[1] |
ALEXEEV A D, VASILENKO T A, ULYANOVA E V. Closed porosity in fossil coals [J]. Fuel, 1999, 78(6):635-638.
|
[2] |
李祥春,聂百胜,何学秋. 振动诱发煤与瓦斯突出的机理[J].北京科技大学学报,2011,33(2): 149-152.LI Xiangchun, NIE Baisheng, HE Xueqiu. Mechanism of coal and gas bursts caused by vibration [J]. Journal of University of Science and Technology Beijing, 2011, 33(2):149-152.
|
[3] |
李希建,林柏泉,施天虎. 贵州典型矿区突出煤孔隙结构及其吸附特性实验研究[J]. 采矿与安全工程学报,2013,30(3): 415-419.LI Xijian, LIN Baiquan, SHI Tianhu. Experiment study on pore structures of outbrust coal and its adsorption at typical mining fields in Guizhou province [J]. Journal of Mining and Safety Engineering, 2013, 30 (3):415-419.
|
[4] |
林海飞,程博,李树刚,等. 煤的吸附孔结构对瓦斯放散特性影响的实验研究[J]. 采矿与安全工程学报,2016,33(3): 557-563.LIN Haifei,CHENG Bo,LI Shugang,et al. Experimental study on the effect of adsorption pore structure on gas emission characteristics [J]. Journal of Mining and SafetyEngineering, 2016, 33 (3):557-563.
|
[5] |
何学秋,聂百胜. 孔隙气体在煤层中扩散的机理[J]. 中国矿业大学学报,2001,30(1): 1-4.HE Xueqiu, NIE Baisheng. Diffusion mechanism of porous gases in coal seams [J]. Journal of China University of Mining and Technology, 2001, 30(1):1-4.
|
[6] |
聂百胜,伦嘉云,王科迪,等. 煤储层纳米孔隙结构及其瓦斯扩散特征[J]. 地球科学,2018,43(5): 1 755-1 762.NIE Baisheng, LUN Jiayun, WANG Kedi, et al. Characteristics of nanometer pore structure in coal reservoirs [J]. Earth Sciences, 2018, 43(5): 1 755-1 762.
|
[7] |
富向,王魁军,杨天鸿. 构造煤的瓦斯放散特征[J].煤炭学报,2008,33(7): 775-779.FU Xiang, WANG Kuijun, YANG Tianhong. Gas irradiation feature of tectonic coal [J]. Journal of China Coal Society, 2008, 33(7):775-779.
|
[8] |
李子文,郝志勇,庞源,等. 煤的分形维数及其对瓦斯吸附的影响[J]. 煤炭学报,2015,40(4): 863-869.LI Ziwen, HAO Zhiyong, PANG Yuan, et al. Fractal dimensions of coal and their influence on methane adsorption [J]. Journal of China Coal Society, 2015, 40(4):863-869.
|
[9] |
赵迪斐,郭英海,毛潇潇,等. 基于压汞、氮气吸附与FE-SEM的无烟煤微纳米孔特征[J]. 煤炭学报,2017,42(6): 1 517-1 526.ZHAO Difei, GUO Yinghai, MAO Xiaoxiao, et al. Characteristics of macro-nanopores in anthracite coal based on mercury injection,nitrogen adsorption and FE SEM [J]. Journal of China Coal Society, 2017, 42(6):1 517-1 526.
|
[10] |
宋晓夏,唐跃刚,李伟,等. 中梁山南矿构造煤吸附孔分形特征[J]. 煤炭学报,2013,38(1): 134-139.SONG Xiaoxia, TANG Yuegang, LI Wei, et al. Fractal characteristics of adsorption pores of tectonic coal from Zhongliangshan southern coalmine [J]. Journal of China Coal Society, 2013, 38(1):134-139.
|
[11] |
彭鑫,江泽标,李波波,等. 二氧化碳致裂对煤岩孔隙表面分形特征影响实验研究[J]. 中国安全生产科学技术,2019,15(2): 111-117.PENG Xin,JIANG Zebiao,LI Bobo,et al. Experimental study on influence of CO2 cracking on surface fractal characteristics of coal pore [J]. Journal of Safety Science and Technology, 2019, 15(2):111-117.
|
[12] |
陈刘瑜,李希建,毕娟,等. 黔北构造煤与原生结构煤解吸初期特征研究[J]. 煤炭科学技术,2019,47(2): 107-113.CHEN Liuyu, LI Xijian, BI Juan, et al. Study on characteristics of initial desorption of tectonic coal and primary structural coal in northern Guizhou [J]. Coal Science and Technology, 2019, 47(2):107-113.
|
[13] |
李希建,沈仲辉,刘钰. 黔西北构造煤与原生结构煤孔隙结构对吸解特性影响实验研究[J]. 采矿与安全工程学报,2017,34(1): 170-176.LI Xijian, SHEN Zhonghui, LIU Yu. The experimental research on the impact of porestructure in tectonic coal and primary structure coal on gas adsorption-desorption [J]. Journal of Mining and Safety Engineering, 2017, 34(1):170-176.
|
[14] |
BUDAEVA A D,ZOLTOEV E V. Porous structure and sorption properties of nitrogen-containing activated carbon [J]. Fuel, 2010, 89(9):2 623-2 627.
|
[15] |
RIGBY S P.Predicting surface diffusivities of molecules from equilibrium adsorption isotherms [J]. Colloids and Surfaces A Physicochemical and Engineering Aspects, 2005, 262(1):139-149.
|
[16] |
闫江伟,薄增钦,杨亚磊. 纳米级孔隙对构造煤吸附瓦斯能力的影响[J]. 中国安全科学学报,2018,28(10): 131-136.YAN Jiangwei, BO Zengqin, YANG Yalei. Influence of nanoscale pore on gas adsorption capacity of deformed coal [J]. China Safety Science Journal, 2018,28(10):131-136.
|