高级搜索

PCBs污染土壤的CaO诱导低温热处理脱氯研究

downloadPDF

上一篇

下一篇

汪嘉利, 高兴保, 杨志敏, 黄启飞, 何洁, 刘锋. PCBs污染土壤的CaO诱导低温热处理脱氯研究[J]. 环境工程学报, 2014, 8(11): 4902-4906.
引用本文: 汪嘉利, 高兴保, 杨志敏, 黄启飞, 何洁, 刘锋. PCBs污染土壤的CaO诱导低温热处理脱氯研究[J]. 环境工程学报, 2014, 8(11): 4902-4906.
shu
Wang Jiali, Gao Xingbao, Yang Zhimin, Huang Qifei, He Jie, Liu Feng. Study on low-temperature thermal dechlorination of PCBs contaminated soil promoted by CaO[J]. Chinese Journal of Environmental Engineering, 2014, 8(11): 4902-4906.
Citation: Wang Jiali, Gao Xingbao, Yang Zhimin, Huang Qifei, He Jie, Liu Feng. Study on low-temperature thermal dechlorination of PCBs contaminated soil promoted by CaO[J]. Chinese Journal of Environmental Engineering, 2014, 8(11): 4902-4906.
shu

PCBs污染土壤的CaO诱导低温热处理脱氯研究

  • 1.

    西南大学资源环境学院, 重庆市农业资源与环境重点实验室, 重庆 400715

  • 2.

    中国环境科学研究院固体废物污染控制技术研究所, 北京 100012

  • 基金项目:

    国家自然科学基金资助项目(21377121)

  • 中图分类号: X705

Study on low-temperature thermal dechlorination of PCBs contaminated soil promoted by CaO

  • 1.

    Chongqing Key Lab of Agricultural Resources & Environment, College of Resources and Environment, Southwest University, Chongqing 400715, China

  • 2.

    Institute of Solid Waste Management, Chinese Research Academy of Environmental Sciences, Beijing 100012, China

  • Fund Project:

