陈海英等：核壳结构Fe,O,@C粒子在UV-Fenton氧化去除VOCs过程中的吸附-催化作用 ·1173· cation of a regenerative thermal oxidizer.J Unir Sci Technol Bei-[12]Gil RR,Ruiz B,Lozano M S,et al.VOCs removal by adsorp- mg,2011,33(5):632 tion onto activated carbons from biocollagenic wastes of vegetable (萧琦，姜泽毅，张欣欣.蓄热式有机废气焚烧炉的数值模拟 tanning.Chem Eng J,2014,245:80 和应用.北京科技大学学报，2011,33(5)：632) [13]Liu C X,Wang Y F.Hao Z P,et al.Study of VOCs emission [3]Mostbauer P,Lombardi L,Olivieri T,et al.Pilot scale evaluation prediction and control based on dynamie CGE.Enriron Sci, of the BABIU process-Upgrading of landfill gas or biogas with 2013,34(12):4787 the use of MSWI bottom ash.Waste Manage,2014,34(1):125 (刘昌新，王字飞，郝郑平，等.基于动态CGE的挥发性有 [4]Palmiotto M,Fattore E,Paiano V,et al.Influence of a municipal 机污染物V0Cs排放预测和控制研究.环境科学，2013.34 solid waste landfill in the surrounding environment:toxicological (12):4787) risk and odor nuisance effects.Environ Int,2014,68:16 [14]Zhou Y,Xiao B,Liu S Q,et al.Photo-Fenton degradation of [5]Rasi S,Lantela J.Rintala J.Upgrading landfill gas using a high ammonia via a manganese-iron double-active component catalyst pressure water absorption process.Fuel,2014,115:539 of graphene-manganese ferrite under visible light.Chem Eng [6]Wu C D,Liu J M,Yan L C,et al.Assessment of odor activity 2016,283:266 value coefficient and odor contribution based on binary interaction [15]Barndok H,Blanco L,Hermosilla D,et al.Heterogeneous photo- effects in waste disposal plant.Atmos Enriron,2015,103:231 Fenton processes using zero valent iron microspheres for the treat- [7] Wu C D,Liu J M,Zhao P,et al.Conversion of the chemical con- ment of wastewaters contaminated with 1,4-dioxane.Chem Eng centration of odorous mixtures into odour concentration and odour /.2016,284:112 intensity:a comparison of methods.Atmos Enriron,2016,127: [16]Tokumura M,Nakajima R,Znad H T,et al.Chemical absorption 283 process for degradation of VOC gas using heterogeneous gas-liq- [8]Liu Y P,Chen J C,Li W,et al.Carbon functionalized meso- uid photocatalytic oxidation:toluene degradation by photo-Fenton porous silica-based gas sensors for indoor volatile organic com- reaction.Chemosphere,2008,73(5):768 pounds.J Colloid Interface Sci,2016,477:54 [17]Tokumura M,Wada Y,Usami Y,et al.Method of removal of [9]Feo G D,Gisi S D,Williams I D.Public perception of odour and volatile organic compounds by using wet serubber coupled with environmental pollution attributed to MSW treatment and disposal photo-Fenton reaction-Preventing emission of by-products. facilities:a case study.Waste Manage,2013.33(4):974 Chemosphere,2012,89(10):1238 [10]Govindan M,Moon I S.A single catalyst of aqueous Co-lll for [18]Handa M,Lee Y,Shibusawa M,et al.Removal of VOCs in deodorization of mixture odor gases:a development and reaction waste gas by the photo-Fenton reaction:effects of dosage of Fen- pathway study at electro-scrubbing process.Hazard Mater, ton reagents on degradation of toluene gas in a bubble column. 2013,260:1064 Chem Technol Biotechnol,2013,88(1):88 [11]Qian Y J,Zhou X F,Zhang Y L,et al.Performance and proper- [19]Lei L C.Gu L,Zhang X W,et al.Catalytic oxidation of highly ties of nanoscale calcium peroxide for toluene removal.Chemo- concentrated real industrial wastewater by integrated ozone and sphere,2013,91(5):717 activated carbon.Appl Catal A-Gen,2007,327(2):287陈海英等: 核壳结构 Fe3O4@ C 粒子在 UV鄄鄄Fenton 氧化去除 VOCs 过程中的吸附鄄鄄催化作用 cation of a regenerative thermal oxidizer. J Univ Sci Technol Bei鄄 jing, 2011, 33(5): 632 (萧琦, 姜泽毅, 张欣欣. 