魏来1,
赵成雯1,
马欣怡1,
董卿宇1,
朱绿杨1,
仇昀1,
邱永健1,
叶长青1
1.南通大学公共卫生学院,南通226019
基金项目: 国家自然科学基金资助项目(51078348)
南通市科技计划资助项目(MS12016046)
江苏省大学生创新训练计划资助项目(201710304115X)
Enhanced coagulation performance on turbidity and zinc removal by polyaluminum silicon and magnetite
WANG Yuting1,,WEI Lai1,
ZHAO Chengwen1,
MA Xinyi1,
DONG Qingyu1,
ZHU Lüyang1,
QIU Yun1,
QIU Yongjian1,
YE Changqing1
1.School of Public Health, Nantong University, Nantong 226019, China
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摘要:利用共聚复合聚铝硅絮凝剂和四氧化三铁,通过模拟锌污染原水的烧杯混凝实验,研究了复合聚铝硅的硅铝比、四氧化三铁和高岭土的添加对除浊除锌性能及余铝的影响。结果表明,相对于传统氯化铝(AC),以Alb为主的中度聚合铝(MA)除浊性能差,但除锌效果好;聚铝硅(MAS)除浊除锌性能均优于AC,提高硅铝比利于除浊但不利于除锌。反之,四氧化三铁可增强MAS的除锌性能而略降低除浊性能,同时显著降低余铝,但不能降低高硅铝比MAS的混凝余铝。四氧化三铁-MAS联用(FMAS)有协同作用,除锌率高达95%,添加高岭土进一步增强其除锌率,并能保障除浊效果。当FMAS的铁铝比为18,硅铝比为0.05~0.1,并投加高岭土时,除锌率和除浊率均可达99%以上。
关键词: 四氧化三铁/
除浊/
混凝/
硅铝比/
除锌/
余铝
Abstract:In this study, the copolymerized polyaluminium-silicon flocculant and magnetite were used to coagulate the synthetic zinc polluted water with jar test, the effects of silicon to aluminum ratio in composite polyaluminium-silicon, the addition of magnetite and kaolin on the turbidity and zinc removal, as well as the residual aluminum were determined. The results show that compared with traditional aluminum chloride (AC), the moderate polyaluminium (MA) dominated by Alb species presented a worse turbidity removal performance, while a better zinc removal. Polyaluminium silicon (MAS) was superior to AC in turbidity removal and zinc removal. The increase of silicon to aluminum ratio made for turbidity removal but not for zinc removal. On the contrary, magnetite can enhance the zinc removal performance of MAS and slightly abate its turbidity removal, and the residual aluminum in MAS coagulated water was significantly reduced, but this didn’t occur for MAS with high Si/Al ratio. Magnetite-MAS (FMAS) has a synergistic effect with over 95% zinc removal, and kaolin addition can further increase its zinc removal ability and ensure the turbidity removal effect. Both the zinc and turbidity removal efficiencies could reach more than 99% when the polluted water was coagulated by FMAS with the iron-aluminum ratio of 18 and the silicon-aluminum ratio of 0.05~0.1, and kaolin adjuvant.
Key words:magnetite/
turbidity removal/
coagulation/
Si/Al ratio/
zinc removal/
residual aluminum.
[1] | SINGH A, SHARMA RK, AGRAWAL M, et al.Health risk assessment of heavy metals via dietary intake of foodstuffs from the wastewater irrigated site of a dry tropical area of India[J].Food and Chemical Toxicology,2010,48:611–619 10.1016/j.fct.2009.11.041 |
[2] | 周霞,石群.锌与临床疾病关系的探讨[J].中华现代儿科学杂志,2009,6(3):147-149 |
[3] | 李爽,邱春生,孙力平,等.铝板电絮凝法去除重金属离子Cd2+和Ni2+[J].环境工程学报,2016,10(6):2855-2861 10.12030 /j.cjee.201501160 |
[4] | 张立珠,马军,陈忠林,等.新生态铁锰氧化物的混凝及强化混凝效能分析[J].中国给水排水,2008,24(5):94-97 |
[5] | 张翠玲,张明月,常青,等.高分子重金属絮凝剂MCC制备及除铜去浊性能[J].环境工程学报,2014,8(7):2690-2696 |
[6] | 章敏,常青,王进喜,等.高分子重金属絮凝剂MAC除Cu2+、去浊性能[J].环境科学学报,2007,27(12):1994-2000 |
[7] | AYOUB G M, SEMERJIAN L, ACRA A, et al.Heavy metal removal by coagulation with seawater liquid bittern [J].Canadian Metallurgical Quarterly,2001,127(3):196-207 10.1061/(ASCE)0733-9372(2001)127:3(196) |
[8] | NAKAJIMA J, FUJINAMI M, OGUMA K.A novel separation and preconcentration method for traces of manganese, cobalt, zinc and cadmium using coagulation of colloidal silica[J].Analytical Sciences,2004,20(12):1733-1736 10.2116/analsci.20.1733 |
[9] | 周芬,汪晓军.化学-混凝沉淀处理含氟含重金属废水研究[J].环境工程学报,2012,6(2):445-450 |
[10] | HUANGFU X L,MA C X,MA J,et al. Significantly improving trace thallium removal from surface waters during coagulation enhanced by nanosized manganese dioxide[J].Chemosphere,2017,168:264-271 10.1016/j.chemosphere.2016.10.054 |
