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·1214· 工程科学学报,第40卷,第10期 参考文献 ride and spherical calcium carbonate particles from leaching solu- [1]Wang L T,Xu J,Yang J,et al.Understanding haze pollution tion of electrostatic precipitator dust of iron ore sintering.Chin J over the southern Hebei area of China using the CMAQ mode.At- Process Eng,2015,15(1):137 (裴滨,詹光,陈攀泽,等.由铁矿烧结电除尘灰浸出液制备 mos Enriron,2012,56:69 [2]Wang X Y,Yan L,Lei Y,et al.Estimation of primary particulate 氯化钾及球形碳酸钙.过程工程学报.2015,15(1):137) emissions from iron and steel industry in China.Acta Sci Circum, [10]Peng C,GuoZC.Zhang FL.Discovery of potassium chloride in the sintering dust by chemical and physical characterization.IS/ 2016,36(8):3033 1nt,2008,48(10):1398 (汪旭颖,燕丽,雷宇,等.我国钢铁工业一次颗粒物排放量 估算.环境科学学报,2016,36(8):3033) [11]Fan X H,Gan M,Ji Z Y,et al.The rules of super fine particu- [3]Gan M,JiZ Y,Fan X H,et al.Emission behavior and physico- late emission from sintering flue gas and its physicochemical prop- erties.Sinter Pelletiz,2016,41(3):42 chemical properties of aerosol particulate matter (PM.5)from iron ore sintering process.IS//Int,2015,55(12):2582 (范晓慧,甘敏,季志云,等.烧结烟气超细颗粒物排放规律 [4]Yang X D,Zhang L,Jiang D W,et al.Exhaust gas of iron 及其物化特性.烧结球团,2016,41(3):42) steel industry and emission characteristics of PM2s and pollution [12]Chun TJ,Ning C,Wang H,et al.Emission characteristics and control measures.J Eng Studies,2013,5(3):240 research development of particulate matter (PM/PM2s)in the (杨晓东,张玲,姜德旺,等.钢铁工业废气及PM,,排放特 iron ore sintering.J fron Steel Res,2016,28(9):1 性与污染控制对策.工程研究一跨学科视野中的工程, (春铁军,宁超,王欢,等.铁矿烧结过程微细颗粒物 2013,5(3):240) (PM1o/PM2.s)排放特性及研究进展.钢铁研究学报,2016, [5]Zhang Y B.Zhu R.Yue CS,et al.Research progress of persis- 28(9):1) [13]Zhao Y L,Zhao H N,Fan ZZ,et al.Emission characteristics of tent organic pollutants formation mechanism in iron ore sintering process.Chem Ind Eng Prog,2016,35(9):2952 PM2s from sintering machine.Chin J Enriron Eng,2015,9 (张艺伯,朱荣,岳昌盛,等.烧结过程持久性有机污染物生 (3):1369 (赵亚丽,赵浩宁,范真真,等.烧结机细颗粒物PM25排放 成机理研究进展.化工进展,2016,35(9):2952) [6]Yue C S,Peng B,Zhang Y B,et al.Research process of dioxins 特性.环境工程学报,2015,9(3):1369) emission reduction in metallurgical sintering process.Enriron [14]Wikstrom E.Ryan S,Touati A,et al.Importance of chlorine Eng,2015,33(12):155 speciation on de novo formation of polychlorinated dibenzo-p- dioxins and polychlorinated dibenzofurans.Environ Sci Technol, (岳昌盛,彭葬,张艺伯,等.治金烧结工序二恶英减排技术 研究进展.环境工程,2015,33(12):155) 2003,37(6):1108 [7]Ortuno N.Conesa JA,Molto J,et al.De novo synthesis of bro- [15]Addink R,Altwicker E R.Formation of polychlorinated dibenzo- p-dioxins/dibenzofurans from residual carbon on municipal solid minated dioxins and furans.Enriron Sci Technol,2014,48(14): waste incinerator fly ash using Na Cl.Chemosphere,2001,44 7959 [8]Mao R.Zhang JL,Liu ZJ,et al.Characteristic and resource uti- (6):1361 lization technique of dust and sludge containing iron from steel pro- [16]Takeda N.Takaoka M,Oshita K,et al.PCDD/DF and co-pla- duction process.J Cent South Univ Sci Technol,2015,46(3): nar PCB emissions from crematories in Japan.Chemosphere, 774 2014,98:91 (毛瑞,张建良,刘征建,等.钢铁流程含铁尘泥特性及其资 [17]Born J G P,Mulder P,Louw R.Fly ash mediated reactions of 源化.中南大学学报(自然科学版),2015,46(3):774) phenol and mono chlorophenols:oxychlorination,deep oxidation and condensation.Enriron Sci Technol,1993,27(9):1849 [9]Pei B,Zhan G,Chen P Z,et al.Preparation of potassium chlo-工程科学学报,第 40 卷,第 10 期 参 考 文 献 [1] Wang L T, Xu J, Yang J, et al. Understanding haze pollution over the southern Hebei area of China using the CMAQ mode. At鄄 mos Environ, 2012, 56: 69 [2] Wang X Y, Yan L, Lei Y, et al. Estimation of primary particulate emissions from iron and steel industry in China. Acta Sci Circum, 2016, 36(8): 3033 (汪旭颖, 燕丽, 雷宇, 等. 