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| 东营凹陷原油、储层吸附烃全扫描荧光特征与应用 | |
| 引用本文: | 李素梅,庞雄奇,刘可禹,金之钧.东营凹陷原油、储层吸附烃全扫描荧光特征与应用[J].地质学报,2006,80(3):439-445. |
| 作者姓名: | 李素梅 庞雄奇 刘可禹 金之钧 |
| 作者单位: | 1. 石油天然气成藏机理教育部重点实验室,石油大学,北京,102249;石油大学盆地与油藏研究中心,北京,102249 2. CSIRO Petroleum, P.O. Box 1130, Bentley WA 6102, Australia 3. 中国石化石油勘探开发研究院,北京,100083 |
| 基金项目: | 国家“973”重大基础研究规划项目(编号G1999043310)资助成果 |
| 摘 要: | 应用全扫描荧光分析(TSF、QGF-E)技术对东营凹陷沙河街组40个原油、15个储层包裹烃、39个储层砂吸附烃的三维荧光特征进行了定性与定量分析。分析表明,原油与包裹烃的TSF指纹特征总体相似,均为单峰型,指示油气成因具有内在的联系。观察到不同原油TSF强度峰宽与最高值有异,低成熟度样品往往具有较高的TSF强度及较宽的峰。进一步分析表明,原油TSF最高强度、TSF定量参数R1270nm(Em360nm/Em320nm)]、R2260nm(Em360nm/Em320nm)]与生物标志物成熟度参数C29甾烷ααα20S/(S+R)、Ts/(Tm+Ts)等有较好的线性正相关性,反映TSF荧光指纹特征及其定量参数可作为一种温标用于热成熟度分析。应用TSF技术确认东营凹陷中央隆起带原油成熟度具有自西南向东北逐渐降低的变化规律,其反映了油源与油气充注方面的重要信息。对东营凹陷牛庄洼陷两口井的储层砂的QGF-E分析表明,颗粒样品所在层段的烃类含量普遍较高,反映致密薄层砂、微裂缝等可能为该洼陷岩性油气藏重要的隐蔽型油气运移通道。TSF、QGF-E技术在油气族群、储层含油气性、油气运移路径与油层识别等方面具有广泛的应用前景。 |
| 关 键 词: | TSF QGF-E 荧光指纹 成熟度 隐蔽油气运移通道 |
| 修稿时间: | 2005年11月14 |
Characteristics and Application of Total Scanning Fluorescence for Oils and Reservoir Rock Extracts from the Dongying Depression |
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| LI Sumei,PANG Xiongqi,LIU Keyu ,JIN Zhijun Key Laboratory for Hydrocarbon Accumulation.Characteristics and Application of Total Scanning Fluorescence for Oils and Reservoir Rock Extracts from the Dongying Depression[J].Acta Geologica Sinica,2006,80(3):439-445. | |
| Authors: | LI Sumei~ PANG Xiongqi~ LIU Keyu~ JIN Zhijun~ Key Laboratory for Hydrocarbon Accumulation |
| Institution: | LI Sumei~,PANG Xiongqi~,LIU Keyu~ ,JIN Zhijun~ Key Laboratory for Hydrocarbon Accumulation |
| Abstract: | Totally 40 normal oils, 15 fluid inclusion oils and 39 reservoir rock extracts from the Dongying Depression were investigated using TSF (Total Scanning Fluorescence) and GQF-E (Quantitative Grain Fluorescence on Extract) techniques combined with biomarker analysis to unravel their 3-D fluorescence features characteristically and quantitatively. It was observed that both the normal oils and the inclusion oils show generally similar TSF fingerprints with only one spectral peak, suggesting close genetic relationship of the oils. It was also observed that the peak-wide and maximum intensity of the TSF increase with decreasing oil maturity. The results show good positive relationship between the TSF indices i.e., TSF intensity, TSF R1(=Em_ 360nm /Em_ 320nm ) as well as TSF R2(=Em_ 360nm /Em_ 320nm ) and the biomarker maturity parameters, i.e., C_ 29 sterane 20S/(S+R), Ts/(Tm+Ts), which suggest that the former can be used as potential indicators of thermal maturity. According to the TSF thermal indices, we observed the oils in the Central Uplift of the Dongying Depression that exhibit a decreasing thermal maturity trend from the southwest to the northeast, indicating variation of the oil sources and primary oil charging direction. QGF-E analysis of the tight sand or siltstone extracts from Niu876 and Wang 550 wells in the Niuzhuang Sag showed that most of the samples bear relatively strong TSF intensity, indicating existence of relatively high abundance of hydrocarbons and therefore possibly well development of subtle oil-migrating pathways such as thin sand/siltstone and microfissure in the Niuzhuang Sag, which is significant for the formation of the subtle oil pools in the Niuzhuang Sag by connecting lithologic traps and deep source rocks. This study shows good prospect of the TSF and QGF-E techniques in discriminating oil group, evaluating maturity and identifying oil migration pathway as well as paleo-oil layer. |
| Keywords: | TSF QGF-E spectral fingerprint maturity subtle oil-migration pathway |
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