[1] |
OBRIST D, KIRK J L, ZHANG L, et al. A review of global environmental mercury processes in response to human and natural perturbations: Changes of emissions, climate, and land use [J]. Ambio, 2018, 47(2): 116-140. doi: 10.1007/s13280-017-1004-9
|
[2] |
王钧伟, 张庆平, 沈园园, 等. 凹凸棒石负载CuO催化剂脱除气态Hg0 [J]. 环境化学, 2017, 36(5): 1097-1103. doi: 10.7524/j.issn.0254-6108.2017.05.2016112602
WANG J W, ZHANG Q P, SHEN Y Y, et al. Removal of vapor-phase Hg0 over a CuO/PG catalyst [J]. Environmental Chemistry, 2017, 36(5): 1097-1103(in Chinese). doi: 10.7524/j.issn.0254-6108.2017.05.2016112602
|
[3] |
NARAYANA S L, SUNG-OK B. Recent studies on the speciation and determination of mercury in different environmental matrices using various analytical techniques [J]. International Journal of Analytical Chemistry, 2017, 3: 1-28.
|
[4] |
ZHAO Y, ZHONG H, ZHANG J, et al. Evaluating the effects of China's pollution controls on inter-annual trends and uncertainties of atmospheric mercury emissions [J]. Atmospheric Chemistry and Physics, 2015, 15(8): 4317-4337. doi: 10.5194/acp-15-4317-2015
|
[5] |
孙阳昭, 陈扬, 蓝虹, 等. 中国汞污染的来源、成因及控制技术路径分析[J]. 环境化学, 2013, 32 (6): 937-942.
SUN Y Z, CHEN Y, LAN H, et al. Study on pollution sources, cause of mercury pollution and its control technical roadmap in China [J]. Environmental Chemistry, 2013, 32 (6): 937-942 (in Chinese).
|
[6] |
REDDY B M, BHARGAVA S K. Abatement of gas-phase mercury-recent developments [J]. Catalysis Reviews, 2012, 54(3): 344-398. doi: 10.1080/01614940.2012.650966
|
[7] |
ZHENG C, XU L, LIU S, et al. Speciation and thermal stability of mercury in solid products from ultra-low emission air pollution control devices [J]. Energy & Fuels, 2018, 32(12): 12655-12664.
|
[8] |
刘晶, 刘迎晖, 贾小红, 等. 燃煤烟气中汞形态分析的实验研究 [J]. 环境化学, 2003, 22(2): 172-176. doi: 10.3321/j.issn:0254-6108.2003.02.013
LIU J, LIU Y H, JIA X H, et al. Mercury speciation in coal fired flue gas [J]. Environmental Chemistry, 2003, 22(2): 172-176(in Chinese). doi: 10.3321/j.issn:0254-6108.2003.02.013
|
[9] |
TAKAOKA M, CHENG Y, OSHITA K, et al. Mercury removal from the flue gases of crematoria via pre-injection of lime and activated carbon into a fabric filter [J]. Process Safety and Environmental Protection, 2021, 148: 323-332. doi: 10.1016/j.psep.2020.10.027
|
[10] |
白国梁, 蔡思敏, 毛德棋, 等. Fe2O3/AC脱除煤气中的Hg0 [J]. 环境化学, 2020, 39(4): 1145-1152. doi: 10.7524/j.issn.0254-6108.2019032703
BAI G L, CAI S M, MAO D Q, et al. Removal of Hg0 in coal-derived syngas by a Fe2O3/AC catalyst [J]. Environmental Chemistry, 2020, 39(4): 1145-1152(in Chinese). doi: 10.7524/j.issn.0254-6108.2019032703
|
[11] |
李晓航, 滕阳, 王鹏程, 等. 燃煤电站CFB锅炉飞灰热处理中汞释放特性 [J]. 环境化学, 2020, 39(5): 1375-1383. doi: 10.7524/j.issn.0254-6108.2020010702
LI X H, TENG Y, WANG P C, et al. Release characteristics of mercury in fly ashes collected from coal-fired CFB power units during thermal treatment [J]. Environmental Chemistry, 2020, 39(5): 1375-1383(in Chinese). doi: 10.7524/j.issn.0254-6108.2020010702
|
[12] |
李扬, 刘冰, 杨赫, 等. MnOx-TiO2吸附剂对燃煤烟气中汞的脱除 [J]. 燃料化学学报, 2020, 048(5): 513-524. doi: 10.3969/j.issn.0253-2409.2020.05.001
LI Y, LIU B, YANG H, et al. Removal of mercury from coal-fired flue gas by MnOx-TiO2 adsorbent [J]. Journal of Fuel Chemistry, 2020, 048(5): 513-524(in Chinese). doi: 10.3969/j.issn.0253-2409.2020.05.001
