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蒸汽-空气混合注射修复TCE污染的二维土箱实验研究 被引量:5

Steam and Air Co-injection in Removing TCE in 2D-Sand Box
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摘要 蒸汽-空气混合注射法是一种新近发展起来的并具有较好应用前景的包气带非水相液体(NAPLs)污染修复方法.为探讨蒸汽-空气混合注射法的修复过程及机制,本研究采用石英砂模拟包气带松散介质,选取三氯乙烯作为典型污染物,在二维土箱内人工设置不同的污染方式和污染区域,开展混合注射修复实验.结果表明,混合注射有效地改善了SVE法后期出现的"拖尾"现象,其修复过程可分为SVE阶段、蒸汽加强阶段和热量穿透阶段;污染区域零散分布与单一分布相比,热量穿透土箱的时间变短,TCE去除率更高,去除速率更快.污染区域零散分布与单一分布条件下,热量穿透时间分别为60 min、69 min,去除率分别为93.5%、88.2%,去除时间分别为83.9 min、90.6 min,缩短了修复时间;另外,在污染区域单一分布的实验中发生TCE污染羽的积累与下渗现象,降低了TCE去除效率,在污染区域零散分布实验中温度过渡带更宽,温度峰前冷凝的NAPL态TCE减少. Steam and air co-injection is a newly developed and promising soil remediation technique for non-aqueous phase liquids( NAPLs) in vadose zone. In this study,in order to investigate the mechanism of the remediation process,trichloroethylene( TCE)removal using steam and air co-injection was carried out in a 2-dimensional sandbox with different layered sand structures. The results showed that co-injection perfectly improved the"tailing"effect compared to soil vapor extraction( SVE),and the remediation process of steam and air co-injection could be divided into SVE stage,steam strengthening stage and heat penetration stage. Removal ratio of the experiment with scattered contaminant area was higher and removal speed was faster. The removal ratios from the two experiments were 93. 5% and 88. 2%,and the removal periods were 83. 9 min and 90. 6 min,respectively. Steam strengthened the heat penetration stage. The temperature transition region was wider in the scattered NAPLs distribution experiment,which reduced the accumulation of TCE. Slight downward movement of TCE was observed in the experiment with TCE initially distributed in a fine sand zone. And such downward movement of TCE reduced the TCE removal ratio.
作者 王宁 彭胜 陈家军
机构地区 北京师范大学环境学院 山东省环境保护科学研究设计院
出处 《环境科学》 EI CAS CSCD 北大核心 2014年第7期2785-2790,共6页 Environmental Science
基金 国家自然科学基金项目(40902072)
关键词 土壤污染 NAPLS 修复技术 蒸汽-空气混合注射法 二维土箱 soil pollution non-aqueous phase liquids(NAPLs) remediation technique steam and air co-injection 2-D sand box
分类号 X53 [环境科学与工程—环境工程]
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参考文献11

  • 1焦海华,黄占斌,白志辉.石油污染土壤修复技术研究进展[J].农业环境与发展,2012,29(2):48-56. 被引量:31
  • 2何飞,燕永利,张家明,石东峰.土壤含水层NAPLs污染修复技术的研究进展[J].油气田环境保护,2008,18(3):46-50. 被引量:6
  • 3USEPA. Treatment Technologies for Site Cleanup: Annual Status Report ( 12th ) 2007 [ R]. EPA-542-R-07-012.
  • 4刘少卿,姜林,黄喆,李艳霞,林春野.挥发及半挥发有机物污染场地蒸汽抽提修复技术原理与影响因素[J].环境科学,2011,32(3):825-833. 被引量:32
  • 5殷甫祥,张胜田,赵欣,封克,林玉锁.气相抽提法(SVE)去除土壤中挥发性有机污染物的实验研究[J].环境科学,2011,32(5):1454-1461. 被引量:27
  • 6Kaslusky S F, Udell K S. Co-injection of air and steam for the prevention of the downward migration of DNAPLs during steam enhanced extraction: An experimental evaluation of optimum injection ratio predictions [ J ] Journal of Contaminant Hydrology, 2005, 77(4): 325-347.
  • 7Kaslusky S F, Udell K S. A theoretical model of air and steam co-injection to prevent the downward migration of DNAPLs during steam-enhanced extraction [ J ]. Journal of Contaminant Hydrology, 2002, 55 (3) : 213-232.
  • 8Heron G, Carroll S, Sowers H. Steam stripping/hydrous pyrolysis oxidation for in-situ remediation of a TCE DNAPL spill IMP. Taylor & Francis, 2000. 369-369.
  • 9Kuhlman M I. Analysis of the steam injection at the Visalia Superfund Project with fully compositional no isothermal finite difference simulations [ J ]. Journal of Hazardous Materials, 2002, 92(1) : 1-19.
  • 10Schmidt R, Gudbjerg J, Sonnenborg T O, et al. Removal of NAPLs from the unsaturated zone using steam: prevention of downward migration by injecting mixtures of steam and air [ J ]. Journal of Contaminant Hydrology, 2002, 55 (3-4) : 233-260.

二级参考文献99

共引文献91

同被引文献108

  • 1杨伟,宋震宇,李野,袁珊珊,邵兆俊,张景辉,陈冠益.射频加热强化土壤气相抽提技术的应用[J].环境工程学报,2015,9(3):1483-1488. 被引量:6
  • 2刘汉乐,周启友,徐速.非饱和带中非均质条件下LNAPL运移与分布特性实验研究[J].水文地质工程地质,2006,33(5):52-57. 被引量:27
  • 3张富仓,康绍忠.非水相流体在多孔介质中迁移的研究进展[J].土壤学报,2007,44(4):744-751. 被引量:13
  • 4Oostrom M, Lenhard R J. Carbon tetrachloride flow behavior in unsaturated Hanford Caliche Material:An investigation of residual nonaqueous phase liquids. Vadose Zone Journal, 2003,2 ( 1 ) 25--33.
  • 5Oostrom M, Dane J H,Wietsma T W. Removal of carbon tetrachloride from a layered porous medium by means of soil vapor extraction enhanced by desiccation and water table reduction. Vadose Zone Journal, 2005, 4 (4): 1170--1182.
  • 6Tidwell V C, Glass R J. X ray and visible light transmission for laboratory measurement of two- dimensional saturation fields in thin-slab systems. Water Resources Research, 1994, 30(11) :2873--2882.
  • 7Fagerlund F, IUangasekare T H, Niemi A. Nonaqueous phase liquid infiltration and immobilization in heterogeneous media: 1. Experimental methods and two-layered reference case. Vadose Zone Journal,2007,6(3) :471--482.
  • 8Van Geel P, Sykes J. Laboratory and model simulations of a LNAPL spill in a variably- saturated sand, 1. Laboratory experiment and image analysis techniques. Journal of Contaminant Hydrology, 1994,17(1) : 1 -- 25.
  • 9OEarroll D M, Bradford S A, Abriola L M. Infiltration of PCE in a system containing spatial wettability variations. Journal of Contaminant Hydrology, 2004,73 ( 1 -- 4) : 39 -- 63.
  • 10高燕维,郑菲,徐红霞等.基于改进反射光法分析DNAPL的运移与分布特性.地球科学:中国地质大学学报,2013,38(S2):8-12.

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环境科学
2014年 第7期

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