[1]Cao Daiyong,Li Xiaoming,Zhang Shouren.The influence of tectonic stress on coalification:Mechanism of stress degradation and condensation[J].Science in China:Serial D,2006,36(1):59-68.[曹代勇,李小明,张守仁.构造应力对煤化作用的影响——应力降解与应力缩聚机制[J].中国科学:D辑,地球科学,2006,36(1):59-68.]
[2]Zhu Xingshan,Xu Fengyin.The controlling effect of tectonic stress field and its evolution on coal and gas outburst[J].Journal of China Coal Society,1994,19(3):304-314.[朱兴珊,徐凤银.论构造应力场及其演化对煤与瓦斯突出的主控作用[J].煤炭学报,1994,19(3):304-314.]
[3]Hower J C.Observations on the role of the Bernice coal field anthracites in the development of coalification theories in the Appalachians[J].International Journal of Coal Geology,1997,33(2):95-102.
[4]Chen Jingang,Zhang Jingfei.Systematic control of structures on permeability of high coal rank reservoirs[J].Natural Gas Geoscience,2007,18(1):134-136.[陈金刚,张景飞.构造对高煤级煤储层渗透率的系统控制效应——以沁水盆地为例[J].天然气地球科学,2007,18(1):134-136.]
[5]Zhang Le,Jiang Zaixing,Guo Zhenting.Relationship between structural stress and hydrocarbon bearing pool formation[J].Natural Gas Geoscience,2007,18(1):32-35.[张乐,姜在兴,郭振廷.构造应力与油气成藏关系[J].天然气地球科学,2007,18(1):32-35.]
[6]Ju Yiwen,Jiang Bo,Hou Quanlin,et al.13C NMR spectrum of deformed coal and stress effect of its composition[J].Science in China:Serial D,2005,35(9):847-861.[琚宜文,姜波,侯泉林,等.构造煤13C NMR谱及其结构成份的应力效应[J].中国科学:D辑,2005,35(9):847-861.]
[7]Ye Chaohui,Li Xinan.Solid high resolution 13C NMR spectrum of coal[J].China Science Bulletin,1985,30(20):1545-1547.[叶朝辉,李新安.煤的固体高分辨率13C NMR谱[J].科学通报,30(20):1545-1547.] [8]Qin Kuangzong,Zhao Piyu.Study on the structural features of Huangxian lignite by solid state 13C NMR[J].Journal of Fuel Chemistry and Technology,1990,18(1):1-7.[秦匡宗,赵丕裕.用固体13C核磁共振技术研究黄县褐煤的化学结构[J].燃料化学学报,1990,18(1):1-7.]
[9]Bartuska V J,Maciel G B.Prospects for carbon-13 nuclear magnetic resonance analysis of solid fossil fuel material[J].Fuel,1977,56(4):354-357.
[10]Huai H,Groombridge C J,Scott A C,et al.13C solid state NMR spectra of Shanxi coals[J].Fuel,1996,75(1):71-77.
[11]Qin Kuangzong,Guo Shaohui.The application of NMR in solid fossil energy[J].Chinese Journal of Magnetic Resonance,1995,12(5):451-457.[秦匡宗,郭绍辉.NMR在固体化石能源中的应用[J].波谱学杂质,1995,12(5):451-457.]
[12]Ma Zhiru,Zhang Pengzhou,Zhao Xiurong.High resolution solid state 13C NMR study of Fengfeng fat coal[J].Journal of Fuel Chemistry and Technology,1996,24(3):251-255.[马志茹,张蓬洲,赵秀荣,等.峰峰肥煤的固体高分辨率核磁共振研究[J].燃料化学学报,1996,24(3):251-255.]
[13]Xu Xiufeng,Zhang Pengzhou.The study of carbon structure by solid 13C NMR and XPS[J].Coal Conversion,1995,18(4):58-61.[徐秀峰,张蓬洲.高分辨率固体 13C NMR和XPS技术表征碳的骨架结构[J].煤炭转化,1995,18(4):58-61.]
