| 光谱学与光谱分析 |
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| Elementary Investigation on the Application of Laser Raman Microprobe in Petroleum Exploration |
| HE Mou-chun, Lü Xin-biao, LIU Yan-rong |
| The Faculty of Earth Resources, China University of Geosciences,Wuhan 430074, China |
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Abstract Laser Raman Microprobe (LRM) is a micro-analytical technique for determining molecular components. Base on the summarization of the applications of LRM in petroleum exploration, the authors analyzed fluid inclusions(FI) and organic matters, and found that this technique could not only research qualitatively different phase components of single fluid inclusions and the types of organic substances, but also determine quantitatively each phase component of single fluid inclusions and the indexes of maturation of vitrinite. It is concluded that it is feasible to calculate the salinity of single FI by ωB% NaCl=61.183S-22.173 and the reflectance(R0) of vitrinite by R0(%)=0.69 ln(82.12 D-16 054.49)-4.88.
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Received: 2003-08-06
Accepted: 2003-12-12
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Corresponding Authors:
HE Mou-chun
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| Cite this article: |
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HE Mou-chun,Lü Xin-biao,LIU Yan-rong. Elementary Investigation on the Application of Laser Raman Microprobe in Petroleum Exploration [J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2004, 24(11): 1363-1366.
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http://www.gpxygpfx.com/EN/Y2004/V24/I11/1363 |
[1] WU Xin-he,XIANG Shu-zhen(伍新和,向书政). Petroleum Exploration and Development(天然气勘探与开发),2000,23(3):29.
[2] LU Huan-zhang(卢焕章). Journal of Guilin Institute of Technology(桂林工学院学报),2000,20(1):82.
[3] Lü Xin-biao, YAO Shu-zhen, HE Mou-chun(吕新彪,姚书振,何谋春). Earth Science Frontiers(地学前缘). 2001,8(4):429.
[4] HE Mou-chun, ZHANG Zhi-jian(何谋春,张志坚). Rock and Mineral Analysis(岩矿测试),2001,20(1):45.
[5] CHENG Guang-xu(程光煦). The Principle and Application of Raman and Brillouin Scattering(拉曼和布里渊散射——原理及应用). Beijing: Publishing Company of Science(北京:科学技术出版社),2001. 1.
[6] HAO Fang,CHEN Jian-yu,SUN Yong-chuan et al(郝 芳, 陈建渝, 孙永传等). Acta Sedimentologica Sinica(沉积学报),1994,12(4): 77.
[7] HU Kai,LIU Ying-jun,Wilkins R W T et al(胡 凯,刘英俊,Wilkins R W T等). Geology Sciences(地质科学),1993, 28(3): 235.
[8] Wilkins R W T et al. CSIOR Division of Exploration Geosciences, 1989, 36:3.
[9] Jehlicka J, Beny C. Journal of Molecular Structure, 1999,(480-481): 541.
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