·178 工程科学学报,第42卷,第2期 [8]Sun Y,Webley P A.Preparation of activated carbons from [15]Morel F,Bounor-Legare V,Espuche E,et al.Surface modification corncob with large specific surface area by a variety of chemical of calcium carbonate nanofillers by fluoro-and alkyl-alkoxysilane: activators and their application in gas storage.Chem Eng J,2010, Consequences on the morphology,thermal stability and gas barrier 162(3):883 properties of polyvinylidene fluoride nanocomposites.Eur Polym [9]Sun K,Jiang J C.Preparation and characterization of activated J,2012,48(5):919 carbon from rubber-seed shell by physical activation with steam. [16]Zhang H.Fang Y.Temperature dependent photoluminescence of Biomass Bioenergy,2010,34(4):539 surfactant assisted electrochemically synthesized ZnSe [10]Zabihi M,Ahmadpour A,Asl A H.Removal of mercury from nanostructures.JAlloys Compd,2019,781:201 water by carbonaceous sorbents derived from walnut shell.J [17]Zhang H.Cu-Ce/TiO moisture performance based on Haard Mater,2009,1671-3):230 photocatalytic performance.Mater Eng,2018,46(1):114 [11]Fang N J,Guo J X,Shu S,et al.Influence of textures,oxygen- (张浩.基于光催化性能的Cu-Ce/Tio2湿性能.材料工程,2018, containing functional groups and metal species on SO2 and NO 46(1):114) removal over Ce-Mn/NAC.Fuel,2017,202:328 [12]Yao G H,Gui K T,Wang F.Low-temperature De-NO,by [18]Fu Y L,Zhang Y F.Li G Q,et al.NO removal activity and surface characterization of activated carbon with oxidation modification. selective catalytic reduction based on iron-based catalysts.Chem Eng Technol,,2010,33(7):1093 Energy Inst,2017,90(5:813 [13]Ding J.Zhong Q,Zhang S L.Catalytic efficiency of iron oxides in [19]Guo YY,Li Y R,Zhu T Y,et al.Investigation of SO,and NO decomposition of H2O2,for simultaneous NO,and SO2 removal: adsorption species on activated carbon and the mechanism of NO Effect of calcination temperature.J Mol Catal A Chem,2014,393: promotion effect on SO.Fuel,2015,143:536 222 [20]Zhang H,Zhang X Y,Long H M.Spectroscopic analysis of weak [14]Ramezanianpour AA,Kazemian A,Moghaddam M A,et al. acid modified steel slag powder.Spectrosc Spect Anal,2018, Studying effects of low-reactivity GGBFS on chloride resistance 38(11:3502 of conventional and high strength concretes.Mater Struct,2016, (张浩,张欣雨,龙红明.弱酸改性钢渣微粉的光谱学分析.光谱 49(7):2597 学与光谱分析,2018.38(11):3502)Sun Y, Webley P A. Preparation of activated carbons from corncob with large specific surface area by a variety of chemical activators and their application in gas storage. Chem Eng J, 2010, 162(3): 883 [8] Sun K, Jiang J C. Preparation and characterization of activated carbon from rubber-seed shell by physical activation with steam. Biomass Bioenergy, 2010, 34(4): 539 [9] Zabihi M, Ahmadpour A, Asl A H. Removal of mercury from water by carbonaceous sorbents derived from walnut shell. J Hazard Mater, 2009, 167(1-3): 230 [10] Fang N J, Guo J X, Shu S, et al. Influence of textures, oxygencontaining functional groups and metal species on SO2 and NO removal over Ce-Mn/NAC. Fuel, 2017, 202: 328 [11] Yao G H, Gui K T, Wang F. Low-temperature De-NOx by selective catalytic reduction based on iron-based catalysts. Chem Eng Technol, 2010, 33(7): 1093 [12] Ding J, Zhong Q, Zhang S L. Catalytic efficiency of iron oxides in decomposition of H2O2 , for simultaneous NOx and SO2 removal: Effect of calcination temperature. J Mol Catal A Chem, 2014, 393: 222 [13] Ramezanianpour A A, Kazemian A, Moghaddam M A, et al. Studying effects of low-reactivity GGBFS on chloride resistance of conventional and high strength concretes. Mater Struct, 2016, 49(7): 2597 [14] Morel F, Bounor-Legaré V, Espuche E, et al. Surface modification of calcium carbonate nanofillers by fluoro- and alkyl-alkoxysilane: Consequences on the morphology, thermal stability and gas barrier properties of polyvinylidene fluoride nanocomposites. Eur Polym J, 2012, 48(5): 919 [15] Zhang H. Fang Y. Temperature dependent photoluminescence of surfactant assisted electrochemically synthesized ZnSe nanostructures. J Alloys Compd, 2019, 781: 201 [16] Zhang H. Cu−Ce/TiO2 moisture performance based on photocatalytic performance. J Mater Eng, 2018, 46(1): 114 (张浩. 基于光催化性能的Cu−Ce/TiO2湿性能. 材料工程, 2018, 46(1):114 ) [17] Fu Y L, Zhang Y F, Li G Q, et al. NO removal activity and surface characterization of activated carbon with oxidation modification. J Energy Inst, 2017, 90(5): 813 [18] Guo Y Y, Li Y R, Zhu T Y, et al. Investigation of SO2 and NO adsorption species on activated carbon and the mechanism of NO promotion effect on SO2 . Fuel, 2015, 143: 536 [19] Zhang H, Zhang X Y, Long H M. Spectroscopic analysis of weak acid modified steel slag powder. Spectrosc Spect Anal, 2018, 38(11): 3502 (张浩, 张欣雨, 龙红明. 弱酸改性钢渣微粉的光谱学分析. 光谱 学与光谱分析, 2018, 38(11):3502 ) [20] · 178 · 工程科学学报,第 42 卷,第 2 期