参考文献/References:
【参考文献】 [1] 苗硕.中国淡水资源现状与保护措施探讨[J].现代商贸工业,2010(17):19-21. [2] 中华人民共和国环境保护部.2016 年中国环境状况公报[R].北京:中华人民共和国环境保护部,2016. [3] 岳舜琳.给水中有机物与Ames 致突物的相关性[J].中国给水排水,2003,19(1):20-22. [4] 叶立群.强化混凝技术在去除给水原水中腐植酸中的应用[J].武汉理工大学学报,2001,25(2):180-183. [5] Hua G,Reckhow D A,Abusallout I.Correlation between SUVA and DBP formation during chlorination and chloramination of NOM fractions from different sources [J].Chemosphere,2015,130:82-89. [6] Villanueva C M,Cantor K P,Cordier S,et al.Disinfection byproducts and bladder cancer[J].Epidemiology,2004,15(3): 357-367. [7] Villanueva C M,Cantor K P,Grimalt J O,et al.Bladder cancer and eposure to water disinfection by-products through ingestion,bathing,showering,and swimming in pools[J]. American Journal of Epidemiology,2007,165(2):148-156. [8] Amrita Pal,Yiliang He,Martin Jekel,et al.Emerging contaminants of public health significance as water quality indicator compounds in the urban water cycle[J].Environment International,2014,71:46-62. [9] Gunnarsson L,Adolfsson-Erici M,Bj?rlenius B,et al.Comparison of six different sewage treatment processes-reduction of estrogenic substances and effects on gene expression in exposed male fish[J].Science of the Total Environment,2009, 407(19):5235-5242. [10] Hernando M D,Petrovic M,Fernández-Alba A R,et al. Analysis by liquid chromatography–electrospray ionization tandem mass spectrometry and acute toxicity evaluation for β-blockers and lipid-regulating agents in wastewater sample [J].Journal of Chromatography A,2004,1046(1-2):133-140. [11] Hernando M D,Mezcua M,Fernández-Alba A R,et al. Environmental risk assessment of pharmaceutical residues in wastewater effluents,surface waters and sediments[J]. Talanta,2006,69(2):334-342. [12] Wang Z,Zhang X H,Huang Y,et al.Comprehensive evaluation of pharmaceuticals and personal care products (PPCPs) in typical highly urbanized regions across China[J].Environmental Pollution,2015,204:223-232. [13] Luo Y L,Guo W S,Ngo H H,et al.A review on the occurrence of micropollutants in the aquatic environment and their fate and removal during wastewater treatment[J].Science of the Total Environment,2014,473:619-641. [14] Peng X,Ou W,Wang C,et al.Occurrence and ecological - 12 - potential of pharmaceuticals and personal care products in groundwater and reservoirs in the vicinity of municipal landfills in Chinai[J].Science of the Total Environ,2014, 490:889-898. [15] Loos R,Locoro G,Comero S,et al.Pan-European survey on the occurrence of selected polar organic persistent pollutants in ground water[J].Water Research,2010,44 (14):4115-4126. [16] Mergen M R D,Jefferson B,Parsons S A,et al.Magnetic ion- exchange resin treatment:impact of water type and resin use[J].Water Research,2008,42:1977-1988. [17] Zhou J,Chang Q,Wang Y,et al.Separation of stable oil–water emulsion by the hydrophilic nano-sized ZrO2 modified Al2O3 microfiltration membrane[J].Separation and Purification Technology,2010,75:243-248. [18] Lu N C,Liu J C.Removal of phosphate and fluoride from wastewater by a hybrid precipitation-microfiltration process [J].Separation and Purification Technology,2010,74:329-335. [19] 汪燕.饮用水处理中超滤膜污染及清洗方法的中试研究[D].北京:北京建筑工程学院,2010. [20] 李圭白,杨艳玲.超滤—第三代城市饮用水净化工艺的核心技术[J].