Please wait a minute...
浙江大学学报(工学版)
J4  2013, Vol. 47 Issue (8): 1321-1328    DOI: 10.3785/j.issn.1008-973X.2013.08.001
    
Effects of chloride and humic acid on iron release in water distribution system
GAO Jiu-li, LIU Jing-qing, ZHANG Tu-qiao, LI Cong, JIANG Wei
Department of Civil Engineering, Zhejiang University, Hangzhou 310058, China
Download:   PDF(0KB) HTML
Export: BibTeX | EndNote (RIS)      

Abstract  

In order to acquire better understanding of steel pipe scale constructions and how water quality factors influence iron release process, pipe scale samples of 10 to 15 year-old pipes were collected and analyzed with SEM, EDS and XRD. Using indoor pipe reactor simulating stagnation environment, experiments were conducted to study effects of chloride, humic acid and dissolved oxygen on iron release process under different concentrations. Results indicate that pipe scale surface is covered with shell-like layer and filled with loose and porous course inside. Major elements are Fe, O and C, and main substances are Fe3O4, FeOOH and FeCO3. Concentrations of chloride and humic acid both have significant positive correlation with iron release quantity. Iron release caused by chloride is mainly precipitant state with a proportion more than 85.02%, and water turbidity acts the same with iron concentration with maximum value of 45.5. Under conditions with humic acid, the proportion of precipitant iron decreases dramatically with an average value of 20.41% and maximum value of 39.39%. Thus water turbidity change is not significant. Under low initial dissolved oxygen condition, total iron and dissolved iron concentration increases 54.9% and 67.7% compared to normal condition.

Published: 01 August 2013
CLC:  TU 991  
Service
E-mail this article
Add to my bookshelf
Add to citation manager
E-mail Alert
RSS
Articles by authors
Cite this article:

GAO Jiu-li, LIU Jing-qing, ZHANG Tu-qiao, LI Cong, JIANG Wei. Effects of chloride and humic acid on iron release in water distribution system. J4, 2013, 47(8): 1321-1328.

URL:

http://www.zjujournals.com/eng/10.3785/j.issn.1008-973X.2013.08.001     OR     http://www.zjujournals.com/eng/Y2013/V47/I8/1321


水中氯离子和腐植酸对管网铁释放的影响

为研究腐蚀钢管管垢层物理化学特征和管网水质条件对供水管网中铁释放现象的影响,对管龄为10~15 a钢管的管垢样品进行扫描电镜(SEM)、能谱扫描(EDS)和X射线衍射(XRD)分析,利用室内管段反应器模拟水力停滞时管网水环境,研究停滞10 h内,含不同浓度的氯离子、腐植酸、溶解氧的管网水对铁释放量的影响.结果表明,管垢层表面为受创硬壳层,腐蚀瘤内部具有多孔松散特点,管垢主要元素组成为Fe、O、C,主要物质组成为Fe3O4、FeOOH和FeCO3等铁氧化物.水中氯离子和腐植酸浓度与管段总铁释放量均存在正相关关系.氯离子引起的铁释放形式主要为沉淀态铁,占总体比例85.02%以上,出水浊度与总铁释放量变化一致,最高为45.5.在腐植酸存在的情况下,铁释放中的沉淀态铁比例大幅下降,最高为39.39%,平均为20.41%,在低溶解氧浓度情况下,水中总铁浓度与溶解态铁浓度比正常溶解氧浓度时高54.9%和67.7%.

[1] 张晓健,牛璋彬.给水管网中铁稳定性问题及其研究进展[J].中国给水排水,2006,22(2): 13-16.

ZHANG Xiao-jian, NIU Zhang-bin. Progress in the study of the iron stability problem in drinking water distribution system [J]. China Water&Wastewater, 2006,22(2): 13-16.

[2] 徐冰峰,胡越峰,杨泽.常用给水管网的选材分析[J].有色金属设汁,2004,31(1): 60-63.

XU Bing-feng, HU Yue-feng, YANG Ze. Analysis on selection of water pipe net material widely used [J]. Nonferrous Metals Design, 2004,31(1): 60-63.

[3] 周韬.金属给水管道腐蚀现状及研究进展[J].国外建材科技,2008,29(3): 34-37.

ZHOU Tao. Research and development of corrosion of metallic pipe in water distribution system [J]. Science and Technology of Overseas Building Materials, 2008,29(3): 34-37.

[4] 潘海祥.海水淡化水厂供水的黄水现象及应对措施[J].中国给水排水,2008,24(12): 90-92.

PAN Hai-xiang. Yellow water phenomenon from seawater desalination plant and improvement measures [J]. China Water&Wastewater, 2008,24(12): 90-92.

[5] SARIN P, SNOEYINK V L, LYTLE D A, et al. Iron corrosion scales: model for scale growth, iron release, and colored water formation [J]. Journal of Environmental Engineering, 2004,130(4): 364-373.

[6] 田一梅,刘扬,赵鹏,等.海水淡化水在既有管网输配的铁释放控制研究[J].环境科学,2012,33(4): 1216-1220.

TIAN Yi-mei, LIU Yang, ZHAO Peng, et al. Research on controlling iron release of desalted water transmitted in existing water distribution system [J]. Environmental Science, 2012,33(4): 1216-1220.

[7] KUCH A. Investigations of the reduction and re-oxidation kinetics of iron(III) oxide scales formed in waters [J]. Corrosion Science,1988,30(3): 221-231.

[8] LYTLE D A, SARIN P, SNOEYINK V L. The efect of chloride and orthophosphate on the release of iron from a cast iron pipe section [J]. Journal of Water Supply: Research and Technology-AQUA, 2005,54(5): 267-281.

[9] THEIS T L, SINGER P C. The stabilization of ferrous iron by organic compounds in natural waters [M]. Ann Arbor, MI: Ann Arbor Science Publishers, Inc.,1973, 303-320.

[10] ROSE A L, WAITER T D. Kinetics of iron complexation by dissolved natural organic matter in coastal waters [J]. Marine Chemistry, 2003,84: 85-103.

[11] 牛璋彬,王洋,张晓健,等.给水管网中铁释放现象的影响因素研究[J].环境科学,2007,28(10): 22702274.

NIU Zhang-bin,WANG Yang,ZHANG Xiao-jian, et al. Effect on iron release in drinking water distribution systems [J]. Environmental Science, 2007,28(10): 2270-2274.

[12] SARIN P, SNOEYINK V L, BEBEE J, et a1. Iron release from corroded iron pipes in drinking water distribution systems: effect of dissolved oxygen [J]. Water Research, 2004,38(5): 1259-1269.
No related articles found!