天然气地球科学
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天然气地球科学 ›› 2010, Vol. 21 ›› Issue (2): 331–337.doi: 10.11764/j.issn.1672-1926.2010.02.331

• 天然气地球化学 • 上一篇    下一篇

松辽盆地长岭断陷天然气地球化学特征及气源分析

昝灵, 张枝焕, 黄军平, 何欣, 冯如进, 吴聿元, 费佳佳, 李文洁   

  1. 1.中国石油大学油气资源与探测国家重点实验室, 北京 102249;
    2.中国石油勘探开发研究院, 北京 100083;3.中国石化股份公司华东分公司, 江苏 南京  210011
  • 收稿日期:2009-06-29 修回日期:2009-11-03 出版日期:2010-04-10 发布日期:2010-04-10
  • 通讯作者: 昝灵zl442100@163.com. E-mail:l442100@163.com.
  • 作者简介:昝灵(1984-),男,湖北房县人,博士研究生,主要从事油气成藏研究.

Geochemical Characteristics of Natural Gas and Its Origin in Changling Fault Depression of Songliao Basin, Northeastern China

ZAN Ling, ZHANG Zhi-Huan, HUANG Jun-Ping, HE Xin, FENG Ru-Jin, WU Yu-Yuan, FEI Jia-Jia, LI Wen-Ji   

  1. 1. State Key Laboratory of Petroleum Resource and Prospecting, China University of Petroleum,
    Beijing  102249,China; 2. Research Institute of Petroleum Exploration and Development,
    PetroChina, Beijing 100083; 3. East China Branch of SINOPEC, Nanjing 210011, China
  • Received:2009-06-29 Revised:2009-11-03 Online:2010-04-10 Published:2010-04-10

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摘要:

长岭断陷下白垩统营城组和登娄库组获得高产工业性气流或良好的气显示,生储盖组合配置比较有利,勘探前景十分广阔。在对长岭断陷部分探井天然气样品的化学组分和碳同位素组成特征剖析的基础上,综合多种天然气成因判别标准以及典型图版,探讨了天然气的成因类型,并结合研究区地质背景和烃源岩发育特征,与徐家围子断陷天然气成因加以对比,对其气源进行初步判识。研究结果表明,长岭断陷天然气烃类气体主要为甲烷,重烃含量低,干燥系数大于0.95,处于高成熟—过成熟阶段,烃类气体碳同位素值偏高,并存在同位素倒转现象,非烃气体包括CO2和N2,不同构造带天然气成分差别大。烃类气体属于腐殖型裂解气,CO2以无机成因为主。气源分析表明,研究区烃类气主要来源于沙河子组腐殖型烃源岩的裂解气,其次为营城组,火石岭组或更深层源岩的贡献较小。

关键词: 长岭断陷, 天然气, 组分, 碳同位素, 成因类型, 气源分析

Abstract:

The industrial gas flow with high production or gas show in the lower Crataceous Yingcheng Formation and Denglouku Formation of Changling fault depression was gotten, with favorable combination of source-reservoir-cap, suggesting good exploration prospect. Based on chemical and carbon isotopic compositions of natural gas from Changling fault depression, the genetic types of natural gas was discussed, in combination with standard of gas classification and empirical pattern. Based on geologic background and geochemistry of source rock, the gas source correction was also discussed, in comparison with origin of natural gas from Xujiaweizi fault depression. In natural gas from Changling fault depression, CH4 is dominant gas, with low content of heavy alkane gas and dryness coefficient more than 0.95, suggesting high\|over mature stage of thermal maturity.Hydrocarbon gas is enriched in 13C, with reversal trend of stable carbon isotope of alkane gases with carbon number. Non\|hydrocarbon gas is CO2 and N2, but chemical composition of natural gas is distinct at different structural belts. Alkane gas is of thermally decomposed gas origin source from humic kerogen, but CO2 was sourced from inorganic gas. Alkane gas was mainly sourced from Shahezi formation humic source rock, then from Yingcheng Formation, a little contribution of gas from Huoshiling Formation or underneath would exist.

