TANG Shu-heng,ZHANG Jing-ping,WU Min-jie . The Pore Structure Characteristic about the Sapropelic Coal[J]. Natural Gas Geoscience, 2013 , 24(2) : 247 -251 . DOI: 10.11764/j.issn.1672-1926.2013.02.247

［1］Yang Ruidong,Chen Wei,Zhou Ruxian.Characteristics of organic-rich shale and exploration area of shale gas in Guizhou province［J］.Natural Gas Geoscience,2012,23(2):340-347.［杨瑞东，程伟，周汝贤.贵州页岩气源岩特征及页岩气勘探远景分析［J］.天然气地球科学，2012,23(2):340-347.］

［2］Bodoev N V,Guet J M,Gruber R,et al.Bazarova O.FT-ir and XRD analysis of sapropelitic coals［J］.Fuel,1996,75(7):839-842.

［3］Rokosov Y V,Uskov S I,Muhamodiyarov R A,et al.New Model Genetic Substances as Possible Contributors To Sapropelitic Kerogen and Primary Crude Oil［R］.Prospects For Coal Science in the 21st Century,1999:227-230.

［4］Xiao Xianming,Cheng Dingsheng.Studies on the coalification of the sapropelitic coal［J］.Coal Geology & Exploration,1992,20(2):21-29.［肖贤明,程顶胜.腐泥煤的煤化作用研究［J］.煤田地质与勘探,1992,20(2):21-29.］

［5］Xie Guangxin,Li Xiaoyan,Zhuang Jun.Classification,forming conditions and characteristic of sclerotia-algal coals,China［J］.Coal Geology & Exploration,2001,29(3):10-13.［解光新,李小彦,庄军.中国菌藻类煤的成因分类、形成条件及其特征［J］.煤田地质与勘探,2001,29(3):10-13.］

［6］Liu Guijian,Yang Pingyue,Ping Zicheng,et al.Comparative study of chemical compositon of paragenetic sapropelic coal and humic coal from Zibo coalfield［J］.Geology Geochemistry,2003,31(1):23-26.［刘桂建,杨萍玥,彭子成,等.淄博煤田共生腐泥煤与腐植煤化学组成对比［J］.地质地球化学,2003,31(1):23-26.］

［7］Wang Feiyu,He Zhiyong,Meng Xiaohui,et al.Occurrence of shale gas and prediction of original gas in-place(OGIP)［J］.Natural Gas Geoscience,2011,22(3):501-510.［王飞宇,贺志勇,孟晓辉,等.页岩气赋存形式和初始原地气量（OGIP）预测技术［J］.天然气地球科学,2011,22(3):501-510.］

［8］Jiang Wenli,Zhao Suping,Zhang Jinchuan,et al.Comparison of controlled factorsfor coalbed methane and shale gas accumulation［J］.Natural Gas Geoscience,2010,21(6):1057-1060.［姜文利,赵素平,张金川,等.煤层气与页岩气聚集主控因素对比［J］.天然气地球科学,2010,21(6):1057-1060.］

［9］Tang Shuheng,Cai Chao,Zhu Baocun,et al.Control effect of coal metamorphic degree on physical properties of coal reservoirs［J］.Natural Gas Industry,2008,28(12):30-33.［唐书恒,蔡超,朱宝存,等.煤变质程度对煤储层物性的控制作用［J］.天然气工业,2008,28(12):30-33.］

［10］Ning Zhengwei,Chen Xia.Relations between metamorphism and coal-bed gas reservoiring of Carbonic-Permian in north China［J］.Oil & Gas Geology,1996,17(2):156-159.［宁正伟,陈霞.华北石炭二叠系煤化变质程度与煤层气储集性的关系［J］.石油与天然气地质,1996,17(2):156-159.］

［11］Zhang Xinming.Coalbed methan:The important potential part of Chinese gas industry［J］.Natural Gas Industry,1991,(3):13-16.［张新民.煤层甲烷——我国天然气工业的重要潜在领域［J］.天然气工业,1991,(3):13-16.］

［12］Zhong Lingwen,Zhang Xinming.Relations between adsorption and metamorphism or composition of coal［J］.Coal Geology & Exploration,1990,18(4):29-35.［钟玲文,张新民.煤的吸附能力与其煤化程度和煤岩组成之间的关系［J］.煤田地质与勘探,1990,18(4):29-35.］

［13］Zhang Hui.Genetical type of proes in coal reservoir and its research significance［J］.Journal of Coal Science & Engineering,2001,26(1):40-44.［张慧.煤孔隙的成因类型及其研究［J］.煤炭学报,2001,26(1):40-44.］

［14］Zhang Hui.SEM Research of Coal in China［M］.Beijing:Geological Publishing House,2003.［张慧.中国煤的扫描电子显微镜研究［M］.北京:地质出版社,2003.］

［15］Dong Dazhong,Zou Caineng,Li Jianzhong,et al.Resource potential,exploration and development prospect of shale gas in the whole world［J］.Geological Bulletin of China,2011,30(2):325-333.［董大忠,邹才能,李建忠,等.页岩气资源潜力与勘探开发前景［J］.地质通报,2011,30（2）:325-333.］

［16］Zou Caineng,Yang Zhi,Tao Shizhen,et al.Nano-hydrocarbon accumulation in coexisting source andreservoir［J］.Petroleum Exploration and Development,2012,39(1):13-25.［邹才能,杨智,陶士振,等.纳米油气与源储共生型油气聚集［J］.石油勘探与开发，2012,39(1):13-25.］

［17］Chen Ping,Tang Xiuyi.The research on the adsorption of nitrogen in low temperature and micro-pore properties in coal［J］.Journal of Coal Science & Engineering,2001,26(5):552-556.［陈萍,唐修义.低温氮吸附法与煤中微孔隙特征的研究［J］.煤炭学报,2001,26(5):552-556.］

［18］Zhao Zhigen,Tang Xiuyi.Study of micropore in coal by low-temperature nitrogen adsorption method and its significance［J］.Coal Geology & Exploration,2001,29(5):28-30.［赵志根,唐修义.低温液氮吸附法测试煤中微孔隙及其意义［J］.煤田地质与勘探,2001,29(5):28-30.］