|
[13] |
SHENG Z, HU Y, XUE J, et al. SO2 poisoning and regeneration of Mn-Ce/TiO2 catalyst for low temperature NOx reduction with NH3 [J]. Journal of Rare Earths, 2012, 30(7): 676-682. doi: 10.1016/S1002-0721(12)60111-2
|
[14] |
董璐, 黄亚继, 袁琦, 等. 锰负载钛锆和钛锡复合氧化物催化剂烟气脱汞实验研究 [J]. 燃料化学学报, 2020, 48(6): 741-751. doi: 10.3969/j.issn.0253-2409.2020.06.014
DONG L, HUANG Y J, YUAN Q, et al. Experimental study on the mercury removal from flue gas using manganese modified titanium-zirconium and titanium-tin composite oxide catalysts composite oxide catalysts [J]. Journal of Fuel Chemistry, 2020, 48(6): 741-751(in Chinese). doi: 10.3969/j.issn.0253-2409.2020.06.014
|
[15] |
LIU M, LI C, ZENG Q, et al. Study on removal of elemental mercury over MoO3-CeO2/cylindrical activated coke in the presence of SO2 by Hg-temperature-programmed desorption [J]. Chemical Engineering Journal, 2019, 371: 666-678. doi: 10.1016/j.cej.2019.04.088
|
[16] |
LIU Z, ADEWUYI Y G, SHI S, et al. Removal of gaseous hg0 using novel seaweed biomass-based activated carbon [J]. Chemical Engineering Journal, 2019, 366(15): 41-49.
|
[17] |
白国梁, 陶海兵, 蔡思敏, 等. 凹凸棒石(PG)负载V2O5催化剂脱除气态Hg0的研究 [J]. 环境科学学报, 2019, 39(7): 2369-2376.
BAI G L, TAO H B, CAI S M, et al. Study on the removal of gaseous Hg0 by V2O5 catalyst supported on Attapulgite [J]. Journal of Environmental Science, 2019, 39(7): 2369-2376(in Chinese).
|
[18] |
谢亚婷. Mn、Ce改性γ-Al2O3催化剂脱除燃煤烟气汞及其抗硫特性实验研究[D]. 武汉: 武汉大学, 2018.
XIE Y T. Experimental study on mercury removal and sulfur resistance of Mn and Ce modified γ- Al2O3 catalysts[D]. Wuhan: Wuhan University, 2018 (in Chinese).
|
[19] |
CAI S M, MAO D Q, WANG J W, et al. Removal of Vapor-phase Elemental Mercury over a CuO/PG Catalyst [J]. IOP Conference Series:Earth and Environmental Science, 2019, 267: 032-030.
|
[20] |
王钧伟, 徐灿, 秦伟, 等. 凹凸棒石(PG)负载MnOx催化剂脱除气态Hg0的研究 [J]. 燃料化学学报, 2020, 48(12): 1442-1451.
WANG J W, XU C, QIN W, et al. Hg0 removal by palygorskite (PG) supported MnOx catalyst [J]. Journal of Fuel Chemistry, 2020, 48(12): 1442-1451(in Chinese).
|
[21] |
ZHOU Z J, LIU X W, XU J, et al. Elemental mercury removal over a novel starch-modified MnOx/bentonite composite [J]. Fuel Process Technol, 2019, 187: 16-20. doi: 10.1016/j.fuproc.2019.01.006
|
[22] |
郭会宾, 刘海刚, 唐宏学. WO3-MnOx/TiO2-ZrO2催化剂脱汞性能研究 [J]. 环境污染与防治, 2019, 41(6): 694-698.
GUO H B, LIU H G, Tang H X. Study on mercury removal performance of WO3-MnOx/TiO2-ZrO2 catalyst [J]. Environmental Pollution and Prevention, 2019, 41(6): 694-698(in Chinese).
|
[23] |
XIANG J, WANG P Y, SU S, et al. Control of NO and Hg0 emissions by SCR catalysts from coal-fired boiler [J]. Fuel Processing Technology, 2015, 135: 168-173. doi: 10.1016/j.fuproc.2014.12.044
|
[24] |
YANG J, ZHAO Y, ZHANG J, et al. Regenerable cobalt oxide loaded magnetosphere catalyst from fly ash for mercury removal in coal combustion flue gas [J]. Environmental Science& Technology, 2014, 48(24): 14837-14843.
|
[25] |
CHEN W, PEI Y, HUANG W, et al. Novel effective catalyst for elemental mercury removal from coal-fired flue gas and the mechanism investigation [J]. Environmental Science& Technology, 2016, 50(5): 2564-2572.
|