Please wait a minute...
 
最新公告: 重要提醒:骗子冒充编辑部要求加作者微信,谨防上当!   关于暑假、寒假期间版面费发票及期刊样刊延迟邮寄的通知    
现代化工  2023, Vol. 43 Issue (2): 17-21    DOI: 10.16606/j.cnki.issn0253-4320.2023.02.004
  技术进展 本期目录 | 过刊浏览 | 高级检索 |
城市污水处理厂中新兴污染物微塑料的研究进展
张雪峰, 黄云清, 李潜, 黎耀文, 朱静
江苏大学环境与安全工程学院, 江苏 镇江 212013
Research progress on emerging microplastics pollutant in municipal sewage treatment plants
ZHANG Xue-feng, HUANG Yun-qing, LI Qian, LI Yao-wen, ZHU Jing
School of the Environment and Safety Engineering, Jiangsu University, Zhenjiang 212013, China
下载:  PDF (1559KB) 
输出:  BibTeX | EndNote (RIS)      
摘要 对现有关于城市污水处理中微塑料的研究成果进行了综述,系统阐述了城市污水处理厂中微塑料的来源、特征、类型及其在污水处理系统中的迁移与归趋情况等,并在此基础上进一步提出防止污水厂中微塑料污染的建议。
服务
把本文推荐给朋友
加入引用管理器
E-mail Alert
RSS
作者相关文章
张雪峰
黄云清
李潜
黎耀文
朱静
关键词:  微塑料  污染  城市污水处理厂  特征  迁移    
Abstract: Present research progress on microplastics in municipal wastewater treatment are reviewed.The source,characteristics and types of microplastics in municipal sewage treatment plants (MWTPs),as well as their migration and fate in wastewater treatment system are described in detail.On the basis,some suggestions are given about the prevention of microplastic pollution in wastewater treatment plants.
Key words:  microplastics    pollution    MWTPs    characteristics    migration
               出版日期:  2023-02-20
ZTFLH:  X52  
基金资助: 国家自然科学基金项目(51478208)
通讯作者:  李潜(1972-),女,博士,教授,研究方向为水污染控制,通讯联系人,liq@ujs.edu.cn。    E-mail:  liq@ujs.edu.cn
作者简介:  张雪峰(1993-),男,硕士生,研究方向为污水处理技术,1912624889@qq.com。
引用本文:    
张雪峰, 黄云清, 李潜, 黎耀文, 朱静. 城市污水处理厂中新兴污染物微塑料的研究进展[J]. 现代化工, 2023, 43(2): 17-21.
ZHANG Xue-feng, HUANG Yun-qing, LI Qian, LI Yao-wen, ZHU Jing. Research progress on emerging microplastics pollutant in municipal sewage treatment plants. Modern Chemical Industry, 2023, 43(2): 17-21.
链接本文:  
https://www.xdhg.com.cn/CN/10.16606/j.cnki.issn0253-4320.2023.02.004  或          https://www.xdhg.com.cn/CN/Y2023/V43/I2/17
[1] Thompson R C.Lost at sea:Where is all the plastic?[J].Science,2004,304(5672):838.
[2] Gross M.Oceans of plastic waste[J].Current Biology,2015,25(3):93-96.
[3] 李俊峰.全球生态环境保护任重道远——第四届联合国环境大会评述[J].世界环境,2020,2020(2):22-23.
[4] Schymanski D,Goldbeck C,Humpf H U,et al.Analysis of microplastics in water by micro-Raman spectroscopy:Release of plastic particles from different packaging into mineral water[J].Water Res,2018,129:154-162.
[5] 本刊编辑部.中国移动源环境管理年报(2019)[J].中国能源,2019,41(10):1-49.
[6] Enfrin M,Dumee L F,Lee J.Nano/microplastics in water and wastewater treatment processes-Origin,impact and potential solutions[J].Water Research,2019,161:621-638.