我国钢铁工业一次颗粒物排放量 估算. 环境科学学报, 2016, 36(8): 3033) [3] Gan M, Ji Z Y, Fan X H, et al. Emission behavior and physico鄄 chemical properties of aerosol particulate matter ( PM10 / 2. 5 ) from iron ore sintering process. ISIJ Int, 2015, 55(12): 2582 [4] Yang X D, Zhang L, Jiang D W, et al. Exhaust gas of iron & steel industry and emission characteristics of PM2. 5 and pollution control measures. J Eng Studies, 2013, 5(3): 240 (杨晓东, 张玲, 姜德旺, 等. 钢铁工业废气及 PM2. 5 排放特 性与污染控制对策. 工程研究———跨学科视野中的工程, 2013, 5(3): 240) [5] Zhang Y B, Zhu R, Yue C S, et al. Research progress of persis鄄 tent organic pollutants formation mechanism in iron ore sintering process. Chem Ind Eng Prog, 2016, 35(9): 2952 (张艺伯, 朱荣, 岳昌盛, 等. 烧结过程持久性有机污染物生 成机理研究进展. 化工进展, 2016, 35(9): 2952) [6] Yue C S, Peng B, Zhang Y B, et al. Research process of dioxins emission reduction in metallurgical sintering process. Environ Eng, 2015, 33(12): 155 (岳昌盛, 彭犇, 张艺伯, 等. 冶金烧结工序二恶英减排技术 研究进展. 环境工程, 2015, 33(12): 155) [7] Ortuno N, Conesa J A, Molto J, et al. De novo synthesis of bro鄄 minated dioxins and furans. Environ Sci Technol, 2014, 48(14): 7959 [8] Mao R, Zhang J L, Liu Z J, et al. Characteristic and resource uti鄄 lization technique of dust and sludge containing iron from steel pro鄄 duction process. J Cent South Univ Sci Technol, 2015, 46 (3): 774 (毛瑞, 张建良, 刘征建, 等. 钢铁流程含铁尘泥特性及其资 源化. 中南大学学报(自然科学版), 2015, 46(3): 774) [9] Pei B, Zhan G, Chen P Z, et al. Preparation of potassium chlo鄄 ride and spherical calcium carbonate particles from leaching solu鄄 tion of electrostatic precipitator dust of iron ore sintering. Chin J Process Eng, 2015, 15(1): 137 (裴滨, 詹光, 陈攀泽, 等. 由铁矿烧结电除尘灰浸出液制备 氯化钾及球形碳酸钙. 过程工程学报, 2015, 15(1): 137) [10] Peng C, Guo Z C, Zhang F L. Discovery of potassium chloride in the sintering dust by chemical and physical characterization. ISIJ Int, 2008, 48(10): 1398 [11] Fan X H, Gan M, Ji Z Y, et al. The rules of super fine particu鄄 late emission from sintering flue gas and its physicochemical prop鄄 erties. Sinter Pelletiz, 2016, 41(3): 42 (范晓慧, 甘敏, 季志云, 等. 烧结烟气超细颗粒物排放规律 及其物化特性. 烧结球团, 2016, 41(3): 42) [12] Chun T J, Ning C, Wang H, et al. Emission characteristics and research development of particulate matter (PM10 / PM2. 5 ) in the iron ore sintering. J Iron Steel Res, 2016, 28(9): 1 (春铁军, 宁 超, 王 欢, 等. 铁 矿 烧 结 过 程 微 细 颗 粒 物 (PM10 / PM2. 5 )排放特性及研究进展. 钢铁研究学报, 2016, 28(9): 1) [13] Zhao Y L, Zhao H N, Fan Z Z, et al. Emission characteristics of PM2郾 5 from sintering machine. Chin J Environ Eng, 2015, 9 (3): 1369 (赵亚丽, 赵浩宁, 范真真, 等. 烧结机细颗粒物 PM2郾 5 排放 特性. 环境工程学报,2015, 9(3): 1369) [14] Wikstrom E, Ryan S, Touati A, et al. Importance of chlorine speciation on de novo formation of polychlorinated dibenzo鄄p鄄 dioxins and polychlorinated dibenzofurans. Environ Sci Technol, 2003, 37(6): 1108 [15] Addink R, Altwicker E R. Formation of polychlorinated dibenzo鄄 p鄄dioxins/ dibenzofurans from residual carbon on municipal solid waste incinerator fly ash using Na 37 Cl. Chemosphere, 2001, 44 (6): 1361 [16] Takeda N, Takaoka M, Oshita K, et al. PCDD/ DF and co鄄pla鄄 nar PCB emissions from crematories in Japan. Chemosphere, 2014, 98: 91 [17] Born J G P, Mulder P, Louw R. Fly ash mediated reactions of phenol and mono chlorophenols: oxychlorination, deep oxidation and condensation. Environ Sci Technol, 1993, 27(9): 1849 ·1214·
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