供水技术,2007,1(1):1-3. [21] Kim H C,Hong J H,Lee S.Fouling of microfiltration membranes by natural organic matter after coagulation treatment:A comparison of different initial mixing conditions [J].Journal of Membrane Science,2006,283(1-2):266-272. [22] Heo J,Flora J R V,Her N,et al.Removal of bisphenol A and 17-βestradiol in single walled carbon nanotubes-ultrafiltration (SWNTs-UF) membrane systems[J].Separation and Purification Technology,2012,90:39-52. [23] Melo-Guimar?es A,Torner-Morales F J,Durán-álvarez Juan C,et al.Removal and fate of emerging contaminants combining biological,flocculation and membrane treatments[J].Water Science & Technology,2013,67(4):877-885. [24] Mccloskey B P,Park T H K B,Ju H,et al.Influence of polydopamine deposition conditions on pure water flux and foulant adhesion resistance of reverse osmosis,ultrafiltration, and microfiltration membranes[J].Polymer (Guildf),2010,51: 3472-3485. [25] Sutzkover-Gutman I,Hasson D,Semiat R.Humic substances fouling in ultrafiltration processes[J].Desalination,2010,261 (3):218-231. [26] Han X,Liang C F,Li T Q,et al.Simultaneous removal of cadmium and sulfamethoxazole from aqueous solution by rice straw biochar[J].Journal of Zhejiang University Science B Biomedicine & Biotechnology,2013,14(7):640-649. [27] Vatanpour V,Madaeni S S,Moradian R,et al.Fabrication and characterization of novel antifouling nanofiltration membrane prepared from oxidized multiwalled carbon nanotube/polyethersulfone nanocomposite[J].Journal of Membrane Science,2011,375(1):284-294. [28] Acero J L,Benitez F J,Teva F,et al.Retention of emerging micropollutants from UP water and a municipal secondary effluent by ultrafiltration and nanofiltration[J].Chemical Engineering Journal,2010,163(3):264-272. [29] Dai C M,Geissen S U,Zhang Y L,et al.Performance evaluation and application of molecularly imprinted polymer for separation of carbamazepine in aqueous solution[J].Journal of Hazardous Materials,2010,184(1-3): 156-163. [30] Tang Y L,Guo H G,Xiao L,et al.Synthesis of reduced graphene oxide/magnetite composites and investigation of their adsorption performance of fluoroquinolone antibiotics [J].Colloids & Surfaces A Physicochemical & Engineering Aspects,2013,424(17):74-80. [31] Ajmani G S,Goodwin D,Marsh K,et al.Modification of low pressure membranes with carbon nanotube layers for fouling control[J].Water Research,2012,46(17):5645-5654. [32] Wang S,Liang S,Liang P,et al.In-situ combined dual-layer CNT/PVDF membrane for electrically-enhanced fouling resistance[J].Journal of Membrane Science,2015,491:37-44. [33] Wang Y,Zhu J,Huang H,et al.Carbon nanotube composite membranes for microfiltration of pharmaceuticals and personal care products:Capabilities and potential mechanisms [J].Journal of Membrane Science,2015,479:165-174. [34] Engel M,Chefetz B.Adsorption and desorption of dissolved organic matter by carbon nanotubes:Effects of solution chemistry[J].Environmental Pollution,2016,213:90-98. [35] Wang Y,Huang H,Wei X.Influence of wastewater precoagulation on adsorptive filtration of pharmaceutical and personal care products by carbon nanotube membranes [J].Chemical Engineering Journal,2018,333(1):66-75. [36] Cho H H,Huang H,Schwab K.Effects of solution chemistry on the adsorption of ibuprofen and triclosan onto carbon nanotubes[J].Langmuir,2011,27(21):12960-12967. [37] Mohammadi A,Kazemipour M,Ranjbar H,et al.Amoxicillin removal from aqueous media using multi-walled carbon nanotubes[J].Fullerene Science and Technology,2015,23(2): 165-169. [38] Carabineiro S A C,Thavorn-Amornsri T,Pereira M F R, et al.Comparison between activated carbon,carbon xerogel and carbon nanotubes for the adsorption of the antibiotic ciprofloxacin[J].Catalysis Today,2012,186(1):29-34. [39] Ji L,Chen W,Bi J,et al.Adsorption of tetracycline on single-walled and multi-walled carbon nanotubes as affected by aqueous solution chemistry[J].Environmental toxicology and chemistry / SETAC,2010,29(12):2713-2719. [40] Peng H,Pan B,Wu M,et