高级搜索

2种低温等离子体降解土壤中乙草胺和阿特拉津

downloadPDF

上一篇

下一篇

李昊霖, 吴少帅, 文岳中, 何腾兵. 2种低温等离子体降解土壤中乙草胺和阿特拉津[J]. 环境工程学报, 2016, 10(5): 2681-2686. doi: 10.12030/j.cjee.201512115
引用本文: 李昊霖, 吴少帅, 文岳中, 何腾兵. 2种低温等离子体降解土壤中乙草胺和阿特拉津[J]. 环境工程学报, 2016, 10(5): 2681-2686. doi: 10.12030/j.cjee.201512115
shu
Li Haolin, Wu Shaoshuai, Wen Yuezhong, He Tengbing. Degradation of acetochlor and atrazine in soil using two kinds of low-temperature plasma[J]. Chinese Journal of Environmental Engineering, 2016, 10(5): 2681-2686. doi: 10.12030/j.cjee.201512115
Citation: Li Haolin, Wu Shaoshuai, Wen Yuezhong, He Tengbing. Degradation of acetochlor and atrazine in soil using two kinds of low-temperature plasma[J]. Chinese Journal of Environmental Engineering, 2016, 10(5): 2681-2686. doi: 10.12030/j.cjee.201512115
shu

2种低温等离子体降解土壤中乙草胺和阿特拉津

  • 1.

    贵州大学生命科学学院, 贵阳 550000

  • 2.

    浙江大学环境与资源学院, 杭州 310058

  • 基金项目:

    国家高技术研究发展计划(863)项目(2013AA065202)

  • 中图分类号: X53

Degradation of acetochlor and atrazine in soil using two kinds of low-temperature plasma

  • 1.

    College of Life Sciences, Guizhou University, Guiyang 550000, China

  • 2.

    College of Environmental and Resource Sciences, Zhejiang University, Hangzhou 310058, China

  • Fund Project:

