Steady performance of a zero valent iron packed anaerobic reactor for azo dye wastewater treatment under variable influent quality 被引量：10

Steady performance of a zero valent iron packed anaerobic reactor for azo dye wastewater treatment under variable influent quality

原文传递

导出

摘要 Zero valent iron （ZVI） is expected to help create an enhanced anaerobic environment that might improve the performance of anaerobic treatment. Based on this idea, a novel ZVI packed upflow anaerobic sludge blanket （ZVI-UASB） reactor was developed to treat azo dye wastewater with variable influent quality. The results showed that the reactor was less influenced by increases of Reactive Brilliant Red X-3B concentration from 50 to 1000 mg/L and chemical oxygen demand （COD） from 1000 to 7000 mg/L in the feed than a reference UASB reactor without the ZVI. The ZVI decreased oxidation-reduction potential in the reactor by about 80 mV. Iron ion dissolution from the ZVI could buffer acidity in the reactor, the amount of which was related to the COD concentration. Fluorescence in situ hybridization test showed the abundance of methanogens in the sludge of the ZVI-UASB reactor was significantly greater than that of the reference one. Denaturing gradient gel electrophoresis showed that the ZVI increased the diversity of microbial strains responsible for high efficiency. Zero valent iron （ZVI） is expected to help create an enhanced anaerobic environment that might improve the performance of anaerobic treatment. Based on this idea, a novel ZVI packed upflow anaerobic sludge blanket （ZVI-UASB） reactor was developed to treat azo dye wastewater with variable influent quality. The results showed that the reactor was less influenced by increases of Reactive Brilliant Red X-3B concentration from 50 to 1000 mg/L and chemical oxygen demand （COD） from 1000 to 7000 mg/L in the feed than a reference UASB reactor without the ZVI. The ZVI decreased oxidation-reduction potential in the reactor by about 80 mV. Iron ion dissolution from the ZVI could buffer acidity in the reactor, the amount of which was related to the COD concentration. Fluorescence in situ hybridization test showed the abundance of methanogens in the sludge of the ZVI-UASB reactor was significantly greater than that of the reference one. Denaturing gradient gel electrophoresis showed that the ZVI increased the diversity of microbial strains responsible for high efficiency.

作者 Yaobin Zhang Yiwen Liu Yanwen Jing Zhiqiang Zhao Xie Quan

机构地区 Key Laboratory of Industrial Ecology and Environmental Engineering(MOE)

出处《Journal of Environmental Sciences》 SCIE EI CAS CSCD 2012年第4期720-727,共8页 环境科学学报（英文版）

基金 supported by the National Basic Research Program of China (No. 2007CB407302) the Natural Science Foundation of China (No. 21177015) the New Century Excellent Talent Program of the Ministry of Education of China (No. NCET-10-028) the Fundamental Research Funds for the Central Universities of China (No.DUT11ZD108) the Program for Changjiang Scholars and Innovative Research Team at the University of China(No. IRT0813)

关键词 anaerobic reactor zero valent iron azo dye wastewater anaerobic reactor zero valent iron azo dye wastewater

分类号 X788 [环境科学与工程—环境工程] X791 [环境科学与工程—环境工程]

引文网络
相关文献

参考文献31

1APHA (American Public Health Association),AWWA (Ameri-can Water Works Association),WEF (Water EnvironmentFederation),1998. Standard Methods for the Examinationof Water and Wastewater (20th ed.). American PublicHealth Association,Washington DC,USA.
2Amann R I,Ludwig W,Schleifer K H,1995. Phylogeneticidentification and in situ detection of individual microbialcells without cultivation. Microbiological Reviews,59(1):143-169.
3Barreto-Rodrigues M,Silva F T,Paiva T C B,2009. Combinedzero-valent iron and fenton processes for the treatment ofBrazilian TNT industry wastewater. Journal of HazardousMaterials,165(1-3): 1224-1228.
4Bromley-Challenor K C A,Knapp J S,Zhang Z,Gray N C C,Hetheridge M J,Evans M R,2000. Decolorization of anazo dye by unacclimated activated sludge under anaerobicconditions. Water Research,34(18): 4410-4418.
5Chatterjee S,Lim S R,Woo S H,2010. Removal of ReactiveBlack 5 by zero-valent iron modified with various surfac-tants. Chemical Engineering Journal,160(1): 27-32.
6Choe S,Lee S H,Chang Y Y,Hwang K Y,Khim J,2001. Rapidreductive destruction of hazardous organic compounds bynanoscale Fe. Chemosphere,42(4): 367-372.
7Cooney M,Maynard N,Cannizzaro C,Benemann J,2007.Two-phase anaerobic digestion for production of hydrogen-methane mixtures. Bioresource Technology,98(14): 2641-2651.
8Daniels L,Belay N,Rajagopal B S,Weimer P J,1987. Bacterialmethanogenesis and growth from CO2with elemental ironas the sole source of electrons. Science,237(4814): 509-511.
9dos Santos A B,de Madrid M P,de Bok F A M,Stams A JM,van Lier J B,Cervantes F J,2006. The contribution offermentative bacteria and methanogenic archaea to azo dyereduction by a thermophilic anaerobic consortium. Enzyme and Microbial Technology,39(1): 38-46.
10Fan J H,Ma L M,2009. The pretreatment by the Fe-Cuprocess for enhancing biological degradability of the mixedwastewater. Journal of Hazardous Materials,164(2-3):1392-1397.