[14]Barwise A J G,Mann A L,Eglinton G,et al.Kerogen characterization by 13C NMR spectroscopy and pyrolysis-mass spectrometry[J].Organic Geochemistry,1984,(6):343-349.
[15]Zhu Suyu,Li Fan,Li Xianglan,et al.Construction of structure model for coal extracts based on NMR and FTIR spectra[J].Journal of Fuel Chemistry and Technology,1994,22(4):433-437.[朱素渝,李凡,李香兰,等.用核磁共振和红外光谱构造煤抽提物的结构模型[J].燃料化学学报,1994,22(4):433-437.]
[16]Chen Lingxia,Wan Zhirong,Li Xiaoming.The influence of tectonic stress on coalification and its gas disaster[J].Coal Geology and Exploration,2009,37(5):11-14.[陈玲霞,王志荣,李小明.构造应力对煤化作用的影响及其瓦斯灾害性[J].煤田地质与勘探,2009,37(5):11-14.]
[17]Cao Daiyong.Research of the Detachement Structures in the Southern Part of North China Coal-accumulation Belt[D].Beijing:China University of Mining and Technology(Beijing),1990:1-67.[曹代勇.华北聚煤区南部滑脱构造研究[D].北京:中国矿业大学(北京),1990:1-67.]
[18]Wang Guiliang,Cao Daiyong,Jiang Bo.The Thrust Nappe Extensional Gliding Nappe and Gravity Sliding Structure of Southern Part of North China[M].Xuzhou:China University of Mining and Technology Press,1992:1-168.[王桂梁,曹代勇,姜波.华北南部逆冲推覆伸展滑覆和重力滑动构造[M].徐州:中国矿业大学出版社,1992:1-168.]
[19]Ma Xingyuan,Suo Shutian,You Zhendong,et al.Tectonic Deformation of Mount Songshan:Gravity Structure,Structural Analysis[M].Beijing:Geological Publishing House,1981:1-256.[马杏垣,索书田,游振东,等.嵩山构造变形——重力构造、构造解析[M].北京:地质出版社,1981:1-256.]
[20]Tapponnier P,Molnar P.Slip line field theory and large scale continental tectonics[J].Nature,1976,264(5584):319-324.
[21]Vann I R,Graham R H,Hayward A B.The structure of mountain fronts[J].Journal of Structural Geology,1986,8(/4):215-227.
[22]Wilson M A,Pugmire R J,Karas J,et al.Carbon distribution in coals and coal macerals by cross polarization magic angle spinning carbon-13 nuclear magnetic resonance spectrometry[J].Analysis Chemistry,1984,56(6):933-943.
[23]Supaluknari S,Burgar I,Larkins F P.High-resolution solid-state 13C NMR studies of Australian coals[J].Organic Geochemistry,1990,15(5):509-519.
[24]Franco D V,Gelan J M,Martens H J,et al.Characterization by 13C CP/MAS NMR spectroscopy of the structural changes in coals after chemical treatments[J].Fuel,1991,70(7):811-816.
[25]Solum M S,Pugmire R J,Grant D M. 13C solid-stste NMR of Argonne premium coals[J].Energy and Fuels,1989,32(2):187-193.
[26]Denis L W.13C Nuclear magnetic resonance studies of kerogen from Cretaceous black shales thermally altered by basaltic intrusions and laboratory simulations[J].Geochimica et Cosmochimica Acta,1982,46(6):901-907.
[27]Yang Qi.Coal Metamorphism in China[M].Beijing:China Coal Industry Publishing House,1996:162-185.[杨起.中国煤变质作用[M].北京:煤炭工业出版社,1996:162-185.]
[28]Yu Shilin,Li Yinwei.Spectral Analysis[M].Chongqing:Chongqing University Press,1994:125-130.[于世林,李寅蔚.波谱分析法[M].重庆:重庆大学出版社,1994:125-130.]
[29]Wang Z R,Chen L X,Cheng C R,et al.Forecast of gas geological hazards for “three-soft” coal seams in gliding structural area[J].Journal of China University of Mining and Technology,2007,17(4):484-488.