidong WANG, Sijie HONG, Anqi TIAN, Xueyong CHEN. Characteristics and helium-generating potential of helium source rocks in the Ordos Basin [J]. Oil & Gas Geology, 2023, 44(6): 1546-1554. |
[9] | Yong LI, Zhitong ZHU, Peng WU, Chenzhou SHEN, Jixian GAO. Pressure evolution of gas-bearing systems in the Upper Paleozoic tight reservoirs at the eastern margin of the Ordos Basin [J]. Oil & Gas Geology, 2023, 44(6): 1568-1581. |
[10] | Jianhui ZENG, Yaxiong ZHANG, Zaizhen ZHANG, Juncheng QIAO, Maoyun WANG, Dongxia CHEN, Jingli YAO, Jingchen DING, Liang XIONG, Yazhou LIU, Weibo ZHAO, Kebo REN. Complex gas-water contacts in tight sandstone gas reservoirs: Distribution pattern and dominant factors controlling their formation and distribution [J]. Oil & Gas Geology, 2023, 44(5): 1067-1083. |
[11] | Yueli LIANG, Xiaoming ZHAO, Xi ZHANG, Shuxin LI, Jiawang GE, Zhihong NIE, Tingshan ZHANG, Haihua ZHU. Orbital forced high-resolution sequence boundary identification of marine-continental transitional shale and its geological significance: A case in Shan 23 sub-member at the eastern margin of Ordos Basin [J]. Oil & Gas Geology, 2023, 44(5): 1231-1242. |
[12] | Han LI, Jinhua FU, Hancheng JI, Lei ZHANG, Yuwei SHE, Wei GUAN, Xianghui JING, Hongwei WANG, qian CAO, Gang LIU, Jiayi WEI. Bauxite series in the Upper Paleozoic weathering crusts in the southwestern Ordos Basin: Development and distribution of dominant reservoirs [J]. Oil & Gas Geology, 2023, 44(5): 1243-1255. |
[13] | Xiao LI, Peng GUO, Yanzhi HU, Shixiang LI, Weiwei YANG. Experiment and numerical simulation of hydraulic fracturing in lacustrine shale: Taking the Ordos Basin as an example [J]. Oil & Gas Geology, 2023, 44(4): 1009-1019. |
[14] | Jiahong GAO, Zhijun JIN, Xinping LIANG, Shixiang LI, Weiwei YANG, Rukai ZHU, Xiaoyu DU, Quanyou LIU, Tong LI, Lin DONG, Peng LI, Wang ZHANG. The impact of volcanism on eutrophication and water column in a freshwater lacustrine basin: A case study of Triassic Chang 7 Member in Ordos Basin [J]. Oil & Gas Geology, 2023, 44(4): 887-898. |
[15] | Ziyi WANG, Jinhua FU, Xianyang LIU, Shixiang LI, Changhu ZHANG, Xinping LIANG, Lin DONG. The influence of hydrothermal activities on shale oil reservoirs during the burial period of the Upper Triassic Chang 7 Member, Ordos Basin [J]. Oil & Gas Geology, 2023, 44(4): 899-909. |
Viewed | ||||||
Full text |
|
|||||
Abstract |
|
|||||