[7] Tian Y,Chen Z,Zhang J,et al.An innovative evaluation method based on polymer mass detection to evaluate the contribution of microfibers from laundry process to municipal wastewater[J].Journal of Hazardous Materials,2021,407:124861-124869.
[8] Lei K,Qiao F,Liu Q,et al.Microplastics releasing from personal care and cosmetic products in China[J].Marine Pollution Bulletin,2017,123:122-126.
[9] Cai Y,Mitrano D M,Heuberger M,et al.The origin of microplastic fiber in polyester textiles:The textile production process matters[J].Journal of Cleaner Production,2020,267(2):121970-121982.
[10] Pinon-Colin T J,Rodriguez-Jimenez R,Rogel-Hernandez E,et al.Microplastics in stormwater runoff in a semiarid region,Tijuana,Mexico[J].Science of The Total Environment,2020,704:135411-135418.
[11] Moore C J,Lattin G L,Zellers A F.Quantity and type of plastic debris flowing from two urban rivers to coastal waters and beaches of Southern California[J].Revista de Gestão Costeira Integrada,2011,11:65-73.
[12] Cheung P K,Hung P L,Fok L.River microplastic contamination and dynamics upon a rainfall event in Hong Kong,China[J].Environmental Processes,2018,6(2018):253-264.
[13] 许霞,侯青桐,薛银刚,等.污水厂中微塑料的污染及迁移特征研究进展[J].中国环境科学,2018,38(11):4393-4400.
[14] Bayo J,Olmos S,Lopez-Castellanos J.Microplastics in an urban wastewater treatment plant:The influence of physicochemical parameters and environmental factors[J].Chemosphere,2020,238:124593-124603.
[15] Hidayaturrahman H,Lee T G.A study on characteristics of microplastic in wastewater of South Korea:Identification,quantification,and fate of microplastics during treatment process[J].Mar Pollut Bull,2019,146:696-702.
[16] Lares M,Ncibi M C,Sillanpaa M,et al.Occurrence,identification and removal of microplastic particles and fibers in conventional activated sludge process and advanced MBR technology[J].Water Research,2018,133:236-246.
[17] Kazour M,Terki S,Rabhi K,et al.Sources of microplastics pollution in the marine environment:Importance of wastewater treatment plant and coastal landfill[J].Marine Pollution Bulletin,2019,146:608-618.
[18] Lehtiniemi M,Hartikainen S,Näkki P,et al.Size matters more than shape:Ingestion of primary and secondary microplastics by small predators[J].Food Webs,2018,17:1-6.
[19] Qiao R,Deng Y,Zhang S,et al.Accumulation of different shapes of microplastics initiates intestinal injury and gut microbiota dysbiosis in the gut of zebrafish[J].Chemosphere,2019,236:124334-124345.
[20] Talvitie J,Mikola A,Koistinen A,et al.Solutions to microplastic pollution-Removal of microplastics from wastewater effluent with advanced wastewater treatment technologies[J].Water Research,2017,123:401-407.
[21] 白濛雨,赵世烨,彭谷雨,等.城市污水处理过程中微塑料赋存特征[J].中国环境科学,2018,38(5):1734-1743.
[22] Sait S T L,Sorensen L,Kubowicz S,et al.Microplastic fibres from synthetic textiles:Environmental degradation and additive chemical content[J].Environ Pollut,2021,268:115745-115754.
[23] 李蕊瑞.双酚A的遗传毒性及其作用模式[J].卫生研究,2021,50(2):353-358.
[24] 刘蓥蓥,张旗,崔文智,等.聚乙烯微塑料对绿豆发芽的毒性研究[J].环境与发展,2019,31(5):123-125.
[25] Liu X,Yuan W,Di M,et al.Transfer and fate of microplastics during the conventional activated sludge process in one wastewater treatment plant of China[J].Chemical Engineering Journal,2019,362:176-182.
