Genetic types and deposit features of oil shale in continental basin in China
Liu Zhaojun1, 2, Sun Pingchang1, 2, Liu Rong1, 2, Meng Qingtao1, 2, Hu Fei1, 2
1 College of Earth Sciences,Jilin University,Changchun 130061,Jilin; 2 Key Laboratory for Oil Shale and Coexisting Minerals of Jilin Province,Jilin University,Changchun 130061,Jilin
Abstract Scholars at home and abroad have done some effective discussion on the genetic classification of oil shale,however,there is no uniform classification. Considering that most oil shale in China are continental deposits, starting with the sedimentary environment of oil shale,the conclusion that the content of aquatic organism was decreased in the oil shale while the value of terrestrial organic matter was increased from aphytal to semi ̄deep lake to limnetic environments was drawn. Based on the above understanding,continental oil shale could be divided into three genetic types,namely aphytal sapropelic oil shale,semi-deep lake humic-sapropelic oil shale and limnetic sapropelic-humic oil shale. Characteristics of oil shale in 29 continental basins show that the ore of aphytal sapropelic oil shale is always distributed widely in the large to mid ̄sized depression basins and characterized by wide stable lateral distribution and medium oil shale grade and thickness. In addition,aphytal sapropelic oil shale ore in small rift basins is characterized by huge thickness,good quality and small distribution scale and great differences in lateral thickness. Semi-deep lake humic-sapropelic oil shale is distributed in both depression and rift basins,with small distribution scale and significant differences in lateral and vertical quality and thickness. Limnetic sapropelic-humic oil shale are mainly deposited in rift basins characterized by limited distribution,small thickness and high quality.
Corresponding Authors:
About the corresponding author Sun Pingchang,born in 1985,is an instructor in College of Earth Sciences,Jilin University. Now he is engaged in metallogenetic theory of oil shale. E-mail: sunpingchang711@126.com.
About author: Liu Zhaojun,born in 1951,is a professor in College of Earth Sciences,Jilin University. Now he is engaged in metallogenetic theory of oil shale and resource evaluation. E-mail: liuzj@jlu.edu.cn.About the corresponding author Sun Pingchang,born in 1985,is an instructor in College of Earth Sciences,Jilin University. Now he is engaged in metallogenetic theory of oil shale. E-mail: sunpingchang711@126.com.
Cite this article:
Liu Zhaojun,Sun Pingchang,Liu Rong et al. Genetic types and deposit features of oil shale in continental basin in China[J]. JOPC, 2016, 18(4): 525-534.
Liu Zhaojun,Sun Pingchang,Liu Rong et al. Genetic types and deposit features of oil shale in continental basin in China[J]. JOPC, 2016, 18(4): 525-534.
1 姜在兴. 2009. 沉积学. 北京: 石油工业出版社. [Jiang Z X. 2009. Sedimentology. Beijing:Petroleum Industry Press] 2 李宝毅,王建鹏,徐银波,孙平昌. 2012. 断陷和坳陷盆地富有机质泥岩测试参数及研究意义. 世界地质,21(4):778-784. [Li B Y,Wang J P,Xu Y B,Sun P C. 2012. Testing parameters of organic-rich mudstone in faulted basin and depressed basin and their significance. Global Geology,21(4):778-784] 3 刘招君,柳蓉,孟庆涛,郭巍,朱建伟,董清水. 2013. 中国的油页岩. 见: 冯增昭主编. 中国沉积学(第二版). 北京,石油工业出版:1717-1756. [Liu Z J,Liu R,Meng Q T,Guo W,Zhu J W,Dong Q S. 2013. Oil Shale in China. In: Feng Z Z(ed). Sedimentology of China(Second Edition). Beijing:Petroleum Industry Press,1717-1756] 4 刘招君,杨虎林,董清水,朱建伟,郭巍,叶松青,柳蓉,孟庆涛,张海龙,甘树才. 2009a. 中国油页岩. 北京,石油工业出版社:38-116. [Liu Z J,Yang H L,Dong Q S,Zhu J W,Guo W,Ye S Q,Liu R,Meng Q T,Zhang H L,Gan S C. 2009a. Oil Shale in China. Beijing:Petroleum Industry Press,38-116]. 5 刘招君,孟庆涛,柳蓉. 2009b. 中国陆相油页岩特征及成因类型. 