RESEARCH PROGRESS ON OCCURRENCE AND CONTROL OF EMERGING POLLUTANTS IN PROCESS OF SLUDGE RECYCLING
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摘要: 新兴污染物在污泥中的检出率逐年增加,给污泥的处理带来安全隐患。污泥资源化利用(厌氧消化制沼气和好氧堆肥制土壤改良剂)不仅能实现废弃物的循环利用,还能有效削减污泥中的新兴污染物。从污泥中检出率较高的3类新兴污染物入手,综述不同新兴污染物在污泥中的赋存状况以及污泥资源化过程中新兴污染物的控制措施。污泥资源化处理工艺能够有效控制和削减污泥中存在的大部分新兴污染物。不同新兴污染物的去除效果主要受污染物自身理化性质、降解难易程度、温度、pH、C/N、外源物质添加等因素影响。提出未来应将多种新兴污染物共存体系的去除路径及降解机制研究、优化关键控制参数、提高新兴污染物去除率作为重点研究及技术突破。Abstract: The detected ratea of emerging pollutants in sludge are increasing year by year, which brings potential safety hazard to sludge treatment. Sludge utilization (anaerobic digestion to biogas and aerobic composting to soil amendment) can not only realize the recycling of waste, but also effectively reduce the emerging pollutants in sludge. Therefore, this paper reviewed the occurrence of different emerging pollutants in sludge and the control measures of emerging pollutants in the process of sludge recycling. Sludge resource treatment process can effectively control and reduce the majority of emerging pollutants in the sludge. The removal efficiency of different emerging pollutants was mainly affected by the physical and chemical properties of the pollutants, degradation difficulty, temperature, pH, C/N and the addition of exogenous substances. It was proposed that the removal paths and degradation mechanism of multiple emerging pollutants coexistence system, optimization of the control parameters and rise of removal rate of emerging pollutants should be the technical breakthrough points in the future.
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Key words:
- sludge /
- emerging pollutants /
- anaerobic digestion /
- aerobic composting /
- resource utilization
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[1] 段妮娜,王逸贤,王磊,等.我国污泥处理处置主流技术路线的发展概况及制约因素[J].城市道桥与防洪,2019(11):86-89. [2] 黄磊.污泥处理处置现状分析[J].南方农机,2019,50(24):282. [3] 倪少仁,陈景阳,黄魁.城市污水污泥现状及未来的发展[J].广东化工,2020,47(14):133-134. [4] 朱盛胜,陈宁,李剑华.城市污泥处置技术及资源化技术的应用进展[J].广东化工,2018,45(24):28-32. [5] MARCOUX M A,MATIAS M,OLIVIER F,et al.Review and prospect of emerging contaminants in waste:key issues and challenges linked to their presence in waste treatment schemes:general aspects and focus on nanoparticles[J].Waste Manage,2013,33(11):2147-2156. [6] AHMAD M,ESKICIOGLU C.Fate of sterols,polycyclic aromatic hydrocarbons,pharmaceuticals,ammonia and solids in single-stage anaerobic and sequential anaerobic/aerobic/anoxic sludge digestion[J].Waste Manage,2019,93:72-82. [7] COELLO-GARCIA T,CURTIS T P,MROZIK W,et al.Enhanced estrogen removal in activated sludge processes through the optimization of the hydraulic flow pattern[J].Water Research,2019,164:114905. [8] 叶欣,张娴,张晗,等.对活性污泥中6种内分泌干扰物的定量测定[J].环境化学,2012,31(1):100-106. [9] NIETO A,BORRULL F,POCURULL E,et al.Determination of natural and synthetic estrogens and their conjugates in sewage sludge by pressurized liquid extraction and liquid chromatography-tandem mass spectrometry[J].Journal of Chromatography A,2008,1213(2):224-230. [10] STASINAKIS A S.Review on the fate of emerging contaminants during sludge anaerobic digestion[J].Bioresource Technology,2012,121:432-440. [11] NIE Y F,QIANG Z M,ZHANG H Q,et al.Determination of endocrine-disrupting chemicals in the liquid and solid phases of activated sludge by solid phase extraction and gas chromatography-mass spectrometry[J].Journal of Chromatography A,2009,1216(42):7071-7080. [12] ESPERANZA M,SUIDAN M T,MARFIL-VEGA R,et al.Fate of sex hormones