Hsi H C,Tsai C Y,Kuo T H,et al.Development of low-concentration mercury adsorbents from biohydrogen- generation agricultural residues using sulfur impregnation [J].Bioresource Technology,2011,102(16):7470-7477.
[2]
Mukherjee A B,Zevenhovenb R,Bhattacharya P,et al.Mercury flow via coal and coal utilization by-products:a global perspective[J].Resources,Conservation and Recycling,2008,52(4):571-591.
[3]
Zhuang Y,Thompson J S,Zygarlicke C J,et al.Impact of calcium chloride addition on mercury transformations and control in coal flue gas[J].Fuel,2007,84(15):2351-2359.
[4]
Wang Y J,Duan Y F,Huang Z J,et al.Vapor-phase elemental mercury adsorption by Ca(OH)2 impregnated with MnO2 and Ag in fixed-bed system[J].Asia-Pacific Journal of Chemical Engineering,2010,5(3):479-487.
[5]
Niksa S,Fujiwara N.Estimating Hg emissions from coal-fired power stations in China[J].Fuel,2009,88(1):214-217.
[6]
Lee S H,Rhim Y J,Cho S P,et al.Carbon-based novel sorbent for removing gas-phase mercury[J].Fuel,2006,85(2):219-226.
[7]
Pavlish J H,Thompson J S,Martin C L,et al.Fabric filter bag investigation following field testing of sorbent injection for mercury control at TXU's Big Brown Station[J].Fuel Processing Technology,2009,90(11):1424-1429.
[8]
Bustard C J,Durham M,Lindsey C,et al.Full-scale evaluation of mercury control with sorbent injection and COHPAC at Alabama Power E.C.Gaston[J].Air &Waste Management Association,2002,52(8):918-926..
[9]
Jones A P,Hoffmann J W,Smith D N,et al.DOE/NETL°s phase II mercury control technology field testing program:preliminary economic analysis of activated carbon injection[J].Environmental Science and Technology,2007,41(4):1365-1371.
[10]
Serre S D,Gullett B K,Ghorishi S B.Entrained-flow adsorption of mercury using activated carbon[J].Air &Waste Management Association,2001,51(5):733-741.
[11]
Lee S S,Lee J Y,Keener T C.Bench-scale studies of in-duct mercury capture using cupric chloride-impregnated carbons[J].Environmental Science and Technology,2009,43(8):2957-2962.
[12]
中国环境科学研究院.GB 13223—2011 火电厂大气污染物排放标准[S].北京:中国环境科学出版社,2011.Chinese Research Academy of Environmental Sciences.GB 13223—2011 power plant air pollutant emission standards[S].Beijing:Environmental Science Press of China,2011(in Chinese).
[13]
高洪亮,周劲松,骆仲泱.改性活性炭对模拟燃煤烟气中汞吸附的实验研究[J].中国电机工程学报,2007,27(8):26-30.Gao Hongliang,Zhou Jinsong,Luo Zhongyang.Experimental study on Hg vapor adsorption of modified activated carbons in simulated flue gas[J].Proceedings of the CSEE,2007,27(8):26-30(in Chinese).
[14]
赵鹏飞,郭欣,郑楚光.载银稻壳基吸附剂的制备与表征及其脱除Hg0的实验研究[J].中国电机工程学报,2012,32(5):61-67.Zhao Pengfei,Guo Xin,Zheng Chuguang.Synthesis and characterizations of silver-loaded rice husk ash sorbents and their performance for elemental mercury removal[J].Proceedings of the CSEE,2012,32(5):61-67(in Chinese).
[15]
近藤精一,石川达雄,安部郁夫.吸附科学[M].北京:化学工业出版社,2005:104-107.Seiichi K,Tatsuo I,Ikuo A.Adsorption science[M].Beijing:Chemical Industry Press,2005:104-107(in Chinese).
[16]
Skodras G,Diamantopoulou I,Pantoleontos G,et al.Kinetic studies of elemental mercury adsorption in activated carbon fixed bed reactor[J].Journal of Hazardous Materials,2008,158(1):1-13.
[17]
Zhao B G,Zhang Z X,Jin J,et al.Simulation of mercury capture by sorbent injection using a simplified model[J].Journal of Hazardous Materials,2009,170(2-3):1179-1185.
[18]
Yang R T.吸附剂原理与应用[M].北京:高等教育出版社,2010:82-84.Yang R T.Adsorbents fundamental and application[J].Beijing:Higher Education Press,2010:82-84(in Chinese).
[19]
谭增强,邱建荣,苏盛,等.高效脱汞吸附剂的脱汞机制研究[J].工程热物理学报,2012,33(2):344-347.Tan Zengqiang,Qiu Jianrong,Su Sheng,et al.Study on the mercury removal mechanism of adsorbents[J].Journal of Engineering Thermophysics,2012,33(2):344-347(in Chinese).
[20]
Pavlish J H,Sondreal E A,Mann M D,et al.Status review of mercury control options for coal-fired power plants[J].Fuel Process Technology,2003,82(2-3):89-165.