Key words: Changling Fault Depression, Natural gas, Chemical composition, Carbon isotope, Genesis, Gas source correlation

中图分类号: 

  • TE122.1+13

[1]Mi Jingkui, Zhang Shuichang, Tao Shizhen,et al.Genesis and accumulation period of the CO2 in ChangLing fault depression of Songliao basin, northeastern China[J].Natural Gas Geoscience, 2008,19(4):452 -456.[米敬奎,张水昌,陶士振,等.松辽盆地南部长岭断陷CO2成因与成藏期研究[J].天然气地球科学,2008.19(4):452 -456.]
 [2]Song Yan, Xu Yongchang.Origin and identification of natural gases[J].Petroleum Exploration and Development, 2005, 32(4):24 -29.[宋岩,徐永昌.天然气成因类型及其鉴别[J].石油勘探与开发, 2005,32(4):24 -29.]
 [3]  Dai Jinxing.Carbon and hydrogen isotope characteristic and identification of natural gases[J].Natural Gas Geoscience, 1993,4(2/3):1 -40.[戴金星.天然气碳氢同位素特征和各类天然气的鉴别[J].天然气地球科学,1993,4(2/3):1 -40.]
 [4] Dai Jinxing,Song Yan,Cheng Kunfang, et al.Characteristics of carbon isotopes of organic alkane gases in petroliferous basins of China[J].Acte Petrolei Sinica,1993,14(2):23 -31.[戴金星,宋岩,程坤芳,等.中国含油气盆地有机烷烃气碳同位素特征[J].石油学报,1993,14(2):23 -31.]
 [5] Dai Jinxing,Zou Caineng,Zhang Shuichang, et al.Identification of organic alkane gases and inorganic alkane gases [J].Science in China:Series D, 2008,38(11):1329 -1341.[戴金星,邹才能,张水昌,等.无机成因和有机成因烷烃气的鉴别[J].中国科学:D辑,2008,38(11):1329 -1341.]
 [6] Liu Ting, Mi Jingkui, Zhang Min.Carbon isotopic reversal numerical simulation of deep -seated gases,Songliao basin[J].Natural Gas Geoscience,2008,19(5):722 -726.[刘婷,米敬奎,张敏.松辽盆地深层天然气碳同位素倒转数值模拟[J].天然气地球科学,2008,19(5):722 -726.]
 [7] Chen Ying,Dai Jinxing,Qi Houfa.On some theoretical and methodological topics of biogenic gas studies[J].Experimental Petroleum Geology, 1994,16(3):209 -218.[陈英, 戴金星,戚厚发.关于生物气研究中几个理论及方法问题的研究[J].石油实验地质, 1994,16(3):209 -218.]
 [8]  Gang Wenzhe,Gao Gang,Hao Shisheng, et al.Carbon isotope of ethane applied in the analyses of genetic types of natural gas[J].Experimental Petroleum Geology, 1997,19(2):164 -167.[刚文哲,高岗,郝石生, 等.论乙烷碳同位素在天然气成因类型研究中的应用[J].石油实验地质, 1997,19(2):164 -167.]
 [9] Feng Fukai,Wang Tingbin,Zhang Shiya, et al.China Natural Gas Geology[M].Beijing: Geological Publishing House,1995.[冯福闿,王庭斌,张士亚,等.中国天然气地质[M].北京:地质出版社,1995.]
[10] Dai Jinxing,Pei Xigu,Qi Houfa.China Natural Gas Geology(volume 1)[M].Beijing:Petroleum Industry Press,1992.[戴金星, 裴锡古, 戚厚发.中国天然气地质学(卷一) [M].北京:石油工业出版社,1992.]
[11]  Zhang Shiya,Gao Jianjun,Jiang Tairan.A new method to identify the genetic types of natural gas using methane and ethane carbon isotopes[C]Research of China Coal Derived Gas.Beijing: Geological Publishing House,1988.[张士亚,郜建军,蒋泰然.利用甲乙烷碳同位素判别天然气类型的一种新方法[C]中国煤成气研究.北京:地质出版社,1988.]
[12] Huang Difan,Xiong Chuanwu,Yang Junjie.Gas source distribution and natural gas genetic types of central gas field in E′erduosi basin[J].Natural Gas Industry, 1996,16(6):1 -5.[黄第藩,熊传武,杨俊杰.鄂尔多斯盆地中部气田气源判识和天然气成因类型[J].天然气工业,1996,16(6):1 -5.][13] Feng Zihui, Liu Wei.A study of genetic type of deep gas in Xujiaweizi fault depression[J].Natural Gas Industry, 2006, 26(6):18 -20.[冯子辉,刘伟.徐家围子断陷深层天然气的成因类型研究[J].天然气工业, 2006,26(6):18 -20.]
[14]  Huang Haiping, Yang Yufeng,Chen Fajing, et al. Xujiaweizi faulted the formation of deep gas [J].Earth Science Frontiers, 2000,7(4):515 -522.[黄海平,杨玉峰,陈发景,等.徐家围子断陷深层天然气的形成[J].地学前缘,2000,7(4):515 -522.]
[15] Li Jingkun,Liu Wei,Song Lanbin,et al.New method of investigating the mixing proportion of natural gas and its application[J].Natural Gas Industry, 2006,25(3):14 -16.[李景坤,刘伟,宋兰斌,等.天然气混合比例研究新方法及其应用[J].天然气工业, 2006,25(3):14 -16.]
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