Open Access
Issue
E3S Web of Conf.
Volume 393, 2023
2023 5th International Conference on Environmental Prevention and Pollution Control Technologies (EPPCT 2023)
Article Number 03018
Number of page(s) 4
Section Pollution Control and Waste Recycling
DOI https://doi.org/10.1051/e3sconf/202339303018
Published online 02 June 2023
  1. Huang Wenjian, Chen Fang, et.al. Research progress of groundwater pollution status and remediation technology[J].Water treatment technology, 2021,47(07):12-18. [Google Scholar]
  2. Ministry of Ecology and Environment of the People's Republic of China.2018 Bulletin of Ecological Environment Quality in China [R]. [Google Scholar]
  3. Wang Lei. Discussion on excessive iron and manganese in groundwater and its treatment [J]. Clean the world, 2022, 38(02):121-122. [Google Scholar]
  4. Peng Zhijun. Treatment of excessive iron and manganese in groundwater [J]. Guangdong Chemical Industry,2019, 46(15) :130-131 [Google Scholar]
  5. Jin Yang, Jiang Yuehua, Li Yun. Research progress of arsenic pollution in groundwater [J]. Groundwater,2015, 37(01): 67-69. [Google Scholar]
  6. Wang Shiqin, Zheng Wenbo, et.al. Distribution characteristics and spatial differences of nitrate in shallow groundwater in agricultural areas of North China [J]. Chinese Journal of Eco-Agriculture,, 2018,26(10):1476-1482. [Google Scholar]
  7. Liu Lijuan, Wang Chang, et.al. Study on the spatial distribution characteristics and causes of ammonia nitrogen in groundwater of North Forest Area of Suihua City [J]. Environmental Science and Management,2022,47(07):55-60. [Google Scholar]
  8. Ma Wenjie, Chen Tianhu, et.al. δ-MnO2/Zeolite nanocomposite also removes ferric manganese ammonia nitrogen from groundwater[J]. Environmental science,2019,40(10):4553-4561. [Google Scholar]
  9. Jayaswal K, Sahu V, Gurjar B R. Water pollution, human health and remediation[J]. Water remediation, 2018: 11-27. [Google Scholar]
  10. Zhang Wei, Zhu Jianglong, Groundwater iron and manganese pollution and treatment methods [J]. Guangdong Chemical Industry,2018, 45(18):163-164+153. [Google Scholar]
  11. Zhang Zhiwei, Zhou Junjie, et.al. Research progress of iron and manganese removal technology from groundwater [C]//Chinese Society of Environmental Sciences,2020:629-633. DOI:10.26914/c.cnkihy.2020.040293. [Google Scholar]
  12. Chen Biao, Wang Ling, et.al. Microplastics and their ecological effects in water environment [J]. Journal of Ecotoxicology,2019,14(01):30-40. [Google Scholar]
  13. Wang Zubo. Study on the mechanism of degradation of bisphenol A in hydrolysates by oxidation [J]. Current Salt Chemical Engineering, 2018, 45 (01): 21-23.DOI: 10.19465/j.cnki.2095-9710.2018.01.010. [Google Scholar]
  14. Zhang Haitao, Liu Wenjing, et.al. Research status of modified nano zero-valent iron in the remediation of organic polluted groundwater [J]. Guangzhou Chemical Industry,2019,47(13):30-32. [Google Scholar]
  15. Ma Wenjie. Simultaneous removal of iron, manganese, ammonia and nitrogen from groundwater by δ-MnO2/zeolite [D]. Hefei University of Technology, 2020. DOI: 10.27101/d.cnki.ghfgu.2020.000240. [Google Scholar]
  16. Liu Xiaotian. Study on removal effect and mechanism of arsenic by biological iron and manganese removal filter [D]. Harbin Institute of Technology, 2010. [Google Scholar]
  17. Zhang Ying, Su Lei, et.al. Study on the optimum preparation technology of modified activated carbon to remove iron and manganese from groundwater in villages and towns [C]//. Proceedings of the 18th Shenyang Annual Scientific Conference., 2021:235-239. [Google Scholar]
  18. Yao Xuan. Study on efficiency and mechanism of Fe-Mn composite oxide filter media for removal of typical trace pollutants in groundwater [D]. Xi'an University of Architecture and Technology, 2020. DOI: 10.27393/d.cnki.gxazu.2020.000647. [Google Scholar]
  19. Zhang Jie, et.al. Mechanism and Engineering Technology of Biological manganese Fixation and Removal [M]. China Architecture and Building Press, 2005. [Google Scholar]
  20. Ji Xuemei, Yang Bin, et.al. Research and application of iron and manganese removal technology by biological method in Northwest China [J]. Research on Water Conservancy Development., 2021,21 (08): 36-41. [Google Scholar]
  21. Zhang Jie, Wang Yulin,, et al. Experimental study on purification of low temperature and high iron and manganese groundwater by biofilter [J]. Journal of Beijing University of Technology, 2018, 44 (09):1239-1246. [Google Scholar]
  22. Huang Jialu. Study on removal of Manganese and ammonia nitrogen from drinking water by zeolite filter [D]. Hunan University, 2021. [Google Scholar]
  23. Li Dong, Cao Ruihua, et al. Ammonia nitrogen removal mechanism of biological purification of low temperature high iron, manganese and ammonia nitrogen groundwater [J]. China Journal of Environmental Sciences, 2017, 37 (07):2623-2632. [Google Scholar]
  24. Li Guibai. Iron and manganese removal from groundwater [M]. 1989. [Google Scholar]
  25. Huang Kaijie. Study on the treatment of iron and manganese groundwater by gravity flow ultrafiltration [D]. Harbin Institute of Technology,2020. [Google Scholar]
  26. Zhang Fan. Study on removal efficiency and mechanism of arsenic (V) in groundwater by contact oxidation filter with iron, manganese and ammonia nitrogen removal [D]. Xi'an University of Architecture and Technology, 2017. [Google Scholar]
  27. Guo Y, Huang T, Wen G, et al. The simultaneous removal of ammonium and manganese from groundwater by iron-manganese co-oxide filter film: The role of chemical catalytic oxidation for ammonium removal[J]. Chemical Engineering Journal, 2017, 308: 322-329. [CrossRef] [Google Scholar]
  28. Guo Y, Ma B, Huang J, et al. The simultaneous removal of bisphenol A, manganese and ammonium from groundwater by MeOx: the role of chemical catalytic oxidation for bisphenol A[J]. Water Supply, 2022, 22(2): 2106-2116 [CrossRef] [Google Scholar]

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