准噶尔盆地东北缘航空高光谱油气微渗漏探测及地质验证
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摘要
准噶尔盆地东北缘乌伦古坳陷油气成藏潜力巨大,目前其勘探工作较少,亟待低成本,高效率,大面积的油气普查,以圈定潜在油气勘探靶区。利用航空高光谱数据,结合野外实测光谱,提取研究区油气微渗漏引起的烃类及相关蚀变矿物信息。结果显示,研究区的油气渗漏异常区具有环带状分布特征。野外查证发现,部分异常区具有地表晕环状分带、粘土化、碳酸盐化和植被中毒等油气渗漏相关的地质特征。渗漏的烃类以层状、条带状、斑点状和吸附式等四种形式富集地表。油气以烃分子形式沿断裂、裂缝等通道垂向逸散,具有"烟囱效应"。研究区油气渗漏受控于断层、不整合面和揉皱构造等。结合区域构造演化史和油气成藏史,认为研究区大规模的油气渗漏可能开始于燕山期,在喜山期达到渗漏高峰。并认为研究区中部隆起带具有较好的油气成藏潜力,是下一步油气勘探的重点区域。
The Wulungu depression, located in the northeastern margin of Junggar basin, is of great potential for hydrocarbon accumulation. However, less exploration has been performed in this area and a low-cost, high-efficiency and wide-area oil reconnaissance survey is needed urgently to outline target areas of optimized oil and gas reservoir. In this study, airborne hyperspectral, geological verification and oil and gas chemical exploration are used to evaluate the hydrocarbon exploration potential and related altered minerals data. The results show that oil and gas micro-seepage anomalous are characterized by circular zonation. Field survey also suggests that the part of anomalous areas has some geological features(such as circular zonation on surface, clayization, carbonatization and vegetation poisoning etc), which all are related oil-gas seepage. Seepage hydrocarbon was accumulated near the surface in four forms, stratiform, stripe, massive spots and adsorption. Oil and gas migrated along faults and fractures in the form of hydrocarbon molecule, which is so-called chimney effect. The hydrocarbon micro-seepage in the study area is controlled by unconformity structure, secondary thrust fault and corrugation structure. According to regional tectonic evolution and hydrocarbon accumulation history, authors suggest that a large-sized oil and gas seepage may start from the Yanshanian, and reach to a peak in Himalayan period. It can be concluded in this study that the uplift in the middle of study area is of good potential for gas-oil accumulation and will be the key area for future oil-gas exploration.
The Wulungu depression, located in the northeastern margin of Junggar basin, is of great potential for hydrocarbon accumulation. However, less exploration has been performed in this area and a low-cost, high-efficiency and wide-area oil reconnaissance survey is needed urgently to outline target areas of optimized oil and gas reservoir. In this study, airborne hyperspectral, geological verification and oil and gas chemical exploration are used to evaluate the hydrocarbon exploration potential and related altered minerals data. The results show that oil and gas micro-seepage anomalous are characterized by circular zonation. Field survey also suggests that the part of anomalous areas has some geological features(such as circular zonation on surface, clayization, carbonatization and vegetation poisoning etc), which all are related oil-gas seepage. Seepage hydrocarbon was accumulated near the surface in four forms, stratiform, stripe, massive spots and adsorption. Oil and gas migrated along faults and fractures in the form of hydrocarbon molecule, which is so-called chimney effect. The hydrocarbon micro-seepage in the study area is controlled by unconformity structure, secondary thrust fault and corrugation structure. According to regional tectonic evolution and hydrocarbon accumulation history, authors suggest that a large-sized oil and gas seepage may start from the Yanshanian, and reach to a peak in Himalayan period. It can be concluded in this study that the uplift in the middle of study area is of good potential for gas-oil accumulation and will be the key area for future oil-gas exploration.
引文
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Chen Zhankun, Xie Guojun, Zhang Fushun. 2010. Petroleum geologic characteristics and exploration strategy in Wulungu depression of Juggar basin. XinJiang Geology, 28(1):61~64 (in Chinese with English abstract).
Chen Shengbo, Zhao Ying, Zhao Liang, Liu Yanli, Zhou Chao. 2017. Hydrocarbon micro-seepage detection by altered minerals mapping from airborne hyper-spectral data in Xifeng oilfield, China. Journal of Earth Science, 28(4): 656~665.
Cloutis E A. 1989. Spectral reflectance properties of hydrocarbons: remote-sensing implications. Science, 245(4914):165~168.
Cui Xin, Li Jianghai, Wang Yunzeng, Liu Zhonglan, Zhang Hongwei, Qi Linhai. 2016. Characteristic and control factors of fracture development in the basement of Sudeerte structural belt, Hailaer basin. Geological Review, 62 (5): 1257~1269 (in Chinese with English abstract).
Du Xiaodi, Tang Yue, Liu Changde, Li Zhao, Wang Haida. 2015. The application of aerial hyperspectral technology to the geological survey for oil and gas in theeast Junggar basin. Geology in China, 42(1): 275~287 (in Chinese with English abstract).