  • 摘要: 研究了低温热处理脱氯技术对废弃电容器封存点附近污染土壤中多氯联苯脱氯的效果,考察反应温度、反应时间及CaO添加比例对PCBs去除率、脱氯率的影响以及反应前后土壤中污染物的组分变化.实验土样中PCBs浓度为107.7 mg/g,属于罕见高浓度PCBs污染土壤.当反应温度为400℃、停留时间4h、CaO添加比例为10%,PCBs的去除率为87.7%,脱氯率为85.3%.土壤样品中五氯联苯和四氯联苯反应后含量降低或未检出,部分反应后样品检出一氯联苯和联苯,说明在CaO诱导PCBs低温热处理脱氯反应中存在逐步脱氯/加氢反应途径.
    Abstract: Low-temperature thermal dechlorination of polychlorinated biphenyls (PCBs) contaminated soil from a storage point of used capacitors containing PCBs oil was studied. The effects of treat temperature, treat time and calcium oxide addition proportion on the PCBs removal rate, dechlorination rate and changes of pollutant composition in soil were investigated. The PCBs concentration of the soil sample was 107.7 mg/g, belonging to high concentration PCBs contaminated soil. The results showed that PCBs dechlorination rate was improved with the increase of reaction temperature and time. The optical reaction conditions for dechlorination of PCBs in soil sample were at 400℃ for 4 h with 10% CaO while the removal rate and dechlorination rate of PCBs reached 87.7% and 85.3%,respectively. Pentachlorobiphenyl and tetrachlorobiphenyl in origin soil samples decreased or disappeared, while monochlorinated biphenyl and biphenyl were detected after reaction, indicating that PCBs dechlorination/hydrogenation pathway induced by CaO existed.
  • 加载中
  • [1] 胡芳, 许振成. 多氯联苯(PCBs)污染现状分析. 广东化工, 2012, 39(1): 87-88 Hu Fuang, Xu Zhenwei. Pollution of PCBs in environment media in China. Guangdong Chemical Industry, 2012, 39(1): 24-32(in Chinese)
    [2] Xing Ying, Lu Yonglong, Dawson R. W., et al. A spatial temporal assessment of pollution from PCBs in China. Chemosphere, 2005, 60(6): 731-739
    [3] 宋云横, 姜获, 丁超, 等. 多氯联苯封存点土壤污染情况的调查监测. 中国环境监测, 2005, 21(4): 52-89 Song Yunheng, Jiang Huo, Ding Chao, et al.Monitoring survey of PCBs pollution in soils of stored spots. Environmental Monitoring in China, 2005, 21(4): 52-89(in Chinese)
    [4] 陈来国, 蔡信德, 黄玉妹, 等. 废弃电容器封存点多氯联苯的含量和分布特征. 中国环境科学, 2008, 28(9): 833-837 Chen Laiguo, Cai Xinde, Huang Yumei, et al. Concentration and distribution of PCBs in one storage site of used capacitors. China Environmental Science, 2008, 28(9): 833-837(in Chinese)
    [5] 吴水平, 印红玲, 刘碧莲, 等. 废弃电容器封存点及旧工业场地多氯联苯的污染特征. 环境科学, 2011, 32(11): 3277-3283 Wu Shuiping, Yin Honglin, Liu Bilian, et al. Characteristics of PCBs in a capacitor storage site and an industrial brownfield. Environmental Science, 2011, 32(11): 3277-3283(in Chinese)
    [6] 储少岗, 杨春, 徐晓白, 等. 典型污染地区底泥和土壤中残留多氯联苯(PCBs)的情况调查. 中国环境科学, 1995, 15(3): 199-203 Chu Shaogang, Yang Chun, Xu Xiaobai, et al. Polychlorinated biphenyl congener residues in sediment and soil from pollution area. China Environmental Science, 1995, 15(3): 199-203(in Chinese)
    [7] Norris G., AL-Dhahir Z., Birnstingl J., et al. A case study of the management and remediation of soil contaminated with polychlorinated biphenyls. Engineering Geology, 1999, 53(2): 177-185
    [8] Chekol T., Vough L. R., Chaney R. L. Phytoremediation of polychlorinated biphenyl-contaminated soils: the rhizosphere effect. Environment International, 2004, 30(6): 799-804
    [9] 徐莉, 滕应, 张雪莲, 等. 多氯联苯污染土壤的植物-微生物联合田间原位修复. 中国环境科学, 2008, 28(7): 646-650 Xu Li, Teng Ying, Zhang Xuelian, et al. Combined remediaton of PCBs polluted soil by plant and microorganism in a field trial. China Environmental Science, 2008, 28(7): 646-650(in Chinese)
    [10] Varanasi P., Fullana A., Sidhu S. Remediation of PCB contaminated soils using iron nano-particles. Chemosphere, 2007, 66(6): 1031-1038
