引文
[1] ONIFADE M,GENC B.Comparative analysis of coal and coal-shale intrinsic factors affecting spontaneous combustion[J].International Journal of Coal Science & Technology,2018,5(3):282-294.
[2] KUENZER C,STRACHER G B.Geomorphology of coal seam fires[J].Geomorphology,2012,138(1):209-222.
[3] DIJK P V,ZHANG J,WANG J,et al.Assessment of the contribution of in-situ combustion of coal to greenhouse gas emission;based on a comparison of Chinese mining information to previous remote sensing estimates[J].International Journal of Coal Geology,2011,86(1):108-119.
[4] WU J J,LI X C.Risk assessment of underground coal fire development at regional scale[J].International Journal of Coal Geology,2011,86(1):87-94.
[5] ZHAO Y,ZHANG J,CHOU C L,et al.Trace element emissions from spontaneous combustion of gob piles in coal mines,Shanxi,China[J].International Journal of Coal Geology,2008,73(1):52-62.
[6] ZHANG J Z,KUENZER C.Thermal surface characteristics of coal fires 1:Results of in-situ measurements[J].Journal of Applied Geophysics,2007,63(3):117-134.
[7] SHAO Z,WANG D,WANG Y,et al.Theory and application of magnetic and self-potential methods in the detection of the Heshituoluogai coal fire,China[J].Journal of Applied Geophysics,2014,104(1):64-74.
[8] LU P,LIAO G X,SUN J H,et al.Experimental research on index gas of the coal spontaneous at low-temperature stage[J].Journal of Loss Prevention in the Process Industries,2004,17(3):243-247.
[9] XUE S,DICKSON B,WU J.Application of222Rn technique to locate subsurface coal heatings in Australian coal mines[J].International Journal of Coal Geology,2008,74(2):139-144.
[10] FENG Y,PENG S P,MA J W,et al.Spectral analysis for ground penetrating radar surveys of the underground coal fire in Wuda Coal Mine[J].Journal of China Coal Society,2010,35(5):770-775.
[11] CHEN Y,JING,L,BO Y,et al.Detection of coal fire location and change based on multi-temporal thermal remotely sensed data and field measurements[J].International Journal of Remote Sensing,2007,28,3173-3179.
[12] QIN B,WANG H,YANG J,et al.Large-area goaf fires:A numerical method for locating high-temperature zones and assessing the effect of liquid nitrogen fire control[J].Environmental Earth Sciences,2016,75(21):1396.
[13] 王俊峰.煤地下自燃时覆岩中氡气运移规律及应用研究[D].太原:太原理工大学,2010.WANG Junfeng.Radon migration in overlying strata during spontaneous combustion of coal underground and its application[D].Taiyuan:Taiyuan University of Technology,2010.
[14] XUE S,WANG J,XIE J,et al.A laboratory study on the temperature dependence of the radon concentration in coal[J].International Journal of Coal Geology,2010,83(1):82-84.
[15] 刘艳.煤升温氧化过程中氡的析出与自然发火指标气体关系的实验研究[D].太原:太原理工大学,2007.LIU Yan.Experimental study on the relationship of radon emanation and mark gases in the process of coal oxidation[D].Taiyuan:Taiyuan University of Technology,2010.
[16] ETIOPE G,MARTINELLI G.Migration of carrier and trace gases in the geosphere:An overview[J].Physics of the Earth & Planetary Interiors,2002,129(3):185-204.
[17] KRISTIANSSON K,MALMQVIST L.Trace elements in the geogas and their relation to bedrock composition[J].Geoexploration,1987,24(6):517-534.
[18] MALMQVIST L,KRISTIANSSON K.A physical mechanism for the release of free gases in the lithosphere[J].Geoexploration,1985,23(4):447-453.
[19] MALMQVIST L,ISAKSSON M,KRISTIANSSON K.Radon migration through soil and bedrock[J].Geoexploration,1989,26(2):135-144.
[20] 谢和平,周宏伟,薛东杰,等.煤炭深部开采与极限开采深度的研究与思考[J].煤炭学报,2012,37(4):535-542.XIE Heping,ZHOU Hongwei,XUE Dongjie,et al.Research and consideration on deep coal mining and critical mining depth[J].Journal of China Coal Society,2012,37(4):535-542.
[21] SAFFARI Amir,SERESHKI Farhang,ATAEI Mohammad,et al.Presenting an engineering classification system for coal spontaneous combustion potential[J].International Journal of Coal Science & Technology,2017,4(2):110-128.
[22] ONIFADE M,GENC B.Modelling spontaneous combustion liability of carbonaceous materials[J].International Journal of Coal Science & Technology 2018,5(2):191-212.
[23] DENG J,XIAO Y,LI Q,et al.Experimental studies of spontaneous combustion and anaerobic cooling of coal[J].Fuel,2015,157:261-269.
[24] WEN H,YU Z,DENG J,et al.Spontaneous ignition characteristics of coal in a large-scale furnace:An experimental and numerical investigation[J].Applied Thermal Engineering,2017,114:583-592.
[25] LU W,CAO Y J,CTIEN J.Method for prevention and control of spontaneous combustion of coal seam and its application in mining field[J].International Journal of Mining Science and Technology,2017,27(5):839-846.
[26] 赵耀江,邬剑明.测氡探火机理的研究[J].煤炭学报,2003,28(3):260-263.ZHAO Yaojiang,WU Jianming.Study on mechanism of detecting underground fire by radon measurement technique[J].Journal of China Coal Society,2003,28(3):260-263.