| [1] | 桂红艳, 盛彦清, 陈繁忠, 等. 污水处理厂恶臭含硫化合物的研究[J]. 给水排水, 2006, 32(S1): 133-137. GUI H Y, SHENG Y Q, CHEN F Z, et al. Study on odorous sulfur compounds emitted from the wastewater treatment plants[J]. Water & Wastewater Engineering, 2006, 32(Sup 1): 133-137(in Chinese). |
| [2] | 申翰彰. 城市污水处理厂污泥处理过程中恶臭气体排放特征和净化研究[D]. 北京: 北京林业大学, 2020. SHEN H Z. Study on emission characteristics and purification of malodorous gases during sludge treatment in urban sewage treatment plants[D]. Beijing: Beijing Forestry University, 2020(in Chinese). |
| [3] | 杨伟华, 邹克华, 李伟芳, 等. 污水处理厂臭气浓度预测方法及愉悦度评价 [J]. 环境污染与防治, 2018, 40(11): 1306-1309. YANG W H, ZOU K H, LI W F, et al. Odor concentration prediction method and hedonic tone evaluation for sewage treatment plant [J]. Environmental Pollution & Control, 2018, 40(11): 1306-1309(in Chinese). |
| [4] | ORTA de VELASQUEZ M T, MONJE-RAMIREZ I. Combined pre-treatment of coagulation-ozonation for saline-stabilized landfill leachates [J]. Ozone:Science & Engineering, 2006, 28(5): 309-316. |
| [5] | WANG Q, ZUO X R, XIA M, et al. Field investigation of temporal variation of volatile organic compounds at a landfill in Hangzhou, China [J]. Environmental Science and Pollution Research, 2019, 26(18): 18162-18180. doi: 10.1007/s11356-019-04917-5 |
| [6] | 陶丽霞, 王成端, 李钧. 生物净化器处理制药恶臭废气工程实例 [J]. 中国给水排水, 2007, 23(20): 67-69. TAO L X, WANG C D, LI J. Engineering case of pharmaceutical odor gas treatment by biological purifier [J]. China Water & Wastewater, 2007, 23(20): 67-69(in Chinese). |
| [7] | MOUAMMINE A, OJALA S, PIRAULT-ROY L, et al. Catalytic partial oxidation of methanol and methyl mercaptan: Studies on the selectivity of TiO2 and CeO2 supported V2O5 catalysts [J]. Topics in Catalysis, 2013, 56(9): 650-657. |
| [8] | 张妍, 王元刚, 卢志强, 等. 我国餐厨废物生化处理设施恶臭排放特征分析 [J]. 环境科学, 2015, 36(10): 3603-3610. ZHANG Y, WANG Y G, LU Z Q, et al. Odor emission characteristics from biochemical treatment facilities of kichen waste in China [J]. Environmental Science, 2015, 36(10): 3603-3610(in Chinese). |
| [9] | 任连海, 郝艳, 王攀. 改性沸石对餐厨垃圾释放的恶臭气体吸附研究 [J]. 环境科学与技术, 2014, 37(7): 137-140. REN L H, HAO Y, WANG P. Absorption of modified zeolite to odorous gases released from kitchen waste [J]. Environmental Science & Technology, 2014, 37(7): 137-140(in Chinese). |
| [10] | 廖定满, 谭伟红. 炼油厂液化气脱硫醇副产二硫化物废液的利用 [J]. 广州化工, 2014, 42(18): 203-205. doi: 10.3969/j.issn.1001-9677.2014.18.077 LIAO D M, TAN W H. Usage of LPG sweetening disulphide waste liquid [J]. Guangzhou Chemical Industry, 2014, 42(18): 203-205(in Chinese). doi: 10.3969/j.issn.1001-9677.2014.18.077 |
| [11] | FENG J J, GAO S, FU Q Y, et al. Indirect source apportionment of methyl mercaptan using CMB and PMF models: A case study near a refining and petrochemical plant [J]. Environmental Science and Pollution Research, 2019, 26(23): 24305-24312. doi: 10.1007/s11356-019-05728-4 |
