[1] |
1.Teichmuller M and Wolf M. Application of fluorescence microscopy in coal petrology and oil exploration. J Mi-croscopy, 1977, 109: 49— 73. 2.Teichmuller M and Ottenjann K. Art und Diagenese v on Liptiniten und Lipoiden stoffen in einem Erdolmut-teryestein auf Grund fluoreszenzmidroskopischer untersuchungen. Erdol u kohle, 1977, 30: 387-398. 3.Teichmller M. Application of coal petrological methods in g eology including oil and gas prospecting, In: Stach,E (Editor ), Stach's Tex tbook of coal petrology. Berlin, 1982, 381-413. 4.Robert P. The optical evolution of kerogen and geo thermal histories applied to oil and gas ex ploration. In: Durand,B (Editor), kerogen, Technip, Paris, 1980, 385-414. 5. Alpern B. The petrolog y of kerogen. In: Durand, B (Editor ), Kerog en, Technip, paris, 1980, 284-321. 6.Hotton A C. Organic matter in oil shale. APEA J, Sydhey, N SW, 1980, 20:44— 63. 7. Pradier B, et al. Chemical basis of fluorescence alteration of crude oils and kerog ens- Ⅱ. Fluorescence and infraredmicro-spectrometric analysis of vitrinite and Liptinite. Org Geochem, 1992, 18 (3): 241-248. 8.Ganz H H. Application of infrared spectroscopy to the classification of kerog en types and the evaluation of sourcerock and oil shale potentials. Fuel, 1987, 66. 9.Jacky Kister, et al. Characterization of chemical structure, degree of maturation and oil potential of quantitativeFTIR spectroscopy. Fuel, 1990, 69. 10.董庆年. 煤结构研究中的傅立叶变换红外光谱. 见: 《近代傅立叶变换红外光谱技术及应用》, 吴瑾光主编, 科学技术文献出版社, 北京: 1994, 63-88. 11.Rui Lin, et al. Studying individual macerals using i. r. microspectroscopy and implications on oil versus gas / con-densate proneness and “ Low - rank ” g eneration. Org Geochem, 1993, 20 (6):695-706. 12.Alpern B. Detection and evalution of hydrocarbons in source rocks by fluo rescence microscopy. Org Geochem,1993, 20 (6): 789— 795. 13.Durand B (Editor). kerogen. 中译本, 100-119. 14.肖贤明著. 有机岩石学及其在油气评价中的应用. 广东科技出版社, 1992, 105-109 。 |