Chen Wenxue, Lü Xueyan, Zhou Shengyou, Li Changzheng. Controlling factors of hydrocarbon accumulation and play fairway in North Sakhalin Basin[J]. PETROLEUM GEOLOGY & EXPERIMENT, 2014, 36(5): 589-596. doi: 10.11781/sysydz201405589
Citation: Chen Wenxue, Lü Xueyan, Zhou Shengyou, Li Changzheng. Controlling factors of hydrocarbon accumulation and play fairway in North Sakhalin Basin[J]. PETROLEUM GEOLOGY & EXPERIMENT, 2014, 36(5): 589-596. doi: 10.11781/sysydz201405589

Controlling factors of hydrocarbon accumulation and play fairway in North Sakhalin Basin

doi: 10.11781/sysydz201405589
  • Received Date: 2013-08-06
  • Rev Recd Date: 2014-08-01
  • Publish Date: 2014-09-28
  • Locating in the circum-Pacific fold belts of far-east in Russia, the North Sakhalin Basin is a back-arc basin developed from Mesozoic to Cenozoic. There are three sets of source rocks including shale in the Okobykay Formation of the Upper Miocene, shale in the lower Nutovo Formation of the Upper Miocene, and coal-bearing strata in the Weining Formation of the Lower Miocene and the Dagi Formation of the Lower Miocene. Its main oil production derived from the sandstones in the Dagi Formation of the Middle and Lower Miocene and the lower Nutovo Formation of the Upper Miocene. The major trap types are anticlines, complex faulted anticlines and fault blocks. Oil and gas mainly accumulated in the Sakhalin sub-basin in the northeast, with larger reserves offshore than onshore. Vertically, they were mainly found in the Dagi Formation of the Middle Miocene and the Nutovo Formation of the Upper Miocene. The comprehensive evaluation of reservoir conditions showed that the distribution of oil and gas were mainly controlled by structure and reservoir development. The structural traps formed during the late Pliocene provided spaces for hydrocarbon accumulation, and the folding event which took place from the late Pliocene to Holocene functioned as adjustment and even destruction to traps. The distribution of sandstones in the Dagi Formation of the Middle and Lower Miocene and the Nutovo Formation of the Upper Miocene controlled the plane and vertical distributions of hydrocarbon. Compared to the highly explored onshore area, the offshore area has a great potential, and the exploration targets should be focused on the structural-stratigraphic and stratigraphic traps in the Nutovo and Dagi Formations.

     

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  • [1]
    IHS data:North Sakhalin Basin[DB].2012.
    [2]
    Silverman M R.Exploratory drilling near Sakhalin Island expected to increase[J].Oil and Gas Journal,1990,88(47):73-77.
    [3]
    Silverman M R.Petroleum geology of Sakhalin island,USSR[J].AAPG Bulletin,1990,74(6):764,1001.
    [4]
    Gnibidenko H S,Khvedchuk I I.The tectonics of the Okhotsk Sea[J].Marine Geology,1982,50(3):155-197.
    [5]
    Worrall D M,Kruglya k V,Kunst F,et al.Tertiary tectonics of the Sea of Okhotsk,Russia:far-field effects of the India-Eurasian collision[J].Tectonics,1996,15(4):813-826.
    [6]
    Gnibidenko H S,Khvedchuk I I.Basic features of geology of the Sea of Okhotsk[M]//Origin and history of marginal and inland seas.Utrecht:VNU Science Press,1984,23:19-41.
    [7]
    Gladenkov Y B.Stratigraphy of marine Paleogene and Neogene of Northeast Asia(Chukotka,Kamchatka,Sakhalin)[J].AAPG Bulletin,1980,64(7):1087-1093.
    [8]
    Alabushev A.Sedimentary formations of the Cretaceous Sakhalin basin (far east Asia)[J].Geologische Rundschau,1995,84(2):237-244.
    [9]
    Popovich T A,Kravchenko T I.Genetic characteristics of hydrocarbon composition of oils,North Sakhalin petroleum basin[J].Geologiya Nefti i Gaza,1995(1):40-44.
    [10]
    Lindquist S J.The north Sakhalin Neogene total petroleum system of eastern Russia,Open-File Report 99-50-O.2000.
    [11]
    罗毅,蔡勋育,吕立勇.百色盆地东部坳陷终极资源量预测与勘探方向[J].石油实验地质,2011,33(2):215-218. Luo Yi,Cai Xunyu,Lü Liyong.Ultimate potential resource prediction and exploration target in East depression,Baise Basin[J].Petroleum Geology & Experiment,2011,33(2):215-218.
    [12]
    曾怡.分形法预测油气储量与资源量[J].石油实验地质,1998,20(2):152-154. Zeng Yi.A new method of petroleum resources estimation:fractal method[J].Experimental Petroleum Geology,1998,20(2):152-154.
    [13]
    吕雪雁.沙特鲁卜哈利盆地古生界石油地质特征及勘探潜力分析[J].石油实验地质,2005,27(5):479-483. Lü Xueyan.Petroleum geological characteristics and exploration potential in the Paleozoic of Rub al Khali Basin,Saudi Arabia[J].Petroleum Geology & Expeximent,2005,27(5):479-483.
    [14]
    USGS World Enegy Assessment Team. U.S.Geological Survey world petroleum assessment 2000-description and result.Denver: U.S.Geological Survey,2000.
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