[1] Thomas D. Brown, Dennis N. Smith, Richard A. Hargis, et al. Mercury measurement and its control: What we know, have learned, and need to further investigate. Journal of the Air & Waste Management Association, 1999,49(6):628-640
[2] 王起超,沈文国,麻壮伟. 中国燃煤汞排放量估算.中国环境科学,1999,19(4):318-321 Wang Qichao, Shen Wenguo, Ma Zhuangwei. The estimation of mercury emission from coal combustion in China. China Environmental Science, 1999,19(4):318-321(in Chinese)
[3] 刘桂建,彭子成,王桂梁.煤中微量元素研究进展.地球科学进展,2002,17(1):53-62 Liu Guijian,Peng Zicheng, Wang Guiliang, et al. Study on trace elements in coal. Advance in Earth Sciences, 2002,17(1):53-62(in Chinese)
[4] Aurora Rubel, Rodney Andrews, Rolando Gonzalez, et al. Adsorption of Hg and NOx on coal by-products. Fuel, 2005, 84(7): 911-966
[5] Granite E. J., Pennline H. W., Hargis R. A. Novel sorbents for mercury removal from flue gas. Ind. & Eng. Chem. Re., 2000, 39(4): 1020-1029
[6] Hassett D. J., Eylands K. E. Mercury capture on coal fly ash. Fuel, 1999, 78(2): 243-248
[7] Senior C., Bustard C. J., Durham M., et al. Characterization of fly ash from full-scale demonstration of sorbent injection for mercury control on coal-fired power plants. Fuel Processing Technology, 2004,85 (6):601-612
[8] 江贻满,段钰锋,杨祥花,等. ESP 飞灰对燃煤锅炉烟气汞的吸附特性. 东南大学学报,2007,37 (3):436-440 Jiang Yiman,DuanYufeng, Yang Xianghua, et al. Adsorption characterization of coal fired flue gasmercuryby ESP fly ashes. Journal of Southeast University,2007,37 (3):436-440(in Chinese)
[9] 王启超,马如龙.煤及灰渣中的汞.中国环境科学,1997,17(1):76-79 Wang Qichao, Ma Rulong.The mercury in coal and its cinder. China Environmental Science, 1997,17(1):76-79(in Chinese)
[10] Ghorishi S. B.,Sedman C. B.Low concentration mercury sorption mechanisms and control by calcium-based sorbents:Application in coal-fired processes.Journal of the Air & Waste Management Association,1998,48(12):1191-1198
[11] Olson E.,Miller S.,Sharma R.Catalytic effects of carbon sorbents for mercury capture.Journal of Hazardous Materials,2000,74(1): 61-79
[12] Aeschliman D.,Norton G.Collection and thermal evolution behaviors of different mercury species captured with gold.Environmental Science & Technology,1999,33(13):2278-2283
[13] Scala F. Modeling mercury capture in coal-fired power plant flue gas. Industrial & Engineering Chemistry Research, 2004,43(10):2575-2589
[14] 刁永发, 孟婧,王欢,等. 滤料负载飞灰CaO吸附剂脱除Hg0的试验研究. 东华大学学报,2013,39(2):223-229 Diao Yongfa,Meng Jing,Wang Huan, et al. Experimental study on Hg0 removal by filter material loaded with fly ash-CaO adsorbent. Journal of Donghua University,2013,39(2):223-229(in Chinese)
[15] Lee W., Bae G. N. Removal of elemental mercury (Hg0) by nanosized V2O5/TiO2 catalysts. Environmental Science & Technology, 2009, 43(5): 1522-1527
[16] Ghorishi S., Lee C., Jozewicz W., et al. Effects of fly ash transition metal content and flue gas HCl/SO2 ratio on mercury speciation in waste combustion. Environ. Eng. Sci., 2005, 22(2):221-231
[17] Zhuang Y., Thompson J. S., Zygarlicke C. J., et al. Impact of calcium chloride addition on mercury transformations and control in coal flue gas. Fuel, 2007,86(15):2351-2359
[18] Hall B.,Schager P.,Lindqvist O.Chemical reactions of mercury in combustion flue gases.Water,Air and Soil Pollution,1991,56(1):3-14
[19] Niksa S., Fujiwara N .Predicting extents of mercury oxidation in coal-derived flue gases. Journal of the Air & Waste Management Association,2005,55(7):930-939
[20] 陈玲,李彩亭,高招,等. MnOx/HZSM-5去除烟气中元素态汞的实验研究. 中国环境科学, 2010,30(8):1026-1031 Chen Ling,Li Caiting,Gao Zhao, et al. Experimental sdudy of removing mercury from flue gas by MnOx/HZSM-5. China Environmental Seience, 2010,30(8):1026-1031(in Chinese)