in two pilot-scale municipal wastewater treatment plants:conventional treatment[J].Chemosphere,2007,66(8):1535-1544. [13] LEE H B,PEART T E,CHAN J,et al.Occurrence of endocrine-disrupting chemicals in sewage and sludge samples in Toronto,Canada[J].Water Quality Research Journal of Canada,2004,39(1):57-63. [14] BOLZ U,HAGENMAIER H,KORNER W.Phenolic xenoestrogens in surface water,sediments,and sewage sludge from Baden-Wurttemberg,south-west Germany[J].Environ Pollut,2001,115(2):291-301. [15] MATHIEU M,FANJA R,PATRICK B,et al.Chemical and biological analysis of endocrine-disrupting hormones and estrogenic activity in an advanced sewage treatment plant[J].2008. [16] MURPHY F,EWINS C,CARBONNIER F,et al.Wastewater treatment works (WwTW) as a source of microplastics in the aquatic environment[J].Environmental Science & Technology,2016,50(11):5800-5808. [17] WEI W,HUANG Q S,SUN J,et al.Revealing the mechanisms of polyethylene microplastics affecting anaerobic digestion of waste activated sludge[J].Environmental Science & Technology,2019,53(16):9604-9613. [18] WEI W,ZHANG Y,HUANG Q,et al.Polyethylene terephthalate microplastics affect hydrogen production from alkaline anaerobic fermentation of waste activated sludge through altering viability and activity of anaerobic microorganisms[J].Water Res,2019,163:114881. [19] MAHON A M,O CONNELL B,HEALY M G,et al.Microplastics in sewage sludge:effects of treatment[J].Environ Sci Technol,2016,51(2):810-818. [20] ROCHMAN C M,hoh E,HENTSCHEL B T,et al.Long-term field measurement of sorption of organic contaminants to five types of plastic pellets:implications for plastic marine debris[J].Environ Sci Technol,2013:1629014281. [21] LITHNER D,LARSSON Å,DAVE G.Environmental and health hazard ranking and assessment of plastic polymers based on chemical composition[J].Sci Total Environ,2011,409(18):3309-3324. [22] 汪文玲,龙邹霞,余兴光,等.厦门市筼筜污水处理厂中微塑料的特征研究[J].海洋环境科学,2019,38(2):205-210. [23] LI X,CHEN L,MEI Q,et al.Microplastics in sewage sludge from the wastewater treatment plants in China[J].Water Res,2018,142:75-85. [24] 李小伟,纪艳艳,梅庆庆,等.污水处理厂污水和污泥中微塑料的研究展望[J].净水技术,2019,38(7):13-22. [25] ZUBRIS K,RICHARDS B K.Synthetic fibers as an indicator of land application of sludge[J].Environ Pollut,2005,138(2):201-211. [26] PRUDEN A,PEI R,STORTEBOOM H,et al.Antibiotic resistance genes as emerging contaminants:studies in northern colorado†[J].Environ Sci Technol,2006,40(23):7445-7450. [27] KAYALI O,ICGEN B.Untreated HWWs emerged as hotpots for ARGs[J].B Environ Contam Tox,2020,104(3):386-392. [28] XUE G,JIANG M,CHEN H,et al.Critical review of ARGs reduction behavior in various sludge and sewage treatment processes in wastewater treatment plants[J].Crit Rev Env Sci Tec,2019,49(18):1623-1674. [29] MUNIR M,WONG K,XAGORARAKI I.Release of antibiotic resistant bacteria and genes in the effluent and biosolids of five wastewater utilities in Michigan[J].Water Res,2011,45(2):681-693. [30] 韦蓓,黄福义,苏建强.堆肥对污泥中四环素类抗生素及抗性基因的影响[J].环境工程学报,2014,8(12):5431-5438. [31] 安新丽,苏建强.活性污泥抗生素抗性基因研究进展[J].微生物学通报,2019,46(8):2069-2079. [32] 张丹丹,郭亚平,任红云,等.福建省敖江下游抗生素抗性基因分布特征[J].环境科学,2018,39(6):2600-2606. [33] BIBBY K,PECCIA J.Identification of viral pathogen diversity in sewage sludge by metagenome analysis[J].Environ Sci Technol,2013,47(4):1945-1951. [34] 戴晓虎,李小伟,杨婉,等.污水处理厂污泥中病毒的赋存特性及处理处置过程中暴露风险防控研究进展[J].