    [11] Aresta M., Dibenedetto A., Fragale C., et al. Thermal desorption of polychlorobiphenyls from contaminated soils and their hydrodechlorination using Pd-and Rh-supported catalysts. Chemosphere, 2008, 70(6): 1052-1058
    [12] Izadifard M., Langford C. H., Achari G. Photocatalytic dechlorination of PCB 138 using leuco-methylene blue and visible light; reaction conditions and mechanisms. Journal of Hazardous Materials, 2010, 181(1-3): 393-398
    [13] Jakher A., Achari G., Langford C. H. Photodechlorination of Arochlor 1254 in a pilot scale flow through photoreactor. Environ Eng -ASCE, 2007, 133: 646-654
    [14] Habekost A., Aristov N. Heterogeneous reductive dehalogenation of PCB contaminated transformer oil and brominated diphenyl ethers with zero valent iron. Chemosphere, 2012, 88(11): 1283-1286
    [15] Birke V., Mattik J., Runne D. Mechanochemical reductive dehalogenation of hazardous polyhalogenated contaminants. Journal of Materials Science, 2004, 39(16-17): 5111-5116
    [16] Deidda C., Delogu F., Cocco G. In situ characterization of mechanically induced self-propagating reactions. Journal of Materials Science, 2004, 39(16): 5315-5318
    [17] Liu Xitao, Zhang Qing, Zhang Guixiang, et al. Application of microwave irradiation in the removal of polychlorinated biphenyls from soil contaminated by capacitor oil. Chemosphere, 2008, 72(11): 1655-1658
    [18] Taniguchi S., Murakami A., Hosomi M., et al. Chemical decontamination of PCB-contaminated soil. Chemosphere, 1997, 34(5-7): 1631-1637
    [19] 降巧龙, 周海燕, 徐殿斗, 等. 国产变压器油中多氯联苯及其异构体分布特征. 中国环境科学, 2007, 27(5): 608-612 Jiang Qiaolong, Zhou Haiyan, Xu Diandou, et al. Characteristics of PCB congeners and homologues in Chinese transformer oil. China Environmental Science, 2007, 27(5): 608-612(in Chinese)
    [20] 薛荔栋, 郎印海, 刘爱霞, 等. 零价铁脱氯还原多氯联苯的研究进展. 环境科学与技术, 2009, 32(3): 78-82 Xue Lidong, Lang Yinhai, Liu Aixia, et al. Progress in research of De-chlorination of PCBs by Zero-valent Iron. Environmental Science & Technology, 2009, 32(3): 78-82(in Chinese)
    [21] Yin Keqing, Gao Xingbao, Sun Yifei, et al. Thermal degradation of hexachlorobenzene in the presence of calcium oxide at 340~400℃. Chemosphere, 2013, 93(8): 1600-1606
  • 加载中
WeChat 点击查看大图
计量
  • 文章访问数:  1208
  • HTML全文浏览数:  649
  • PDF下载数:  729
  • 施引文献:  0
出版历程
  • 收稿日期:  2014-01-10
  • 刊出日期:  2014-11-07
汪嘉利, 高兴保, 杨志敏, 黄启飞, 何洁, 刘锋. PCBs污染土壤的CaO诱导低温热处理脱氯研究[J]. 环境工程学报, 2014, 8(11): 4902-4906.
引用本文: 汪嘉利, 高兴保, 杨志敏, 黄启飞, 何洁, 刘锋. PCBs污染土壤的CaO诱导低温热处理脱氯研究[J]. 环境工程学报, 2014, 8(11): 4902-4906.
shu
Wang Jiali, Gao Xingbao, Yang Zhimin, Huang Qifei, He Jie, Liu Feng. Study on low-temperature thermal dechlorination of PCBs contaminated soil promoted by CaO[J]. Chinese Journal of Environmental Engineering, 2014, 8(11): 4902-4906.
Citation: Wang Jiali, Gao Xingbao, Yang Zhimin, Huang Qifei, He Jie, Liu Feng. Study on low-temperature thermal dechlorination of PCBs contaminated soil promoted by CaO[J]. Chinese Journal of Environmental Engineering, 2014, 8(11): 4902-4906.
shu

PCBs污染土壤的CaO诱导低温热处理脱氯研究

  • 1.  西南大学资源环境学院, 重庆市农业资源与环境重点实验室, 重庆 400715
  • 2.  中国环境科学研究院固体废物污染控制技术研究所, 北京 100012
  • 收稿日期:  2014-01-10
基金项目:

国家自然科学基金资助项目(21377121)

摘要: 研究了低温热处理脱氯技术对废弃电容器封存点附近污染土壤中多氯联苯脱氯的效果,考察反应温度、反应时间及CaO添加比例对PCBs去除率、脱氯率的影响以及反应前后土壤中污染物的组分变化.实验土样中PCBs浓度为107.7 mg/g,属于罕见高浓度PCBs污染土壤.当反应温度为400℃、停留时间4h、CaO添加比例为10%,PCBs的去除率为87.7%,脱氯率为85.3%.土壤样品中五氯联苯和四氯联苯反应后含量降低或未检出,部分反应后样品检出一氯联苯和联苯,说明在CaO诱导PCBs低温热处理脱氯反应中存在逐步脱氯/加氢反应途径.

English Abstract

    全文HTML

参考文献 (21)

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