Ellis J M, Davis H H, Zamudio J A. 2001. Exploring for onshore oil seeps with hyperspectral imaging. Oil and Gas Journal, 99(37):49~58.
Ganfuping, Dong Xinfeng, Yanbokun, Liang Shuneng. 2018. Research progress of spectrometry geological remote sensing. Journal of Nanjing University of Information Science and Technology (Natural Science Edition), 10(1):44~62 (in Chinese with English abstract).
He Dengfa, Li Di, Fan Chun, Yang Xiaofa. 2013. Geochronology, geochemistry and tectonostratigraphy of Carboniferous strata of the deepest well Moshen-1 in the Junggar basin, northwest China: insights into the continental growth of central Asia. Gondwana Research, 24(2):560~577.
Hu Di, Li Chuan, Dong Qianqian, Li Liming, Li Guanghe, 2014. Compositions and residual properties of petroleum hydrocarbon in contaminated soil of the oilfields. Environmental Science, 35(1): 227~232 (in Chinese with English abstract).
Huang Shaohua,Qin Mingkuan, Xu Qiang, He Zhongbo, Liu Zhangyue, SELBY David. 2018. Superimposed uranium metallogenosis between hydrocarbon fluid and supergene oxidation fluid in the northwest margin of Junggar basin. Acta Geologica Sinica, 92(7): 1493~1506 (in Chinese with English abstract).
Khan S D, Jacobson S. 2008. Remote sensing and geochemistry for detecting hydrocarbon microseepages. Geological Society of America Bulletin, 120(1-2): 96~105.
Li Donghui, He Jingcong. 2012. Analysis on hydrocarbon accumulation system in Wulungu depression of Junggar basin. Petroleum Geology and Engineering, 26(2):9~13 (in Chinese with English abstract).
Li Guangzhi, Bi Wentao, Hu Bin, Zhang Zongyuan, Zhou Qiong, Gao Wei, Yu Rongxin. 2016. The application of the phenanthrene indicator in the oil and gas geochemical exploration.Natural Gas Geoscience, 27(6):1067~1073 (in Chinese with English abstract).
Li Qianqian, Xu Ning. 2015. Current status of hyperspectral techniques for oil and gas exploration in vegetation covering area. Journal of Geomechanics, 21(2):142~150 (in Chinese with English abstract).
Li Tao, Zhao Shujuan, Li Sanzhong, Yu Shan, Lou Da, Suo Yanhui, Wang Xuebin, Sun Wenjun, Yang Chao, Dai Liming. 2015. The features of nappe structure in the northeastern Juggar basin. Geological Review, 61(2):356~366 (in Chinese with English abstract).
Li Zhizhong, Wang Daming, Liu Dechang, Liu Yinnian, Zhao Huijie, Dang Fuxing. 2015. Hyperspectral remote sensing technology and its progress in resources exploration.Earth Science-Journal of China University of Geosciences, 40(8):1287~1294 (in Chinese with English abstract).
Liu Na, Yin Ping, Zhu Zhigang, Liu Jinqing, Hou Guohua, Lin Xuehui, Yan Dongyun, Zhang Daolai. 2016. Distribution, sources and ecological risk assessment of PAHs in surface sediments from the Dagu river estuary in Jiaozhou bay. China. Marine Environmental Science, 35(6):831~837 (in Chinese with English abstract).
Lu Yingcheng, Hu Chuanmin, Shun Shaojie, Zhang Weimin, Zhou Yang, Shi Jing, Wen Yansha. 2016. Overview of optical remote sensing of marine oil spills and hydrocarbon seepage. Journal of Remote Sensing, 20(05): 1259~1269 (in Chinese with English abstract).
Marzec P, Sechman H, Kasperska M, Cichost?pski K, Guzy P, Pietsch K, Por?bski S J. 2018. Interpretation of a gas chimney in the Polish Carpathian foredeep based on integrated seismic and geochemical data. Basin Research, 30(S1):210~227.
Qin Mingkuan, He Zhongbo, Liu Zhangyue, GuoQiang, Song Jiye, Xu Qiang. 2017. Study on metallogenicenvironments and prospective direction of sandstone type uranium deposits in Junggar basin. Geological Review, 63(5):1255~1267 (in Chinese with English abstract).
Qin, Qiming, Zhang Zili, Chen Li, Wang Nan, Zhang Chengye. 2016. Oil and gas reservoir exploration based on hyperspectral remote sensing and super-low-frequency electromagnetic detection. Journal of Applied Remote Sensing, 10(1): 016017.
Ran Tao, Li Shuanglin, Zhang Min, Zhang Nianli. 2014. Distribution and source identification of polycyclic aromatic hydrocarbon of surface sediments from the center part of Bohaisea, China. Marine Geology Frontier, 30(12):30~35 (in Chinese with English abstract).
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