给水排水,2020,56(3):60-73. [35] PRADO T,GASPAR A M,MIAGOSTOVICH M P.Detection of enteric viruses in activated sludge by feasible concentration methods[J].Braz J Microbiol,2014,45(1):343-349. [36] MONPOEHO S,MAUL A,MIGNOTTE-CADIERGUES B,et al.Best Viral Elution Method Available for Quantification of Enteroviruses in Sludge by Both Cell Culture and Reverse Transcription-PCR[J].2001. [37] CHEN J L,RAVINDRAN S,SWIFT S,et al.Changes in estrogenicity and micropollutant concentrations across unit processes in a biological wastewater treatment system[J].Water Sci Technol,2018,77(6):1673-1682. [38] CARBALLA M,OMIL F,ALDER A C,et al.Comparison between the conventional anaerobic digestion of sewage sludge and its combination with a chemical or thermal pre-treatment concerning the removal of pharmaceuticals and personal care products[J].Water Sci Technol,2006,53(8):109-117. [39] BENABDALLAH EL-HADJ T,DOSTA J,MATA-ÁLVAREZ J.Biodegradation of PAH and DEHP micro-pollutants in mesophilic and thermophilic anaerobic sewage sludge digestion[J].Water Sci Technol,2006,53(8):99-107. [40] CHANG B V,CHIANG F,YUAN S Y.Anaerobic degradation of nonylphenol in sludge[J].Chemosphere,2005,59(10):1415-1420. [41] MULLER M,COMBALBERT S,DELGENÈs N,et al.Occurrence of estrogens in sewage sludge and their fate during plant-scale anaerobic digestion[J].Chemosphere,2010,81(1):65-71. [42] ANDERSEN H,SIEGRIST H,HALLING-SORENSEN B,et al.Fate of estrogens in a municipal sewage treatment plant[J].Environ Sci Technol,2003,37(18):4021-4026. [43] FENG Y,FENG l,LIU S,et al.Emerging investigator series:inhibition and recovery of anaerobic granular sludge performance in response to short-term polystyrene nanoparticle exposure[J].Environmental science water research & technology,2018,4(12):1902-1911. [44] TALVITIE J,HEINONEN M,PÄÄKKÖNEN J,et al.Do wastewater treatment plants act as a potential point source of microplastics?Preliminary study in the coastal Gulf of Finland,Baltic Sea[J].Water Sci Technol,2015,72(9):1495-1504. [45] YOSHIDA S,HIRAGA K,TAKEHANA T,et al.A bacterium that degrades and assimilates poly(ethylene terephthalate)[J].Science,2016,351(6278):1196-1199. [46] SHAH A A,HASAN F,HAMEED A,et al.Biological degradation of plastics:a comprehensive review[J].Biotechnol Adv,2008,26(3):246-265. [47] UNDRI A,ROSI L,FREDIANI M,et al.Efficient disposal of waste polyolefins through microwave assisted pyrolysis[J].Fuel,2014,116:662-671. [48] 王梦黎.典型抗性基因在污泥预处理及厌氧消化系统中的分布和去除[D].天津:天津大学,2017. [49] 姜明吉,薛罡,陈红,等.pH值对污泥热水解/厌氧消化过程抗性基因的影响[J].中国给水排水,2019,35(13):16-22. [50] XIANG Y P,YANG Z H,ZHANG Y R,et al.Influence of nanoscale zero-valent iron and magnetite nanoparticles on anaerobic digestion performance and macrolide,aminoglycoside,β-lactam resistance genes reduction[J].Bioresource Technology,2019,294:122139. [51] JU F,LI B,MA L P,et al.Antibiotic resistance genes and human bacterial pathogens:co-occurrence,removal,and enrichment in municipal sewage sludge digesters[J].Water Research,2016,91:1-10. [52] GODDARD M R,BATES J,BUTLER M.Recovery of indigenous enteroviruses from raw and digested sewage sludges[J].Applied and Environmental Microbiology,1981,42(6):1023-1028. [53] SIMMONS F J,XAGORARAKI I.Release of infectious human enteric viruses by full-scale wastewater utilities[J].Water Research,2011,45(12):3590-3598. [54] WONG K,ONAN B M,XAGORARAKI I.Quantification of enteric viruses,pathogen indicators,and salmonella bacteria in class B anaerobically digested biosolids by culture and molecular methods[J].Applied and Environmental Microbiology,2010,76(19):6441-6448. [55] LEVANTESI C,BEIMFOHR C,BLANCH A R,et al.Hygienization performances of innovative