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铅锌矿尾渣重金属在化学萃取前后的形态变化特征 被引量:3

Redistribution of Metals after Chemical Extraction in Tailing Soils
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摘要 采用3种常见的萃取剂EDTA,HNO3和CaCl2,在一定的萃取条件下,对永州铅锌矿尾渣土壤进行萃取实验,并采用优化的BCR连续萃取方案对萃取前后的Pb,Zn和Cd进行金属形态分析,研究3种萃取剂对Pb,Zn和Cd的萃取效率及萃取前后的形态变化特征.结果发现,3种萃取剂的萃取效率依次为EDTA>HNO3>CaCl2;EDTA不仅能萃取酸溶解态的金属,还能萃取部分铁-锰氧化物结合态、硫化物及有机结合态和残渣态的金属;HNO3和CaCl2则主要对酸溶解态的金属有一定去除效果. Under the same extractable conditions, EDTA, HNO3 and CaCl2 were used as the extraetants to remove Pb, Zn and Cd from the tailing soils. The distribution of Pb, Zn and Cd were determined using the optimized BCR sequential extraction procedures before and after extraction. The extractability of the extractants was: EDTA〉HNO3〉CaCl2. The results indicated that EDTA was an effective extracting agent. After EDTA extraction, the proportion of Pb, Zn and Cd in the four fractions varied considerably, which was related to the strong extraction and complexation ability. The percentage of Pb, Zn and Cd in reducible fraction, oxidizable fraction and residual fraction remained similar before and after extraction with HNO3 and CaCl2, which showed that HNO3 and CaCl2 could only extract the metal in acid extractable fraction.
作者 刘云国 王显海 李欣 樊霆 李永丽
机构地区 湖南大学环境科学与工程学院
出处 《湖南大学学报(自然科学版)》 EI CAS CSCD 北大核心 2006年第1期106-109,共4页 Journal of Hunan University:Natural Sciences
基金 国家863攻关项目(2001AA644020) 湖南省自然科学基金资助项目(04JJ3013)
关键词 土壤 重金属 化学萃取 形态 soil heavy metals extraction fraction
分类号 X171.5 [环境科学与工程—环境科学]
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参考文献13

  • 1DAVID F,ALAINB,EDUARDAS,et al.Heavy metaal mobility as sessmeent in sediments based ona kinetic approach of the EDTA extraction:search for optimal experimental conditions[J].Analytica Chimica Acta,2002,459:245 - 256.
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  • 4黄宝荣,刘云国,张慧智,李欣.化学萃取技术在重金属污染土壤修复中应用的研究[J].环境工程,2003,21(4):48-50. 被引量:24
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二级参考文献8

  • 1A. Barona, I. Aranguiz, A. Elias. 2001. Metal associations in soils before and after ETDA extractive decontamination: implications for further cleanup procedures. Environmental Pollution. 113 : 79 - 85.
  • 2Krishna R. Pagilla and Larry W. Canter. 1999. Laboratory studies on remediation of chromium-contaminated soils. Journal of Environmental Engineering. March:243 - 248.
  • 3Wasay,S. A., Barrington, S. F., Tokunaga, S., 1998. Remediation of soils polluted by heavy metal using salts of organic acids and chelating agents.Environmental Technology. 19 : 369 - 380.
  • 4H. A. Elliott and L. Shastri. 1999. Extractive decontamination of metal-polluted soils using oxalate, grater, Air, and Soil pollution. 110 : 335 - 346.
  • 5Herbert E. Allen and Ping-Hsien Chen. 1993. Remediafion of metal contaminated soil by EDTA incorporating electrochemical recovery of metal and EDTA. Environment Progress. 12(4) :284 - 293.
  • 6Brian E. Reed, Patrick C. Carriere and Rederic Moore. 1996. Flushing of Pb( Ⅱ ) contaminated soil using HCI, EDTA, and CaCl2. Journal of Enivronmental Engineering. 1:48 - 50.
  • 7Mark C. S. and John P. 1998. Ex-situ remediation of a metal-contaminated superfund soil using s]ective extractants. Journal of environment engineering. 7 : 639 - 645.
  • 8N. Papassiopi. S. Tambouris and A. Kontopoulos. 1997. Removal of Heavy metals from calcareous contaminated soils by EDTA leaching. Water, Air and Soil Pollution: 1 - 15.

共引文献23

同被引文献361

引证文献3

二级引证文献21

湖南大学学报(自然科学版)
2006年 第1期

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