同被引文献80

1訾洛阳,丁志斌.印染废水脱色研究进展[J].给水排水,2008,34(S1):236-240. 被引量：19
2华佳,张林生,闫燕.城市生活垃圾焚烧厂渗滤液处理工程实例[J].给水排水,2009,35(S1):55-57. 被引量：9
3董玲玲 ,吴锦华 ,吴海珍 ,吴超飞 ,韦朝海 .硝基苯厌氧降解过程中Fe^0的促进作用[J].环境化学,2005,24(6):643-646. 被引量：21
4张艮林,徐晓军,童雄.城市垃圾渗滤液的水质特性及其处理现状[J].云南冶金,2005,34(6):60-62. 被引量：9
5徐颖,陈磊,周俊晓.Fenton氧化-生化组合工艺处理染料中间体废水[J].环境工程学报,2007,1(4):57-60. 被引量：28
6王国贤.零价铁还原硝基苯的反应机理及影响因素[J].水资源保护,2007,23(4):85-87. 被引量：16
7Angelelli E, Speranza M G. The application for a vehicle routing model to a waste collection problem: two case studies[J]. Journal of Operational Research Society, 2002,53(9):944-952.
8G. Guariso, F. Michetti, F. Porta, et al. Modelling the upgrade of an urban waste disposal system[J]. Environmental Modelling & Software, 2009,24(11):1314-1322.
9M.D. Bovea, J.C. Powell, A. Gallardo, et ol. The role played by environmental factors in the integration of a transfer station in a municipal solid waste management system[J]. Waste Management, 2007,27(4):545-553.
10Ni-Bin Chang, Christine A. Shoemaker, Richard E. Sehuler. Sol- id waste management system analysis with air pollution and leachate impaet limitatians[J]. Waste Management & Research, 1996,14(5):463-481.

引证文献10

1肖利平,郭燕,邓志毅,江栋,刘永.Fe^0/荧光假单胞菌联合处理直接耐晒黑的脱色特性[J].环境科学学报,2013,33(9):2504-2510. 被引量：3
2张鑫,朱南文,楼紫阳,袁海平,王艳.垃圾渗滤液的零价铁强化厌氧处理技术[J].净水技术,2013,32(4):51-55. 被引量：4
3田国壮,李攀,于水利.零价铁及其复合工艺降解印染废水的应用研究[J].工业水处理,2015,35(2):6-10. 被引量：4
4袁超,李磊,孙应龙,王邦达,徐辉,王毅.零价铝还原处理偶氮染料活性蓝222废水[J].环境科学研究,2016,29(7):1067-1074. 被引量：11
5徐淑英,陈建新,王琳,蒋柏泉,龚娴.不同晶型铁氧化物Fenton和UV-Fenton降解橙Ⅱ的催化性能[J].安全与环境学报,2017,17(4):1448-1453. 被引量：8
6张晓冉,徐辉,杨波,李方,沈忱思,柳建设,刘艳彪.铁炭微电解强化水解酸化反应器高效处理聚乙烯醇废水[J].环境工程学报,2020,14(7):1834-1843. 被引量：5
7郭进,水远敏,万佩佩,李伟成,高迎新,戚伟康.微电场-零价铁-UBF提高有机硫对位酯生产废水同步产甲烷反硝化效能[J].环境工程学报,2020,14(8):2186-2192.
8Banafsheh Azimi,Elham Abdollahzadeh-Sharghi,Babak Bonakdarpour.Anaerobic-aerobic processes for the treatment of textile dyeing wastewater containing three commercial reactive azo dyes:Effect of number of stages and bioreactor type[J].Chinese Journal of Chemical Engineering,2021,34(11):228-239. 被引量：1
9Yanping Shi,Tao Liu,Hongtao Yu,Xie Quan.Enhancing anoxic denitrification of low C/N ratio wastewater with novel ZVI composite carriers[J].Journal of Environmental Sciences,2022,34(2):180-191. 被引量：1
10晋存田,周荣煊,徐伟,张莉,戚伟康.箱体型正压式平板负离子抗菌陶瓷膜MBR在城市新鲜垃圾渗滤液处理应用实例[J].水处理技术,2024,50(4):148-152.