[11] | ARAGHI S H, ENTEZARI M H, CHAMSAZ M.Modification of mesoporous silica magnetite nanoparticles by 3-aminopropyl triethoxysilane for the removal of Cr(VI) from aqueous solution[J].Microporous and Mesoporous Materials,2015,218:101-111 10.1016/j.micromeso.2015.07.008 |
[12] | PEREZ J M.Iron oxide nanoparticles hidden talent [J].Nature Nanotechnology,2007,2(9):535-536 10.1038/nnano.2007.282 |
[13] | YAVUZ C T, MAYOJ T , YUW W, et al.Low-field magnetic separation of monodisperse Fe3O4 nanocrystals[J].Science,2006,314(5801):964-967 10.1126/science.1131475 |
[14] | YE C Q, WANG D S, WU X H, et al.k-value-based ferron assay and its application[J].Journal of Colloid and Interface Science,2009,335(1):44-49 10.1016/j.jcis.2009.02.056 |
[15] | YE C Q, BI Z, WANG D S.Formation of Al30 from aqueous polyaluminum chloride under high temperature: Role of Al13 aggregates [J].Colloids and Surfaces A: Physicochemical and Engineering Aspects,2013,955(1/2/3):75-77 10.1016/j.colsurfa.2013.08.013 |
[16] | YE C Q, WANG D S, SHI B Y, et al.Alkalinity effect of coagulation with polyaluminum chlorides: Role of electrostatic patch[J].Colloids and Surfaces A: Physicochemical and Engineering Aspects,2007,294(1/2/3):163-173 10.1016/j.colsurfa.2006.08.005 |
[17] | 汤鸿霄.无机高分子絮凝理论与絮凝剂[M].北京:中国建筑工业出版社,2006 |
[18] | 中华人民共和国卫生部,中国国家标准化管理委员会.生活饮用水卫生标准: GB 5749-2006 [S].北京:中国标准出版社,2006 |
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刊出日期:2018-11-29
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聚铝硅与四氧化三铁强化混凝除浊除锌性能
汪玉亭1,,魏来1,
赵成雯1,
马欣怡1,
董卿宇1,
朱绿杨1,
仇昀1,
邱永健1,
叶长青1
1.南通大学公共卫生学院,南通226019
基金项目: 国家自然科学基金资助项目(51078348) 南通市科技计划资助项目(MS12016046) 江苏省大学生创新训练计划资助项目(201710304115X)
关键词: 四氧化三铁/
除浊/
混凝/
硅铝比/
除锌/
余铝
摘要:利用共聚复合聚铝硅絮凝剂和四氧化三铁,通过模拟锌污染原水的烧杯混凝实验,研究了复合聚铝硅的硅铝比、四氧化三铁和高岭土的添加对除浊除锌性能及余铝的影响。结果表明,相对于传统氯化铝(AC),以Alb为主的中度聚合铝(MA)除浊性能差,但除锌效果好;聚铝硅(MAS)除浊除锌性能均优于AC,提高硅铝比利于除浊但不利于除锌。反之,四氧化三铁可增强MAS的除锌性能而略降低除浊性能,同时显著降低余铝,但不能降低高硅铝比MAS的混凝余铝。四氧化三铁-MAS联用(FMAS)有协同作用,除锌率高达95%,添加高岭土进一步增强其除锌率,并能保障除浊效果。当FMAS的铁铝比为18,硅铝比为0.05~0.1,并投加高岭土时,除锌率和除浊率均可达99%以上。
English Abstract
Enhanced coagulation performance on turbidity and zinc removal by polyaluminum silicon and magnetite
WANG Yuting1,,WEI Lai1,
ZHAO Chengwen1,
MA Xinyi1,
DONG Qingyu1,
ZHU Lüyang1,
QIU Yun1,
QIU Yongjian1,
YE Changqing1
1.School of Public Health, Nantong University, Nantong 226019, China
Keywords: magnetite/
turbidity removal/
coagulation/
Si/Al ratio/
zinc removal/
residual aluminum
Abstract:In this study, the copolymerized polyaluminium-silicon flocculant and magnetite were used to coagulate the synthetic zinc polluted water with jar test, the effects of silicon to aluminum ratio in composite polyaluminium-silicon, the addition of magnetite and kaolin on the turbidity and zinc removal, as well as the residual aluminum were determined. The results show that compared with traditional aluminum chloride (AC), the moderate polyaluminium (MA) dominated by Alb species presented a worse turbidity removal performance, while a better zinc removal. Polyaluminium silicon (MAS) was superior to AC in turbidity removal and zinc removal. The increase of silicon to aluminum ratio made for turbidity removal but not for zinc removal. On the contrary, magnetite can enhance the zinc removal performance of MAS and slightly abate its turbidity removal, and the residual aluminum in MAS coagulated water was significantly reduced, but this didn’t occur for MAS with high Si/Al ratio. Magnetite-MAS (FMAS) has a synergistic effect with over 95% zinc removal, and kaolin addition can further increase its zinc removal ability and ensure the turbidity removal effect. Both the zinc and turbidity removal efficiencies could reach more than 99% when the polluted water was coagulated by FMAS with the iron-aluminum ratio of 18 and the silicon-aluminum ratio of 0.05~0.1, and kaolin adjuvant.