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微生物矿化改善尾矿砂性质的试验研究 被引量:8

EXPERIMENTAL STUDY OF THE IMPROVEMENT OF THE PROPERTIES OF THE TAILING BY BIOMINERALIZATION
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摘要 尾矿砂中重金属的固定可减轻对周围环境的污染,且尾矿砂力学性质的改善有助于提高坝体稳定性或库容。微生物矿化技术(MIM)不仅可以提高尾矿砂的力学性质,同时还可以固定重金属。对取自湖南和广西的两种尾矿砂(含较多Cu和As等元素)进行了微生物诱导砂柱胶凝试验,研究微生物矿化对尾矿砂力学性质及重金属离子溶出的影响,并比较这两种尾矿砂处理后的差异。结果表明:经MIM处理后,As、Mo和Mn的溶出减少,尾矿砂的压缩波波速和单轴无侧限抗压强度均有较大提高。 The immobilization of the heavy metal in the tailings can reduce the environmental pollution,and the improvement of the mechanical properties of tailing can enhance the stability of the tailing dam or the capacity of tailing pond. The biomineralization( MIM) technology can not only improve the mechanical properties of tailing significantly but also immobilize the heavy metal at the same time. The sand column cementation experiments induced by bacteria liquid were done for two kinds of tailings,one was from Hunan Province,the other was from Guangxi Province( both contained much Cu,As,and other elements). The purpose of the experiment was to explore the influence on the mechanical properties and the dissolution of the heavy metals. In addition,the differences of the mechanical properties' improvement between different kinds of tailings were considered. The results of experiment showed that after MIM treatment,the dissolution of As,Mo and Mn reduced,and the P-wave velocity and unconfined uniaxial compressive strength were improved greatly.
作者 陈溪海 郭红仙 程晓辉
机构地区 清华大学土木工程系
出处 《工业建筑》 CSCD 北大核心 2016年第6期94-98,176,共6页 Industrial Construction
关键词 尾矿砂 微生物矿化 重金属 压缩波波速 单轴无侧限抗压强度 tailing biomineralization heavy metal P-wave velocity uniaxial unconfined compressive strength
分类号 TD926.4 [矿业工程—选矿] Q939.97 [生物学—微生物学]
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参考文献9

  • 1饶为国,马福荣,陈日高,庞迎波,张志红,肖昭然.重金属污染对土压实性及抗剪强度影响的试验研究[J].工业建筑,2013,43(4):92-97. 被引量:10
  • 2Li Meng,Cheng Xiaohui,Guo Hongxian.Heavy Metal Removal by Biomineralization of Urease Producing Bacteria Isolated[J].International Biodeterioration&Biodegradation,2013,76(1):81-85.
  • 3Achal V,Pan Xiangliang,Fu Qinglong,et al.Biomineralization Based Remediation of As(III)Contaminated Soil by Sporosarcina Ginsengi Soli[J].Journal of Hazardous Materials,2012(1):178-184.
  • 4van der Ruyt M,van der Zon W.Biological in Situ Reinforcement of Sand in Near-Shore Areas[C]∥Proceedings of the ICEGeotechnical Engineering.2009:81-83.
  • 5Cheng Liang,Cord-Ruwisch R.Upscaling Effects of Soil Improvement by Microbially Induced Calcite Precipitation by Surface Percolation[J].Geomicrobiology Journal,2014,31(5):396-406.
  • 6Zhang Y,Guo H X,Cheng X H.Role of Calcium Sources in the Strength and Microstructure of Microbial Mortar[J].Construction and Building Materials,2015,77(1):160-167.
  • 7赵春燕,孙军德,宁伟,何瀛,崔晓晶.重金属对土壤微生物酶活性的影响[J].土壤通报,2001,32(2):93-94. 被引量:21
  • 8杨居荣,任燕,刘虹,王力平.砷对土壤微生物及土壤生化活性的影响[J].土壤,1996,28(2):101-104. 被引量:32
  • 9Rebata-Landa V.Microbial Activity in Sediments:Effects on Soil Behavior[D].Atlauta,Georgia,USA:Georgia Institute of Technology,2007.

二级参考文献20

  • 1李相然,姚志祥,曹振斌.济南典型地区地基土污染腐蚀性质变异研究[J].岩土力学,2004,25(8):1229-1233. 被引量:48
  • 2谢荣秀,田大伦,方晰.湘潭锰矿废弃地土壤重金属污染及其评价[J].中南林学院学报,2005,25(2):38-41. 被引量:22
  • 3朱春鹏,刘汉龙.污染土的工程性质研究进展[J].岩土力学,2007,28(3):625-630. 被引量:75
  • 4周礼恺.黑土酶活性[J].土壤学报,1981,(2):158-165.
  • 5华中农业大学.微生物学[M].北京:农业出版社,1994.129-130,137-140.
  • 6华中农业大学,微生物学,1994年,129-130,137-140页
  • 7周礼恺,土壤学报,1981年,2期,158页
  • 8史江涛.重金属污染成环保治理重点[N].参考消息,2011-2-28(16).
  • 9李妍.农田重金属污染触目惊心每年污染1200万t粮食[N].中国经济周刊,2011-2-22.
  • 10Shin Eun Chul, Das B M. Bearing Capacity of Unsaturated Oil- Contaminated Sand [ C ]// Proceedings of the International Offshore and Polar Engineering Conference. 2000 (2) : 368 - 373.

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工业建筑
2016年 第6期

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