Charging of the Neogene Penglai 19-3 field, Bohai Bay Basin, China: Oil accumulation in a young trap in an active fault zone
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Fang Hao | Xinhuai Zhou | Yangming Zhu | Xiaohuan Bao | Yuanyuan Yang | Fang Hao | Xinhuai Zhou | Yuanyuan Yang | Yangming Zhu | Xiaohuan Bao
[1] J. Curiale. Oil-source rock correlations - Limitations and recommendations , 2008 .
[2] R. Summons,et al. Origin of Nama Basin bitumen seeps: Petroleum derived from a Permian lacustrine source rock traversing southwestern Gondwana , 2008 .
[3] G. Zheng,et al. Geochemical study of crude oils from the Xifeng oilfield of the Ordos basin, China , 2008 .
[4] W. England. Reservoir geochemistry — A reservoir engineering perspective , 2007 .
[5] M. Taviani,et al. The deep-water counterpart of the Messinian Lower Evaporites in the Apennine foredeep: The Fanantello section (Northern Apennines, Italy) , 2007 .
[6] B. Simoneit,et al. Origin of petroliferous bitumen from the Büyük Menderes–Gediz geothermal graben system, Denizli – Sarayköy, western Turkey , 2007 .
[7] J. Zumberge,et al. Circum-Arctic petroleum systems identified using decision-tree chemometrics , 2007 .
[8] B. Bennett,et al. The influence of source depositional conditions on the hydrocarbon and nitrogen compounds in petroleum from central Montana, USA , 2007 .
[9] L. M. Sharaf,et al. Oil Families and Their Potential Sources in the Southern Gulf of Suez, Egypt , 2007 .
[10] A. Gartrell,et al. A new model for assessing trap integrity and oil preservation risks associated with postrift fault reactivation in the Timor Sea , 2006 .
[11] M. Fustic,et al. 25-Norhopanes: Formation during biodegradation of petroleum in the subsurface , 2006 .
[12] B. Dahl,et al. Geochemical characterisation and genetic origin of oils and condensates in the South Viking Graben, Norway , 2006 .
[13] V. Dieckmann,et al. Source rock heterogeneity of the Upper Jurassic Draupne Formation, North Viking Graben, and its relevance to petroleum generation studies , 2006 .
[14] W. Huanxin,et al. Geochemical characteristics of Tertiary saline lacustrine oils in the Western Qaidam Basin, northwest China , 2005 .
[15] J. Zumberge,et al. Charging of Elk Hills reservoirs as determined by oil geochemistry , 2005 .
[16] C. Walters,et al. The Biomarker Guide , 2004 .
[17] N. Harris,et al. The character and origin of lacustrine source rocks in the Lower Cretaceous synrift section, Congo Basin, west Africa , 2004 .
[18] N. Pasadakis,et al. Definition and characterization of petroleum compositional families in Williston Basin, North America using principal component analysis , 2004 .
[19] J. M. Moldowan,et al. Controls of oil family distribution and composition in nonmarine petroleum systems: A case study from the Turpan-Hami basin, northwestern China , 2004 .
[20] Yanhua Zhang,et al. Enhanced hydrocarbon leakage at fault intersections: an example from the Timor Sea, Northwest Shelf, Australia , 2003 .
[21] P. Albrecht,et al. Application of tetracyclic polyprenoids as indicators of input from fresh-brackish water environments , 2003 .
[22] A. Carroll,et al. Lake-type controls on petroleum source rock potential in nonmarine basins , 2001 .
[23] K. Peters. Petroleum tricyclic terpanes: predicted physicochemical behavior from molecular mechanics calculations , 2000 .
[24] Fang Hao,et al. Thermal Regime, Interreservoir Compositional Heterogeneities, and Reservoir-Filling History of the Dongfang Gas Field, Yinggehai Basin, South China Sea: Evidence for Episodic Fluid Injections in Overpressured Basins? , 2000 .
[25] M. J. Pearson,et al. Source rock palaeoenvironments and controls on the distribution of dibenzothiophenes in lacustrine crude oils, Bohai Bay Basin, eastern China , 1999 .
[26] Fang Hao,et al. Geology, Compositional Heterogeneities, and Geochemical Origin of the Yacheng Gas Field, Qiongdongnan Basin, South China Sea , 1998 .
[27] H. B. Lo,et al. Source Rocks and Oil Families, Southwest Maracaibo Basin (Catatumbo Subbasin), Colombia , 1998 .
[28] L. Snowdon,et al. Debolt Formation Oil-Source Systems: 1. Crude Oil Families in the Dunvegan-Blueberry Area of Alberta and British Columbia , 1998 .
[29] Xiong Ying,et al. MULTIPLE PETROLEUM SYSTEMS IN TERTIARY EXTENSIONAL BASINS, EAST CHINA: A CASE STUDY OF THE GUNAN‐FULIN BASIN , 1998 .
[30] A. Hindle. Petroleum Migration Pathways and Charge Concentration: A Three-Dimensional Model , 1997 .
