天 然 气 工 业2019年 1 月· 56 ·
Dai Jinxing & Qi Houfa, Relationship of δ13C-R o of coal-derived gas in China[J]. Chine Science Bulletin, 1989, 34(9): 690-692.
性病有什么症状[27] 沈平,徐永昌,王先彬. 气源岩和天然气地球化学特征及成
气机理研究[M]. 兰州: 甘肃科学技术出版社, 1991.
Shen Ping, Xu Yongchang & Wang Xianbin. Study on geochemi-cal characteristics of gas source rock and natural gas and mecha-nism of genesis of gas[M]. Lanzhou: Gansu Science and Technol-ogy Press, 1991.
[28] Thompson KFM. Classification and thermal history of petroleum
bad on light hydrocarbons[J]. Geochimica et Cosmochimica Acta, 1983, 47(2): 303-316.
[29] Thompson KFM. Fractionated aromatic petroleum and the gener-
ation of gas-condensates[J]. Organic Geochemistry, 1987, 11(6): 573-590.
[30] 王培荣, 徐冠军, 张大江, 肖廷荣, 任冬苓. 烃源岩与原油中
轻馏分烃的对比——以胜利油田东营、沾化凹陷为例[J]. 石油与天然气地质, 2013, 34(1): 1-10.
Wang Peirong, Xu Guanjun, Zhang Dajiang, Xiao Tingrong & Ren Dongling. Correlation of light hydrocarbons between source rock and crude: An example from Dongying and Zhanhua De-pressions in Jiyang Subbasin, Bohai Bay Basin[J]. Oil & Gas Geology, 2013, 34(1): 1-10.
窗的英语[31] 王培荣, 赵红, 肖廷荣, 朱翠山, 徐冠军, 张敏, 等. 采用气相
色谱“反吹、微流控”技术分析原油C5—C13轻馏分及其地球化学意义初探[J]. 自然科学进展, 2007, 17(8): 1144-1149.
Wang Peirong, Zhao Hong, Xiao Tingrong, Zhu Cuishan, Xu Guanjun, Zhang Min, et al. Application of backflush and mi-cro-flow techniques to the analysis of C5-C13 hydrocarbons in crude oils and its geochemical significance[J]. Progress in Natural Science, 2007, 17(8): 1144-1149.
[32] Peters KE, Walters CC & Moldowan JM. The biomarker guide:
Interpreting molecular fossils in petroleum and ancient diments (cond edition)[M]. New York: Prentice Hall, 1992.
[33] Zhu Yangming, Weng Huanxin, Su Aiguo, Liang Digang & Peng
Dehua. Geochemical characteristics of Tertiary saline lacustrine oils in the Western Qaidam Basin, Northwest China[J]. Applied Geochemistry, 2005, 20(10): 1875-1889.木器加工
[34] Chen Jianyu, Bi Yanpong, Zhang Jiguo & Li Shuafu. Oil-source
correlation in the Fulin Basin, Shengli petroleum province, East China[J]. Organic Geochemistry, 1996, 24(8/9): 931-940. [35] Hao Fang, Zhou Xinhuai, Zhu Yangming & Yang Yuanyuan.
Mechanisms for oil depletion and enrichment on the Shijiutuo uplift, Bohai Bay Basin, China[J], AAPG Bulletin, 2009, 93(8): 1015-1037.
玉米简笔画图片积少成多的反义词[36] Huang Wenyen & Meinschein WG. Sterols as ecological indi-
重阳节是什么节cators[J]. Geochimica et Cosmochimica Acta, 1979, 43(5): 739-745.
[37] 昝灵, 张枝焕, 王顺华, 邢辉, 李文浩, 刘炜楠, 等. 4-甲基甾
烷在油源对比中的应用——以渤南洼陷北部陡坡带为例[J].
沉积学报, 2012, 30(4): 770-778.
Zan Ling, Zhang Zhihuan, Wang Shunhua, Xing Hui, Li Wenhao, Liu Weinan, et al. Application of 4-methyl steranes in oil-source correlation: A ca study from northern steep slope zone of Bonan Sag[J]. Acta Sedimentologica Sinica, 2012, 30(4): 770-778. [38] 王铁冠, 钟宁宁, 侯读杰, 黄光辉, 包建平, 李贤庆, 等. 低熟
商人用英语怎么说
油气形成机理与分布[M]. 北京: 石油工业出版社, 1995.
Wang Tieguan, Zhong Ningning, Hou Dujie, Huang Guanghui, Bao Jianping, Li Xianqing, et al. Genetic mechanism and occur-rence of immature hydrocarbon[M]. Beijing: Petroleum Industry Press, 1995.
(修改回稿日期 2018-11-26 编 辑 陈古明)
中国石油准噶尔盆地南缘高泉构造带高探1井喜获高产油气
1月6日,中国石油新疆油田公司在准噶尔盆地南缘下组合勘探又获重大突破,位于新疆乌苏市境内的风险探井——高探1井喜获高产油气流,日产原油1 213 m3、天然气32.17×104 m3,井口压力32.4 MPa,创准噶尔盆地单井日产量最高纪录。
山东省教育招生考试高探1井的重大突破,是准噶尔盆地油气勘探史上的重要里程碑,证实了准噶尔盆地南缘冲断带油气富集,勘探潜力巨大,对全面加快整个南缘地区规模勘探进程意义重大。目前,新疆油田已在南缘冲断带下组合落实构造21个、面积1 800 km2,勘探前景十分广阔。
准噶尔盆地南缘是几代石油地质家们高度关注、坚持探索的重大勘探领域,油气资源十分丰富,储盖组合匹配良好,沿天山北麓发育长达400 km的大型背斜构造带,具备形成世界级前陆盆地大油气田的地质条件。以往准噶尔南缘勘探主要针对上组合,先后发现了呼图壁、玛河等5个中小型油气田。2007年以来,针对南缘下组合,持续组织开展综合研究、地震攻关和目标探索。2008—2013年,先后钻探西湖1井、独山1井、大丰1井,见良好油气显示,但由于圈闭落实程度低和工程作业难度未获突破。2017年,在新一轮地质研究和物探技术攻关的基础上,针对下组合大构造优选高泉背斜部署钻探高探1井,并于2018年上钻,设计井深5 980 m,终获重大突破。
(天工 摘编自《中国石油报》)