[26] Hou L,Griswold N,Ji J,et al.Specific affinity and relative abundance of methanogens in acclimated anaerobic sludge treating low-strength wastewater[J].Appl Microbiol Biotechnol,2020,104(3/4):291-302.
[27] Carr S A,Liu J,Tesoro A G.Transport and fate of microplastic particles in wastewater treatment plants[J].Water Research,2016,91:174-182.
[1] 苏介浦, 李阳. 高级氧化技术处理炼化废水的研究进展[J]. 现代化工, 2023, 43(2): 71-73,79.
[2] 熊启阳, 李永光, 朱泊旭, 林玉杰, 马昕霞. 天然进料下反电渗析法中污染物的研究进展[J]. 现代化工, 2023, 43(1): 42-46.
[3] 付进南, 任燕飞, 陈春生, 刘纪成. 低温下MBR工艺在微污染水体中的强化脱氮研究[J]. 现代化工, 2023, 43(1): 250-253,258.
[4] 谢雨东, 王晓伟, 门金凤, 秦飞波. 电渗析处理工业废水应用进展[J]. 现代化工, 2022, 42(S2): 43-46,50.
[5] 陈敏. 芬顿技术去除地下水有机污染物研究进展[J]. 现代化工, 2022, 42(S2): 66-70.
[6] 霍乾伟, 李天元, 张闻, 宋繁永, 王加宁, 陈贯虹. 微生物修复石油污染土壤影响因素分析[J]. 现代化工, 2022, 42(S2): 83-87,93.
[7] 侯心然, 李琪, 李天元, 李田, 孙小喜, 祁志冲, 张强. 盐胁迫对石油污染土壤生物强化修复过程的影响[J]. 现代化工, 2022, 42(S2): 98-102,107.
[8] 晋艳茹, 史鑫, 王学文, 杜令攀, 黄永丽, 杜雄雁, 符义忠. 硝酸分解磷矿过程中重金属及氟的迁移规律研究[J]. 现代化工, 2022, 42(S2): 119-126,131.
[9] 唐振平, 赵双岑, 朱飞羽, 姜天云, 高媛媛. 微塑料对U(Ⅵ)的吸附特性及机理研究[J]. 现代化工, 2022, 42(S2): 183-190.
[10] 徐浩然, 朱彬源, 冯向东, 曹枭, 杨景焜, 郑翔, 鲁卫哲. 中压紫外杀菌系统处理火电厂锅炉补给水的应用研究[J]. 现代化工, 2022, 42(S2): 390-394,398.
[11] 李莎, 王文奇, 范梦婕, 刘济宁, 陈英文. 环境持久性有机污染物治理技术进展[J]. 现代化工, 2022, 42(6): 43-47.
[12] 唐家毅, 刘丽, 杜建太, 王毅, 曾斌, 张海英. 垃圾渗滤浓缩液焚烧处理技术的研究进展[J]. 现代化工, 2022, 42(6): 83-87.
[13] 王娇, 王鑫, 宋吉亮, 刘畅, 赵博雅, 韩冰雁. 有机质环境中微塑料的分离提取研究进展[J]. 现代化工, 2022, 42(5): 72-76.
[14] 李钊, 赵文滔, 赵毅. 催化氧化法脱除烟气污染物研究进展[J]. 现代化工, 2022, 42(3): 26-30.
[15] 李俊生, 马娜, 徐嘉伦, 夏至, 谭冲, 姜黎明, 左金龙. 钙钛矿光催化剂在农药降解中的研究进展[J]. 现代化工, 2022, 42(3): 69-73.
No Suggested Reading articles found!
Viewed
Full text


Abstract

Cited

  Shared   
  Discussed   
京ICP备09035943号-37
版权所有 © 《现代化工》编辑部
本系统由北京玛格泰克科技发展有限公司设计开发 技术支持:support@magtech.com.cn