1 | 崔夏, 马丽萍, 邓春玲. 燃煤烟气中汞去除的研究进展[J]. 化工进展, 2011, 30(7): 1607-1612. | 1 | CUI X, MA L P, DENG C L. Research progress in mercury removal from coal-fired flue gas[J]. Chemical Industry and Engineering Progress, 2011, 30(7): 1607-1612. | 2 | 赵毅, 刘松涛, 马宵颖. 改性粉煤灰吸收剂对单质汞的脱除研究[J]. 中国电机工程学报, 2008, 28(20): 55-60. | 2 | ZHAO Y, LIU S T, MA X Y. Study on removal of elemental mercury by modified fly ash absorbent[J]. Proceedings of the CSEE, 2008, 28(20): 55-60. | 3 | 赵毅,张自丽. 电厂燃煤过程中汞控制技术研究[J]. 电力科技与环保, 2010, 26(2): 31-33. | 3 | ZHAO Y, ZHANG Z L. Research on mercury control technology in coal-fired process of power plant[J]. Electric Power Technology and Environment Protection, 2010, 26(2): 31-33. | 4 | 何伯述, 王欣, 朱玲. 燃煤电厂活性炭喷射脱汞的试验研究[J]. 应用基础与工程科学学报, 2010, 18(5): 823-831. | 4 | HE B S, WANG X, ZHU L. Experimental study on removal of mercury by activated carbon injection in coal-fired power plants[J]. Journal of Basic Science and Engineering, 2010, 18(5): 823-831. | 5 | LI H, ZHU L, WANG J, et al. Effect of nitrogen oxides on elemental mercury removal by nanosized mineral sulfide[J]. Environmental Science & Technology, 2017, 51(15): 8530-8536. | 6 | LAU B L T, HSUKIM H. Precipitation and growth of zinc sulfide nanoparticles in the presence of thiol-containing natural organic ligands[J]. Environmental Science & Technology, 2008, 42(19): 7236-7241. | 7 | WANG D, WANG Q, WANG T. Shape controlled growth of pyrite FeS2 crystallites via a polymer-assisted hydrothermal route[J]. CrystEngComm, 2010, 12(11): 3797-3805. | 8 | 黄菲, 杨多, 孟林, 等. 热硫化Co掺杂对纳-微米黄铁矿的晶体结构特征及光吸收性能的影响[J]. 光谱学与光谱分析, 2018, 38(7): 18-23. | 8 | HUANG F, YANG D, MENG L, et al. Effect of Co-doped Co-sulfuration on crystal structure and light absorption properties of nano-micron pyrite[J]. Spectroscopy and Spectral Analysis, 2018, 38(7): 18-23. | 9 | 董有忠, 郑毓峰, 张校刚. 电沉积FeS2(pyrite)薄膜的制备与性能研究[J]. 功能材料, 2005, 36(2): 221-223. | 9 | DONG Y Z, ZHENG Y F, ZHANG X G. Preparation and properties of electrodeposited FeS2(pyrite) thin films[J]. Functional Materials, 2005, 36(2): 221-223. | 10 | CONG Y, LI X, QIN Y, et al. Carbon-doped TiO2 coating on multiwalled carbon nanotubes with higher visible light photocatalytic activity[J]. Applied Catalysis B: Environmental, 2011, 107(1/2): 128-134. | 11 | BEHRA P, BONNISSEL-GISSINGER P, ALNOT M, et al. XPS and XAS study of the sorption of Hg(Ⅱ) onto pyrite[J]. Surface & Interface Analysis, 2001, 30(1): 269-272. | 12 | SUN L, YANG L, ZHANG Y D, et al. Accurate van der Waals force field for gas adsorption in porous materials[J]. Journal of Computational Chemistry, 2017, 38: 1991-1999. | 13 | YANG Y, LIU J, LIU F, et al. Molecular-level insights into mercury removal mechanism by pyrite[J]. Journal of Hazardous Materials, 2017, 344: 104-112. | 14 | 邓存. 单层分散阈值和负载型催化剂的阈值效应[J]. 化学通报, 2007, 70(12): 900-907. | 14 | DENG C. Threshold effects of single-layer dispersion threshold and supported catalysts[J]. Chemistry, 2007, 70(12): 900-907. | 15 | QU Z, YAN L, LI L, et al. Ultraeffective ZnS nanocrystals sorbent for mercury() removal based on size-dependent cation exchange[J]. Applied Materials & Interfaces, 2014, 6(20): 18026-18032. | 16 | 彭苏萍, 王立刚. 燃煤飞灰对锅炉烟道气汞的吸附研究[J]. 煤炭科学技术, 2002(9): 33-35. | 16 | PENG S P, WANG L G. Adsorption of mercury in boiler flue by coal-fired fly ash[J]. Coal Science and Technology, 2002(9): 33-35. | 17 | RUMAYOR M, FERNANDEZ-MIRANDA N, LOPEZ-ANTON M A, et al. Application of mercury temperature programmed desorption (Hg TPD) to ascertain mercury/char interactions[J]. Fuel Processing Technology, 2015, 132: 9-14. | 18 | 张华伟, 陈江艳, 赵可, 等. Mn/Ce掺杂改性半焦对模拟煤气中单质汞的脱除性能研究[J]. 燃料化学学报, 2016, 44(4): 13-19. | 18 | ZHANG H W, CHEN J Y, ZHAO K, et al. Study on the removal performance of elemental mercury in simulated gas by Mn/Ce doped semi-coke[J]. Journal of Fuel Chemistry and Technology, 2016, 44(4): 13-19. | 19 | YANG Z C, LI H L, FENG S H, et al. Multiform sulfur adsorption centers and copper-terminated active sites of nano-CuS for efficient elemental mercury capture from coal combustion flue gas[J]. Langmuir, 2018, 34: 8739-8749. | 20 | XIE Y E, LI C T, ZHAO L K, et al. Experimental study on Hg0 removal from flue gas over columnar MnOx-CeO2/activated coke[J]. Applied Surface Science, 2015, 333: 59-67. | 21 | ZHAO B, YI H H, TANG X L, et al. Copper modified activated coke for mercury removal from coal-fired flue gas[J]. Chemical Engineering Journal, 2016, 286: 585-593. | 22 | ZENG X, XU Y, ZHANG B, et al. Elemental mercury adsorption and regeneration performance of sorbents FeMnOx enhanced via non-thermal plasma[J]. The Chemical Engineering Journal, 2016, 309: 503-512. | 23 | LI H L, ZHU W B, YANG J P, et al. Sulfur abundant S/FeS2 for efficient removal of mercury from coal-fired power plants[J]. Fuel, 2018, 232: 476-484. |
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