sludge treatment solutions to assure safe land spreading[J].Environmental Science and Pollution Research,2015,22(10):7237-7247. [56] SPILLMANN S K,TRAUB F,SCHWYZER M,et al.Inactivation of animal viruses during sewage sludge treatment[J].Applied and Environmental Microbiology,1987,53(9):2077-2081. [57] LI F,YUASA A,OBARA A,et al.Aerobic batch degradation of 17-β estradiol (E2) by activated sludge:effects of spiking E2 concentrations,MLVSS and temperatures[J].Water Research,2005,39(10):2065-2075. [58] MARTÍN J,CAMACHO-MUÑOZ M D,SANTOS J L,et al.Distribution and temporal evolution of pharmaceutically active compounds alongside sewage sludge treatment.Risk assessment of sludge application onto soils[J].Journal of Environmental Management,2012,102:18-25. [59] 周莉娜,蔡函臻,李荣华,等.膨润土调质对污泥堆肥的脱毒及重金属钝化和雌酮消除作用[J].环境科学,2017,38(7):3061-3069. [60] PAN J T,LI R H,ZHAI L M,et al.Influence of palygorskite addition on biosolids composting process enhancement[J].Journal of Cleaner Production,2019,217:371-379. [61] MULLER M,COMBALBERT S,DELGENÈs N,et al.Occurrence of estrogens in sewage sludge and their fate during plant-scale anaerobic digestion[J].Chemosphere,2010,81(1):65-71. [62] LEEJARKPAI T,SUWANMANEE U,RUDEEKIT Y,et al.Biodegradable kinetics of plastics under controlled composting conditions[J].Waste Management,2011,31(6):1153-1161. [63] CHEN Z,ZHAO W Q,XING R Z,et al.Enhanced in situ biodegradation of microplastics in sewage sludge using hyperthermophilic composting technology[J].Journal of Hazardous Materials,2020,384:121271. [64] 余震,周桂顺.超高温好氧发酵技术:堆肥快速腐熟与污染控制机制[J].南京农业大学学报,2020. [65] ZHANG Y J,LI H C,GU J,et al.Effects of adding different surfactants on antibiotic resistance genes and intI1 during chicken manure composting[J].Bioresource Technology,2016,219:545-551. [66] LIAO H P,LU X M,RENSING C,et al.Hyperthermophilic Composting Accelerates the Removal of Antibiotic Resistance Genes and Mobile Genetic Elements in Sewage Sludge[J].Environmental Science & Technology,2017,52(1):266-276. [67] 栗利娟.整合宏组学方法分析工农业有机固废堆肥的无害化过程[D].济南:山东大学,2019. [68] AWASTHI M K,CHEN H,AWASTHI S K,et al.Application of metagenomic analysis for detection of the reduction in the antibiotic resistance genes (ARGs) by the addition of clay during poultry manure composting[J].Chemosphere,2019,220:137-145. [69] WEI H W,MA J Y,SU Y L,et al.Effect of nutritional energy regulation on the fate of antibiotic resistance genes during composting of sewage sludge[J].Bioresource Technology,2020,297:122513. [70] CABAÑAS-VARGAS D,DE LOS RÍOS IBARRA E,MENA-SALAS J,et al.Composting used as a low cost method for pathogen elimination in sewage sludge in mérida,mexico[J].Sustainability-Basel,2013,5(7):3150-3158. [71] HECK K,DE MARCO E G,HAHN A B B,et al.Evaluation of degradation temperature of compounds in a composting process and microbiological quality of the compost[J].Revista Brasileivade Engenharia Agricolae Ambiental,2013,17(1):54-59. [72] WATANABE T,SANO D,OMURA T.Risk evaluation for pathogenic bacteria and viruses in sewage sludge compost[J].Water Science and Technology,2002,46(11/12):325-330. [73] WARD R L,ASHLEY C S.Heat inactivation of enteric viruses in dewatered wastewater sludge[J].Applied and Environmental Microbiology,1978,36(6):898-905. [74] PALUSZAK Z,LIPOWSKI A,LIGOCKA A.Survival rate of Suid Herpesvirus (SuHV-1,Aujeszky's disease virus,ADV) in composted sewage sludge[J].Polish Journal of Veterinary Sciences,2012,15(1):51-54.
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