[31] S. Larter,et al. Petroleum Migration, Alteration, and Remigration Within Troll Field, Norwegian North Sea , 1997 .
[32] Jianyu Chen,et al. Oil-source correlation in the Fulin basin, Shengli petroleum province, East china , 1996 .
[33] J. Hayes,et al. Evidence for gammacerane as an indicator of water column stratification. , 1995, Geochimica et cosmochimica acta.
[34] B. Simoneit,et al. Tricyclic terpanes in Precambrian bituminous sandstone from the eastern Yanshan region, North China , 1995 .
[35] K. Peters,et al. Multiple Oil Families in the West Siberian Basin , 1994 .
[36] Hao Fang,et al. THE CAUSE AND MECHANISM OF VITRINITE REFLECTANCE ANOMALIES , 1992 .
[37] C. Boreham,et al. Secular and environmental constraints on the occurrence of dinosterane in sediments , 1992 .
[38] D. Waples,et al. Application of sterane and triterpane biomarkers in petroleum exploration , 1990 .
[39] R. Philp,et al. Geochemical Characterization of Evaporite and Carbonate Depositional Environments and Correlation of Associated Crude Oils in the Black Creek Basin, Alberta , 1989 .
[40] J. Rullkötter,et al. Tetrahymanol, the most likely precursor of gammacerane, occurs ubiquitously in marine sediments , 1989 .
[41] M. I. Venkatesan. Tetrahymanol: Its widespread occurrence and geochemical significance , 1989 .
[42] D. Leythaeuser,et al. Heterogeneity of oil composition within a reservoir as a reflection of accumulation history , 1989 .
[43] D. Welte,et al. Petroleum Formation and Occurrence , 1989 .
[44] W. A. England,et al. The movement and entrapment of petroleum fluids in the subsurface , 1987, Journal of the Geological Society.
[45] Kenneth E. Peters,et al. Guidelines for Evaluating Petroleum Source Rock Using Programmed Pyrolysis , 1986 .
[46] E. J. Ebukanson,et al. KEROGEN FACIES IN THE MAJOR JURASSIC MUDROCK FORMATIONS OF SOUTHERN ENGLAND AND THE IMPLICATION ON THE DEPOSITIONAL ENVIRONMENTS OF THEIR PRECURSORS , 1985 .
[47] Fang Hao,et al. Petroleum migration and accumulation in the Bozhong sub-basin, Bohai Bay basin, China: Significance of preferential petroleum migration pathways (PPMP) for the formation of large oilfields in lacustrine fault basins , 2007 .
[48] C. Key,et al. EVOLUTION OF SEDIMENTARY SYSTEM AND ANALYSIS OF SEDIMENTARY SOURCE IN PALEOGENE OF BOZHONG SAG,BOHAI BAY , 2006 .
[49] H. Volk,et al. Geochemical comparison of fluid inclusion and present-day oil accumulations in the Papuan Foreland – evidence for previously unrecognised petroleum source rocks , 2005 .
[50] Gong Zai-sheng. Neotectonics and Petroleum Accumulation in Offshore Chinese Basins , 2004 .
[51] Steve Larter,et al. Shaken but not always stirred. Impact of petroleum charge mixing on reservoir geochemistry , 2004, Geological Society, London, Special Publications.
[52] Kenneth E. Peters,et al. Applications of petroleum geochemistry to exploration and reservoir management , 2002 .
[53] Guo Tai-xia. Geological characteristics and hydrocarbon accumulation pattern of Penglai 19-3 oil field. , 2001 .
[54] D. Edwards,et al. THE PETROLEUM GEOCHEMISTRY OF OILS AND SOURCE ROCKS FROM THE NORTHERN BONAPARTE BASIN, OFFSHORE NORTHERN AUSTRALIA , 2000 .
[55] J. Sarg,et al. A New Geochemical-Sequence Stratigraphic Model for the Mahakam Delta and Makassar Slope, Kalimantan, Indonesia , 1999 .
[56] M. Abrams,et al. Oil Families and Their Potential Sources in the Northeastern Timan Pechora Basin, Russia , 1997 .
[57] S. Larter,et al. Reservoir geochemistry: methods, applications and opportunities , 1995, Geological Society, London, Special Publications.
[58] Hao Fang,et al. Application of organic facies studies to sedimentary basin analysis: a case study from the Yitong Graben, China , 1993 .
[59] G. Eglinton,et al. Application of biological markers in the assessment of paleoenvironments of Chinese non-marine sediments , 1990 .
[60] W. A. England,et al. The organic geochemistry of petroleum reservoirs , 1990 .
[61] S. Brassell,et al. Biological marker compounds as indicators of the depositions! history of the Maoming oil shale , 1986 .
[62] P. Albrecht,et al. The microbial input in carbonate-anhydrite facies of a sabkha palaeoenvironment from Guatemala: A molecular approach , 1986 .
[63] R. Philp,et al. Biomarker distributions in Australian oils predominantly derived from terrigenous source material , 1986 .
[64] D. Anders,et al. South Florida Basin--A Prime Example of Carbonate Source Rocks of Petroleum , 1984 .