| [12] | YANG S Y, LI Y, WANG L L, et al. Use of peroxymonosulfate in wet scrubbing process for efficient odor control [J]. Separation and Purification Technology, 2016, 158: 80-86. doi: 10.1016/j.seppur.2015.12.010 |
| [13] | HE H, HU L L, ZENG J W, et al. Activation of persulfate by CuO-sludge-derived carbon dispersed on silicon carbide foams for odorous methyl mercaptan elimination: Identification of reactive oxygen species [J]. Environmental Science and Pollution Research, 2020, 27(2): 1224-1233. doi: 10.1007/s11356-018-3038-3 |
| [14] | ZHAO Y T, HE D D, CHEN D K, et al. Investigating the support effect for catalytic elimination of methyl mercaptan: Role of hydroxyl groups over Cr-based catalysts [J]. Catalysis Letters, 2020, 150(10): 2763-2773. doi: 10.1007/s10562-020-03178-z |
| [15] | KAMAL M S, RAZZAK S A, HOSSAIN M M. Catalytic oxidation of volatile organic compounds (VOCs) - A review [J]. Atmospheric Environment, 2016, 140: 117-134. doi: 10.1016/j.atmosenv.2016.05.031 |
| [16] | VELLINGIRI K, KIM K H, KWON E E, et al. Insights into the adsorption capacity and breakthrough properties of a synthetic zeolite against a mixture of various sulfur species at low ppb levels [J]. Journal of Environmental Management, 2016, 166: 484-492. |
| [17] | YANG C, WANG J, FAN H L. Three-dimensionally ordered macroporous metal oxide-silica composite for removal of mercaptan [J]. Research on Chemical Intermediates, 2017, 43(7): 3847-3858. doi: 10.1007/s11164-016-2853-8 |
| [18] | van LEERDAM R C, van den BOSCH P L F, LENS P N L, et al. Reactions between methanethiol and biologically produced sulfur particles [J]. Environmental Science & Technology, 2011, 45(4): 1320-1326. |
| [19] | LIU B, ZHAO Y J, WU W F, et al. Biodegradation of methanethiol-laden waste gas stream using a combined bioreactor system [J]. Environmental Engineering Science, 2010, 27(5): 397-402. doi: 10.1089/ees.2009.0304 |
| [20] | PETRE C F, PICHÉ S, NORMANDIN A, et al. Advances in chemical oxidation of total reduced sulfur from kraft Mills atmospheric effluents [J]. International Journal of Chemical Reactor Engineering, 2007, 5(1): 1-31. |
| [21] | YAN N Q, QU Z, JIA J P, et al. Removal characteristics of gaseous sulfur-containing compounds by pulsed Corona plasma [J]. Industrial & Engineering Chemistry Research, 2006, 45(19): 6420-6427. |
| [22] | CUI T, SHEN C Y, XU A L, et al. Use of a novel coupled-oxidation tubular reactor (COTR)/NTP-DBD catalytic plasma in a synergistic electro-catalysis system for odorous mercaptans degradation [J]. Chemosphere, 2019, 216: 533-544. doi: 10.1016/j.chemosphere.2018.10.170 |
| [23] | CAI W M, LU G H, HE J, et al. The adsorption feature and photocatalytic oxidation activity of K1−2xMxTiNbO5 (M = Mn, Ni) for methyl mercaptan in methane [J]. Ceramics International, 2012, 38(4): 3167-3174. doi: 10.1016/j.ceramint.2011.12.020 |