古地理学报,11(1):105-114. [Liu Z J,Meng Q T,Liu R. 2009b. Characteristics and genetic types of continental oil shale in China. Journal of Palaeogeography(Chinese Edition),11(1):105-114] 6 钱家麟,王剑秋,李术元. 2006. 世界油页岩综述. 中国能源,28(8):16-19. [Qian J L,Wang J Q,Li S Y. 2006. World oil shale survey. China Energy,28(8):16-19] 7 全国矿产储量委员会. 1987. 矿产工要求参考手册. 地质出版社:83-92. [National Commission on Mineral Reserves. 1987. Mineral Resources for Reference Manual. Beijing:Geological Publishing House,83-92] 8 孙平昌,刘招君,孟庆涛,柳蓉,贾建亮,胡晓峰. 2011. 桦甸盆地古近纪充填特征及对油页岩成矿的影响. 煤炭学报,36(7):1110-1116. [Sun P C,Liu Z J,Meng Q T,Liu R,Jia J L,Hu X F. 2011. Effect of the basin-fill features on oil shale formation in Paleogene Huadian Basin. Journal of China Coal Society,36(7),1110-1116] 9 赵隆业,陈基娘,王天顺. 1990. 中国油页岩物质成分及工业成因类型. 湖北武汉:中国地质大学出版社. [Zhao L Y,Chen J N,Wang T S. 1990. Chinese Oil Shale Composition and Industrial Genetic Types. Hubei Wuhan: China University of Geosciences Press] 10 赵隆业,陈基娘,王天顺. 1991a. 关于中国油页岩的工业成因分类. 煤田地质与勘探,9(5):2-6. [Zhao L Y,Chen J N,Wang T S. 1991a. Industrial-Original Classification of Chinese Oil Shales. Coal Geology and Exploration,19(5):2-6] 11 赵隆业,陈基娘,王天顺. 1991b. 中国油页岩的成分和品级划分. 现代地质,5(4):423-429. [Zhao L Y,Chen J N,Wang T S. 1991b. Grade dividing and composition of oil shale in China. Geoscience,5(4):423-429] 12 邹才能,张国生,杨智,陶士振,侯连华,朱如凯,袁选俊,冉启全,李登华,王志平. 2013. 非常规油气概念、特征、潜力及技术:兼论非常规油气地质学. 石油勘探与开发,40(4):385-399. [Zou C N,Zhang G S,Yang Z,Tao S Z,Hou L H,Zhu R K,Yuan X J,Ran Q Q,Li D H,Wang Z P. 2013. Geological concepts,characteristics,resource potential and key techniques of unconventional hydrocarbon on unconventional petroleum geology. Pertroleum Exploration and Development,40(4):385-399] 13 Cook A C,Sherwood N R. 1991. Classification of oil shales,coals and other organic-rich rocks. Organic Geochemistry,17(2):211-222. 14 Dyni J. R. 2003. Geology and resources of some world oil-shale deposits. Oil Shale,20(3):193-252. 15 Gavin J M. 1924. Oil Shale. Washington: Washington Government Printing Office. 16 Hutton A C. 1985. Determination of shale oil yield by petrographic analysis. Fuel,64(8):1058-1061. 17 Hutton A C. 1987. Petrographic classification of oil shales. International Journal of Coal Geology,8(3):203-231. 18 Smith J W. 1980. Oil shale resources of the United States. Mineral and Energy Resources,23(6):30. 19 Strobl S A I,Sachsenhofer R F,Bechtel A,Gratzer R,Gross D,Bokhari S N H,Liu R,Liu Z J,Meng Q T,Sun P C. 2014. Depositional environment of oil shale within the Eocene Jijuntun Formation in theFushun Basin(NE China). Marine and Petroleum Geology,56,166-183. 20 Strobl S A I,Sachsenhofer R F,Bechtel A,Meng Q T,Sun P C. 2015. Deposition of coal and oil shale in NE China:The Eocene Huadian Basin compared to the coeval Fushun Basin. Marine and Petroleum Geology,64:347-362. 21 Sun P C,Liu Z J,Reinhard G,Xu Y B,Liu R,Li B Y,Meng Q T,Xu J J. 2013a. Oil yield and bulk geochemical parameters of oil shales from the Songliao and Huadian basins,China:A grade classification approach. Oil Shale,30(3):402-418. 22 Sun P C,Sachsenhofer R F,Liu Z J,Strobl S A I,Meng Q T,Liu R,Zhen Z. 2013b. Organic matter accumulation in the oil shale-and coal-bearing Huadian Basin(Eocene;NE China). International Journal of Coal Geology,105:1-15. 23 Tissot B P, Welte D H. 1984. Petroleum Formation and Occurrence. Berlin, New York:Springer-Verlag. 24 Добрянский A Ф. 1947. Горючие сланцы СССР.Л:Гостоптехиздат. 25 Черемовский В Ф. 1988. Месторождения горючих сланцев мира. Москва:Наука. 26 Зеленин Н И, Oзеров N M. 1983. Справочник по Горючим Сланцам. Л:Недра. 27 КузнецовД T. 1975. Горючие сланлы мира. М:Недра. 28 Гинэбург А Н. 1986. Петрографиягорюних сланцев Евродейсково севера СССР Фимичееская харахтеристика их хергена Грючке сданцы NO 1/4.