二级引证文献37

1胡凯耀,胡程程,解姗姗.铁元素在水处理中的应用及展望[J].云南化工,2021(1):13-16. 被引量：1
2史大林,高培露,王铮,何月玲,何永涛,薛罡.聚乙烯醇废水处理技术研究进展[J].现代化工,2023,43(S02):31-35. 被引量：1
3林龙利,刘国光,杨敏建,颜勇,陈顺红,李善鹏.零价铁在水污染治理中的应用研究进展[J].工业水处理,2016,36(3):6-10. 被引量：10
4钟笑涵,喻阳,刘思莹,赵娟娟,刘佳,夏东升,潘飞.纳米零价铁/EGSB耦合深度处理印染废水的研究[J].环境科学与技术,2016,39(5):80-84. 被引量：6
5刘晓,田颖,周晓慧,范丹丹,刘宗宇.零价铝在碱性条件下还原吡虫啉[J].化工学报,2017,68(4):1646-1651. 被引量：3
6马小亮,李风亭,张冰如,王颖.印染废水脱色处理的研究现状与进展[J].水处理信息报导,2017,0(1):1-10.
7祁丽娟,周燕平,张小娟,祁小青.零价铁-克雷伯氏菌联合体系对亚甲基蓝溶液的脱色性能[J].化工环保,2017,37(6):667-672.
8戴慧旺,陈建新,苗笑增,蒋柏泉,龚娴.醇类对UV-Fenton体系羟基自由基淬灭效率的影响[J].中国环境科学,2018,38(1):202-209. 被引量：31
9苗笑增,戴慧旺,陈建新,蒋柏泉,龚娴.草酸根对α-FeOOH多相UV-Fenton催化能力的增效实验[J].环境科学,2018,39(3):1202-1211. 被引量：11
10陈俊平,黄征青.微波强化铸铁屑-活性炭-H_2O_2处理印染废水的研究[J].福建师范大学学报（自然科学版）,2018,34(3):40-46. 被引量：4

1Ravuri Jaya Madhuri Gangavarapu Vijaya Lakshmi.Biodegradation of Congo Red Azo Dye by Aspergillus spp, Isolated from Dye Contaminated Soils[J].Journal of Agricultural Science and Technology(A),2014,4(5):422-434.
2代莹,邹金龙,王伟,张鑫,梁涛,张敏.纳米零价铁去除水中污染物的研究进展[J].黑龙江工程学院学报,2015,29(2):46-51. 被引量：4
3Jing Li,Qi Chen,Xinyue Li,Maosheng Yao.Rapid point-of-use water purification using nanoscale zero valent iron(nZVI) particles[J].Chinese Science Bulletin,2014,59(29):3926-3934.
4S.A.Ong,K.Uchiyama,D.Inadama,Y.Ishida,K.Yamagiwa.Phytoremediation of industrial effluent containing azo dye by model up-flow constructed wetland[J].Chinese Chemical Letters,2009,20(2):225-228. 被引量：1
5PENG Chang-hui,Michael JApps.Simulating global soil-CO_2 flux and its response to climate change[J].Journal of Environmental Sciences,2000,12(3):257-265. 被引量：2
6常洋,王彤,王海燕,储昭升,杭前宇,刘凯,侯泽英.芦苇碳源-表面流人工湿地对农田退水脱氮的长期效能研究[J].环境工程技术学报,2016,6(5):453-461. 被引量：10
7Yang Li,Yaobin Zhang,Xie Quan,Jingxin Zhang,Shuo Chen,Shahzad Afzal.Enhanced anaerobic fermentation with azo dye as electron acceptor: Simultaneous acceleration of organics decomposition and azo decolorization[J].Journal of Environmental Sciences,2014,26(10):1970-1976.
8杨波,王大鹏,李方,田晴,马春燕.出水回流对强化循环高效厌氧反应器(SCAR)处理印染废水的影响[J].环境工程学报,2016,10(2):717-722. 被引量：1
9胡凯光,汪爱河,陶干强,李锦鹏,丁德馨.硫酸根和硝酸根对ZVI-SRB处理铀废水的影响研究[J].矿业工程研究,2010,25(3):76-78. 被引量：3
10张熔烁,刘以凡,吕源财,刘明华,陈元彩.纳米零价铁钯/微生物联合体系降解五氯酚的研究[J].造纸科学与技术,2016,35(6):67-72. 被引量：2

Journal of Environmental Sciences

2012年第4期

浏览历史

内容加载中请稍等...

Steady performance of a zero valent iron packed anaerobic reactor for azo dye wastewater treatment under variable influent quality 被引量：10

参考文献31

同被引文献80

引证文献10

二级引证文献37

相关作者

相关机构

相关主题

浏览历史