| [24] | LIU T X, LI X Z, LI F B. AgNO3-lnduced photocatalytic degradation of odorous methyl mercaptan in gaseous phase: Mechanism of chemisorption and photocatalytic reaction [J]. Environmental Science & Technology, 2008, 42(12): 4540-4545. |
| [25] | CAO X H, LU J C, ZHENG X Q, et al. Regulation of the reaction pathway to design the high sulfur/coke-tolerant Ce-based catalysts for decomposing sulfur-containing VOCs [J]. Chemical Engineering Journal, 2022, 429: 132473. doi: 10.1016/j.cej.2021.132473 |
| [26] | LU J C, LIU J P, ZHAO Y T, et al. The identification of active chromium species to enhance catalytic behaviors of alumina-based catalysts for sulfur-containing VOC abatement [J]. Journal of Hazardous Materials, 2020, 384: 121289. doi: 10.1016/j.jhazmat.2019.121289 |
| [27] | LU J C, HAO H S, ZHANG L M, et al. The investigation of the role of basic lanthanum (La) species on the improvement of catalytic activity and stability of HZSM-5 material for eliminating methanethiol-(CH3SH) [J]. Applied Catalysis B:Environmental, 2018, 237: 185-197. doi: 10.1016/j.apcatb.2018.05.063 |
| [28] |
方晶晶, 江璐, 徐新宏, 等. 电解式臭氧除臭机对密闭舱室含硫恶臭气体净化效果研究[C]. 2020中国环境科学学会科学技术年会论文集(第一卷). 南京, 2020: 1390-1394. FANG J J, JIANG L, XU X H, et al . Study on the purification of electrolytic ozone deodorizer on sulfur-containing odorous gases in closed compartments [C]. Proceedings of the 2020 Annual Conference of Science and Technology of the Chinese Society of Environmental Sciences (Volume I). Nanjing, 2020: 1390-1394. |
| [29] | 林瑜凡. 离子色谱法同时测定环境空气中的二氧化硫和氮氧化物 [J]. 环境与发展, 2017, 29(3): 205-206. doi: 10.16647/j.cnki.cn15-1369/X.2017.03.111 LIN Y F. Ion chromatography and determination of the sulfur dioxide and nitrogen oxides in air environment [J]. Environment and Development, 2017, 29(3): 205-206(in Chinese). doi: 10.16647/j.cnki.cn15-1369/X.2017.03.111 |
| [30] | 宋江燕, 李方鸿, 吴根义, 等. 氯咪巴唑在臭氧降解过程中的影响因素及其降解产物 [J]. 环境科学研究, 2022, 35(2): 478-487. SONG J Y, LI F H, WU G Y, et al. Degradation of climbazole by ozonation: Influencing factors and degradation products [J]. Research of Environmental Sciences, 2022, 35(2): 478-487(in Chinese). |
| [31] | 张佳丽, 魏健, 任越中, 等. 臭氧氧化降解水中青霉素G特性和动力学特征 [J]. 环境科学研究, 2019, 32(7): 1231-1238. ZHANG J L, WEI J, REN Y Z, et al. Degradation characteristics and kinetics of penicillin G in water by ozone oxidation [J]. Research of Environmental Sciences, 2019, 32(7): 1231-1238(in Chinese). |
| [32] | 姜宏斌. 催化臭氧氧化工艺处理芳香族VOCs废气的研究[D]. 大连: 大连理工大学, 2021. JIANG H B. Study on the treatment of aromatic VOCs waste gas by catalytic ozonation process[D]. Dalian: Dalian University of Technology, 2021(in Chinese). |
| [33] | 朱自莹, 顾仁敖, 陆天虹. 拉曼光谱在化学中的应用[M]. 沈阳: 东北大学出版社, 1998. ZHU Z Y, GU R A, LU T H. Application of Raman spectroscopy in chemistry[M]. Shenyang: Northeast University Press, 1998(in Chinese) |
| [34] | LIU Q, KE M, YU P, et al. High performance removal of methyl mercaptan on metal modified activated carbon [J]. Korean Journal of Chemical Engineering, 2018, 35(1): 137-146. doi: 10.1007/s11814-017-0272-1 |