稳定性二氧化氯的杀藻效果研究

况琪军, 毕永红, 胡征宇, 陈珊

况琪军, 毕永红, 胡征宇, 陈珊. 稳定性二氧化氯的杀藻效果研究[J]. 水生生物学报, 2003, 27(5): 554-556.
引用本文: 况琪军, 毕永红, 胡征宇, 陈珊. 稳定性二氧化氯的杀藻效果研究[J]. 水生生物学报, 2003, 27(5): 554-556.
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KUANG Qi-Jun, BI Yong-Hong, HU Zheng-Yu, CHEN Shan. STUDY ON THE REMOVING EFFICIENCY OF ALGAE BY A NOVEL ALGAECIDE—STATIONARY CLO2[J]. ACTA HYDROBIOLOGICA SINICA, 2003, 27(5): 554-556.
Citation: KUANG Qi-Jun, BI Yong-Hong, HU Zheng-Yu, CHEN Shan. STUDY ON THE REMOVING EFFICIENCY OF ALGAE BY A NOVEL ALGAECIDE—STATIONARY CLO2[J]. ACTA HYDROBIOLOGICA SINICA, 2003, 27(5): 554-556.
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稳定性二氧化氯的杀藻效果研究

  • 中国科学院水生生物研究所, 武汉, 430072

基金项目: 

中国科学院创新项目(KSCX2-1-06B)资助

STUDY ON THE REMOVING EFFICIENCY OF ALGAE BY A NOVEL ALGAECIDE—STATIONARY CLO2

  • Institute of Hydrobiology, The Chinese Academy of Sciences, Wuhan, 430072

摘要

    摘要
  • 摘要: 随着社会经济的迅猛发展和人口的剧增,大量未经处理的工业废水和生活污水肆意排入江河湖泊,使人类有限的淡水资源遭受N、P及有机物的严重污染,水体富营养化进程加速,藻类大量生长,以致水厂给水处理技术难度增加、制水成本提高、净化系统堵塞、自来水出现藻腥味、口感变差、可饮性降低等等[1]。
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  • [1] Yu H F, Ma C. Development of technology for treatment of drinking water [J]. Engineering and Technique (Environment Protection Edition),1999,5:13-17.[于惠芳,马峥,饮用水处理技术进展,工程与技术,环境保护版,1999,5:13-17][2] Wang S F. The means of removing algae in lake water[J].Pollution Prevention Technique. 2000,13(1):23-25.[王士芬,湖泊水藻类的去除方法,污染防治技术,2000,13(1):23-25][3] Wu W Z, Wang Z S. Effects on the algae removal by different biological contact oxidation processes and their mechanisms [J]. ACTA Sciential Circumstantiae,2001,21(3):277-281.[吴为中,王占生.不同生物接触氧化法对藻类去除效果的比较及其途径分析.环境科学学报,2001,21(3):277-281][4] Kuang Q J, Xia Y C, Wu Z Y Study on the removing efficiency of algae by a new disinfect agent [J]. Chongqing Environmental Science,2001,23(3):42-44.[况琪军,夏宜NB033,吴紫元,一种新型消毒剂的杀藻研究,重庆环境科学,2001,23(3):42-44][5] Jiang D S, Liu Q C, Zhang J. et al. The latest progress in alga-killing techniques [J]. Journal of Changde Teachers University (Natural Science Edition),2000,12(1):25-31. [蒋道松,刘其城,章俭等,除藻技术新进展,长德师范学院学报,自然科学版,2000,12(1):25-31][6] Tian B Z, Qu J H. The chemical algicide of source water for drinking[J]. Environmental Chemistry, 2001,20(1):65-69.[田宝珍,曲久辉,饮用水水源的化学灭藻,环境化学,2001,20(1):65-69]

    Yu H F, Ma C. Development of technology for treatment of drinking water [J]. Engineering and Technique (Environment Protection Edition),1999,5:13-17.[于惠芳,马峥,饮用水处理技术进展,工程与技术,环境保护版,1999,5:13-17][2] Wang S F. The means of removing algae in lake water[J].Pollution Prevention Technique. 2000,13(1):23-25.[王士芬,湖泊水藻类的去除方法,污染防治技术,2000,13(1):23-25][3] Wu W Z, Wang Z S. Effects on the algae removal by different biological contact oxidation processes and their mechanisms [J]. ACTA Sciential Circumstantiae,2001,21(3):277-281.[吴为中,王占生.不同生物接触氧化法对藻类去除效果的比较及其途径分析.环境科学学报,2001,21(3):277-281][4] Kuang Q J, Xia Y C, Wu Z Y Study on the removing efficiency of algae by a new disinfect agent [J]. Chongqing Environmental Science,2001,23(3):42-44.[况琪军,夏宜NB033,吴紫元,一种新型消毒剂的杀藻研究,重庆环境科学,2001,23(3):42-44][5] Jiang D S, Liu Q C, Zhang J. et al. The latest progress in alga-killing techniques [J]. Journal of Changde Teachers University (Natural Science Edition),2000,12(1):25-31. [蒋道松,刘其城,章俭等,除藻技术新进展,长德师范学院学报,自然科学版,2000,12(1):25-31][6] Tian B Z, Qu J H. The chemical algicide of source water for drinking[J]. Environmental Chemistry, 2001,20(1):65-69.[田宝珍,曲久辉,饮用水水源的化学灭藻,环境化学,2001,20(1):65-69]
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出版历程
  • 收稿日期:  2002-12-24
  • 修回日期:  2003-02-14
  • 发布日期:  2003-09-24

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