摘要

  • 摘要: 研究了沿面放电和平板介质阻挡放电处理土壤中阿特拉津和乙草胺的效果。主要以沙子作为研究体系,考察了水分、氧气流速、活性炭和过硫酸钠对降解的影响。结果表明:沿面放电装置和平板介质阻挡放电都能高效降解沙子中的乙草胺、阿特拉津;水分和氧气流速对降解的影响较大,在一定限度内,它们的增加能迅速提高降解效果,但过多的水分反而会抑制污染物的降解。活性炭显著抑制沿面放电降解乙草胺和阿特拉津效果,过硫酸钠与沿面放电、平板介质阻挡放电联用方法没有表现出协同效应。
    Abstract: The creeping discharge and planar dielectric barrier discharge were used to treat the soil contaminated by the herbicides. The effects of the moisture, oxygen flow rate, active carbon and sodium persulfate on the degradation of acetochlor and atrazine in soil were investigated. Results showed that two kinds of low-temperature plasma technologies were effective in the degradation of acetochlor and atrazine in sand. Activated carbon could significantly inhibit degradation of acetochlor and atrazine using creeping discharge, the combination of sodium persulfate and creeping discharge did not show a synergistic effect.
  • [1] 谢剑, 李发生. 中国污染场地的修复与再开发的现状分析. 世界环境, 2011(3): 56-59 Xie Jian. The status quo of China's contaminated sites remediation and redevelopment. The World's Environment,2010(3):56-59(in Chinese)
    [2] Malik M. A., Ghaffar A., Malik S. A. Water purification by electrical discharges. Plasma Sources Science and Technology, 2011, 10(1): 82-91
    [3] Locke B. R., Sato M., Sunka P., et al. Electrohydraulic Discharge and nonthermal plasma for water treatment. Industrial & Engineering Chemistry Research, 2006, 45(3): 882-905
    [4] 吴春笃, 赵文信, 王慧娟, 等. 芘污染土壤的脉冲放电等离子体修复分析. 高电压技术, 2015, 41(1): 257-261Wu Chundu, Zhao Wenxin,Wang Huijuan,et al. Pyrene pulse discharge plasma repair analysis of contaminated soil. High Voltage Technology, 2015,41(1):257-261(in Chinese)
    [5] 王慧娟, 郭贺, 赵文信, 等. 脉冲放电等离子体修复芘污染土壤的影响因素. 高电压技术, 2015, 41(10): 3512-3517 Wang Huijuan,Guo He,Zhao Wenxin,et al. The influence of the pulse discharge plasma repair pyrene contaminated soil factors. High Voltage Technology,2015,41(10):3512-3517(in Chinese)
    [6] 金星龙, 王晓艳, 任红霞. 辉光放电等离子体降解水中氧四环素(英文). 南开大学学报(自然科学版), 2015(5): 13-20 Jin Xinglong,Wang Xiaoyan,Ren Hongxia. Glow discharge plasma degradation of oxytetracycline (English). Journal of Nankai University (Natural Science Edition), 2015(5):13-20(in Chinese)
    [7] 郑和辉, 叶常明. 乙草胺和丁草胺在土壤中的移动性. 环境科学, 2011, 22(5): 117-121 Zheng Hehui,Ye Changming. Acetochlor and butachlor in soil of mobility. Environmental Science, 2001, 22(5): 117-121(in Chinese)
    [8] 万年升, 顾继东, 段舜山. 阿特拉津生态毒性与生物降解的研究. 环境科学学报, 2006, 26(4): 552-560 Wan Niansheng,Gu Jidong,Duan Shunshan. Biodegradation of atrazine ecological toxicity and research. Acta Scientiae Circumstantiae, 2006,26(4):552-560(in Chinese)
    [9] 朱九生, 乔雄梧, 王静, 等. 乙草胺在土壤环境中的降解及其影响因子的研究. 农业环境科学学报, 2004, 23(5): 1025-1029 Zhu Jiusheng,Qiao Xiongwu,Wang Jing,et al. Acetochlor in the soil environment degradation and its impact factor research. Journal of Agro-Environmental Science,2004,23(5):1025-1029(in Chinese)
    [10] Cai Xiyun, Sheng Guangyao, Liu Weiping. Degradation and detoxification of acetochlor in soils treated by organic and thiosulfate amendments. Chemosphere, 2007, 66(2): 286-292
    [11] 孟顺龙, 胡庚东, 瞿建宏, 等. 阿特拉津在水环境中的残留及其毒理效应研究进展. 环境污染与防治, 2009, 31(6): 64-68 Meng Shunlong,Hu Gengdong,Huo,Jianhong,et al. Atrazine residue in water environment and its research progress in toxicology effect. Environmental Pollution & Control, 2009,31(6):64-68(in Chinese)
    [12] von Gunten U. Ozonation of drinking water: Part I. Oxidation kinetics and product formation. Water Research, 2003, 37(7): 1443-1467
    [13] Jans U., Hoigné J. Activated carbon and carbon black catalyzed transformation of aqueous ozone into OH-radicals. The Journal of the International Ozone Association, 1998,20(1): 67-90
    [14] 杨世迎, 陈友媛, 胥慧真, 等. 过硫酸盐活化高级氧化新技术. 化学进展, 2008, 20(9): 1433-1438 Yang Shiying,Chen Youyuan,Xu Huizhen,et al. Persulfate activation advanced oxidation technology. Progress in Chemistry, 2008,20(9): 1433-1438(in Chinese)
    [15] Tsitonaki A., Petri B., Crimi M., et al. In situ chemical oxidation of contaminated soil and groundwater using persulfate: A review. Critical Reviews in Environmental Science and Technology, 2010, 40(1): 55-91
    [16] 王万红, 王颜红, 王世成, 等. GC-MS测定土壤中阿特拉津、六氯苯等十种农药残留. 环境化学, 2009, 28(6): 899-903 Wang Wanhong,Wang Yanhong,Wang Shicheng,et al. GC-MS determination of soil atrazine,ten kinds of pesticide residues,hexachlorobenzene, etc. Environmental Chemistry, 2009,28(6):899-903(in Chinese)
    [17] 王姗姗, 王颜红, 王万红, 等. 阿特拉津和乙草胺在玉米和土壤中残留动态研究. 土壤通报, 2011(5): 1231-1235 Wang Shanshan,Wang Yanhong,Wang Wanhong,et al. Atrazine and acetochlor in corn and soil residual dynamic research.Chinese Joural of Science, 2011(5):1231-1235(in Chinese)
    [18] 潘浦群, 肖真民, 韩永忠, 等. 玉米田土壤中阿特拉津和乙草胺的测定. 吉林农业科学, 2012, 37(1): 44-45 Pan Puqun,Xiao Zhenmin,Han Yongzhong,et al.Corn field soil atrazine and the determination of acetochlor. Journal of Jilin Agricultural Sciences, 2012,37(1):44-45(in Chinese)
  • 加载中
WeChat 点击查看大图
计量
  • 文章访问数:  1577
  • HTML全文浏览数:  1163
  • PDF下载数:  1069
  • 施引文献:  0
出版历程
  • 收稿日期:  2016-01-21
  • 刊出日期:  2016-06-03
李昊霖, 吴少帅, 文岳中, 何腾兵. 2种低温等离子体降解土壤中乙草胺和阿特拉津[J]. 环境工程学报, 2016, 10(5): 2681-2686. doi: 10.12030/j.cjee.201512115
引用本文: 李昊霖, 吴少帅, 文岳中, 何腾兵. 2种低温等离子体降解土壤中乙草胺和阿特拉津[J]. 环境工程学报, 2016, 10(5): 2681-2686. doi: 10.12030/j.cjee.201512115
shu
Li Haolin, Wu Shaoshuai, Wen Yuezhong, He Tengbing. Degradation of acetochlor and atrazine in soil using two kinds of low-temperature plasma[J]. Chinese Journal of Environmental Engineering, 2016, 10(5): 2681-2686. doi: 10.12030/j.cjee.201512115
Citation: Li Haolin, Wu Shaoshuai, Wen Yuezhong, He Tengbing. Degradation of acetochlor and atrazine in soil using two kinds of low-temperature plasma[J]. Chinese Journal of Environmental Engineering, 2016, 10(5): 2681-2686. doi: 10.12030/j.cjee.201512115
shu

2种低温等离子体降解土壤中乙草胺和阿特拉津

  • 1. 贵州大学生命科学学院, 贵阳 550000
  • 2. 浙江大学环境与资源学院, 杭州 310058
  • 收稿日期:  2016-01-21
基金项目:

国家高技术研究发展计划(863)项目(2013AA065202)

摘要: 研究了沿面放电和平板介质阻挡放电处理土壤中阿特拉津和乙草胺的效果。主要以沙子作为研究体系,考察了水分、氧气流速、活性炭和过硫酸钠对降解的影响。结果表明:沿面放电装置和平板介质阻挡放电都能高效降解沙子中的乙草胺、阿特拉津;水分和氧气流速对降解的影响较大,在一定限度内,它们的增加能迅速提高降解效果,但过多的水分反而会抑制污染物的降解。活性炭显著抑制沿面放电降解乙草胺和阿特拉津效果,过硫酸钠与沿面放电、平板介质阻挡放电联用方法没有表现出协同效应。

English Abstract

    全文HTML

参考文献 (18)

返回顶部

目录

/

返回文章
返回

Copyright © 2019 中国科学院生态环境研究中心