蓄热式有机废气焚烧炉的数值模拟 和应用. 北京科技大学学报, 2011, 33(5): 632) [3] Mostbauer P, Lombardi L, Olivieri T, et al. Pilot scale evaluation of the BABIU process———Upgrading of landfill gas or biogas with the use of MSWI bottom ash. Waste Manage, 2014, 34(1): 125 [4] Palmiotto M, Fattore E, Paiano V, et al. Influence of a municipal solid waste landfill in the surrounding environment: toxicological risk and odor nuisance effects. Environ Int, 2014, 68: 16 [5] Rasi S, L覿ntel覿 J, Rintala J. Upgrading landfill gas using a high pressure water absorption process. Fuel, 2014, 115: 539 [6] Wu C D, Liu J M, Yan L C, et al. Assessment of odor activity value coefficient and odor contribution based on binary interaction effects in waste disposal plant. Atmos Environ, 2015, 103: 231 [7] Wu C D, Liu J M, Zhao P, et al. Conversion of the chemical con鄄 centration of odorous mixtures into odour concentration and odour intensity: a comparison of methods. Atmos Environ, 2016, 127: 283 [8] Liu Y P, Chen J C, Li W, et al. Carbon functionalized meso鄄 porous silica鄄based gas sensors for indoor volatile organic com鄄 pounds. J Colloid Interface Sci, 2016, 477: 54 [9] Feo G D, Gisi S D, Williams I D. Public perception of odour and environmental pollution attributed to MSW treatment and disposal facilities:a case study. Waste Manage, 2013, 33(4): 974 [10] Govindan M, Moon I S. A single catalyst of aqueous Co鄄芋 for deodorization of mixture odor gases: a development and reaction pathway study at electro鄄scrubbing process. J Hazard Mater, 2013, 260: 1064 [11] Qian Y J, Zhou X F, Zhang Y L,et al. Performance and proper鄄 ties of nanoscale calcium peroxide for toluene removal. Chemo鄄 sphere, 2013, 91(5): 717 [12] Gil R R, Ruiz B, Lozano M S,et al. VOCs removal by adsorp鄄 tion onto activated carbons from biocollagenic wastes of vegetable tanning. Chem Eng J, 2014, 245: 80 [13] Liu C X, Wang Y F, Hao Z P, et al. Study of VOCs emission prediction and control based on dynamic CGE. Environ Sci, 2013, 34(12): 4787 (刘昌新, 王宇飞, 郝郑平, 等. 基于动态 CGE 的挥发性有 机污染物 VOCs 排放预测和控制研究. 环境科学, 2013, 34 (12): 4787) [14] Zhou Y, Xiao B, Liu S Q, et al. Photo鄄Fenton degradation of ammonia via a manganese鄄iron double鄄active component catalyst of graphene鄄manganese ferrite under visible light. Chem Eng J, 2016, 283: 266 [15] Barnd觛k H, Blanco L, Hermosilla D,et al. Heterogeneous photo鄄 Fenton processes using zero valent iron microspheres for the treat鄄 ment of wastewaters contaminated with 1,4鄄dioxane. Chem Eng J, 2016, 284: 112 [16] Tokumura M, Nakajima R, Znad H T,et al. Chemical absorption process for degradation of VOC gas using heterogeneous gas鄄liq鄄 uid photocatalytic oxidation: toluene degradation by photo鄄Fenton reaction. Chemosphere, 2008, 73(5): 768 [17] Tokumura M, Wada Y, Usami Y,et al. Method of removal of volatile organic compounds by using wet scrubber coupled with photo鄄Fenton reaction———Preventing emission of by鄄products. Chemosphere, 2012, 89(10): 1238 [18] Handa M, Lee Y, Shibusawa M, et al. Removal of VOCs in waste gas by the photo鄄Fenton reaction: effects of dosage of Fen鄄 ton reagents on degradation of toluene gas in a bubble column. J Chem Technol Biotechnol, 2013, 88(1): 88 [19] Lei L C, Gu L, Zhang X W, et al. Catalytic oxidation of highly concentrated real industrial wastewater by integrated ozone and activated carbon. Appl Catal A鄄Gen, 2007, 327(2): 287 ·1173·