al.Adsorption of ofloxacin and norfloxacin on carbon nanotubes:Hydrophobicity-and structure-controlled process[J].Journal of Hazardous Materials, 2012,233-234:89-96. [41] Yang W,Lu Y,Zheng F,et al.Adsorption behavior and mechanisms of norfloxacin onto porous resins and carbon nanotube[J].Chemical Engineering Journal,2012,179:112-118. [42] Zhao Y X,Gao B Y,Zhang G Z,et al.Coagulation and sludge recovery using titanium tetrachloride as coagulant for real water treatment:a comparison against traditional aluminum and iron salts[J].Separation and Purification Technology, 2014,130:19-27. [43] Zhao Y X,Gao B Y,Shon H K,et al.Coagulation characteristics of titanium (Ti) salt coagulant compared with aluminum (Al) and iron (Fe) salts[J].Journal of Hazardous Materials,2011,185:1536-1542. [44] Jarvis P,Sharp E,Pidou M,et al.Comparison of coagulation performance and floc properties using a novel zirconium coagulant against traditional ferric and alum coagulants [J].Water Research,2012,46:4179-4187. - 13 - [45] Zhao Y X,Gao B Y,Shon H K,et al.Floc characteristics of titanium tetrachloride (TiCl4) compared with aluminum and iron salts in humic acidekaolin synthetic water treatment [J].Separation and Purification Technology,2011,81:332-338. [46] Wang S,Liu C,Li Q.Impact of polymer flocculants on coagulation microfiltration of surface water[J].Water Research, 2013,47:4538-4546. [47] Al-Wasify R S,Al-Sayed A A,Saleh S M,et al.Bacterial exopolysaccharides as new natural coagulants for surface water treatment[J].International Journal of Pharm Tech Research,2015,8(9):198-207. [48] Zhao S,Gao B,Wang Y,et al.Influence of a new coagulant aid-Enteromorpha extract on coagulation performance and floc characteristics of aluminum sulfate coagulant in kaolin-humic acid solution treatment[J].Colloids and Surfaces A Physicochemical and Engineering Aspects,2013, 417:161-169. [49] Mikko Veps?l?inen,Pulliainen M,Mika Sillanp??.Effect of electrochemical cell structure on natural organic matter (NOM) removal from surface water through electrocoagulation (EC)[J].Separation & Purification Technology,2012,99(41): 20-27. [50] Dubrawski K L,Mohseni M.Standardizing electrocoagulation reactor design:iron electrodes for NOM removal[J]. Chemosphere,2013,91:55-60. [51] Sarkar S,Ali S,Rehmann L,et al.Degradation of estrone in water and wastewater by various advanced oxidation processes[J].Journal of Hazardous Materials,2014,278:16-24. [52] Bolobajev J,Trapido M,Goi A.Effect of iron ion on doxycycline photocatalytic and Fenton-based autocatatalytic decomposition[J].Chemosphere,2016,153:220-226. [53] Souza F S,Liliana Amaral Féris.Degradation of caffeine by advanced oxidative processes:O3 and O3/UV[J].Ozone: Science & Engineering,2015,37(4):379-384. [54] Ramiro V R,Mario M T,Javier N L,et al.Assessment of the kinetics of oxidation of some steroids and pharmaceutical compounds in water using ozone[J].Journal of Environmental Chemical Engineering,2014,2(1):316-323. [55] Feng L,Watts M J,Yeh D,et al.The efficacy of ozone/BAC treatment on non-steroidal anti-inflammatory drug removal from drinking water and surface water[J].Ozone:Science & Engineering,2015,37(4):343-356. [56] Carra I,Sánchez Pérez,José Antonio,Malato S,et al.Application of high intensity UVC-LED for the removal of acetamiprid with the photo-Fenton process[J].Chemical Engineering Journal,2015,264:690-696. [57] Villegas-Guzman P,Silva-Agredo J,Giraldo-Aguirre A L, et al.Enhancement and inhibition effects of water matrices during the sonochemical degradation of the antibiotic dicloxacillin[J].Ultrasonics Sonochemistry,2015,22:211-219.