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Journal Abstract Search

137 related items for PubMed ID: 21755071

  • 1. Centrifugal study of zone of influence during air-sparging.
    Hu L, Meegoda JN, Du J, Gao S, Wu X.
    J Environ Monit; 2011 Sep; 13(9):2443-9. PubMed ID: 21755071
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  • 3. Remediation of saturated soil contaminated with petroleum products using air sparging with thermal enhancement.
    Mohamed AM, El-menshawy N, Saif AM.
    J Environ Manage; 2007 May; 83(3):339-50. PubMed ID: 16844283
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  • 4. Changes in air flow patterns using surfactants and thickeners during air sparging: bench-scale experiments.
    Kim J, Kim H, Annable MD.
    J Contam Hydrol; 2015 Jan; 172():1-9. PubMed ID: 25462638
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  • 5. Hydrogeo-chemical impacts of air sparging remediation on a semi-confined aquifer: evidences from field monitoring and modeling.
    Fan W, Yang YS, Lu Y, Du XQ, Zhang GX.
    Chemosphere; 2013 Jan; 90(4):1419-26. PubMed ID: 23021385
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  • 6. Predictive models and airflow distribution associated with the zone of influence (ZOI) during air sparging remediation.
    Song X, Zhao Y, Wang H, Qin C.
    Sci Total Environ; 2015 Dec 15; 537():1-8. PubMed ID: 26278372
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  • 7. Applying short-duration pulses as a mean to enhance volatile organic compounds removal by air sparging.
    Ben Neriah A, Paster A.
    J Contam Hydrol; 2017 Oct 15; 205():96-106. PubMed ID: 28962802
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  • 8. Using radon-222 as indicator for the evaluation of the efficiency of groundwater remediation by in situ air sparging.
    Schubert M, Schmidt A, Müller K, Weiss H.
    J Environ Radioact; 2011 Feb 15; 102(2):193-9. PubMed ID: 21146260
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  • 9. Air distribution and size changes in the remediated zone after air sparging for soil particle movement.
    Tsai YJ.
    J Hazard Mater; 2008 Oct 30; 158(2-3):438-44. PubMed ID: 18337001
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  • 10. Enhanced removal of VOCs from aquifers during air sparging using thickeners and surfactants: Bench-scale experiments.
    Kim H, Ahn D, Annable MD.
    J Contam Hydrol; 2016 Jan 30; 184():25-34. PubMed ID: 26697745
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  • 14. In situ treatment of arsenic-contaminated groundwater by air sparging.
    Brunsting JH, McBean EA.
    J Contam Hydrol; 2014 Apr 30; 159():20-35. PubMed ID: 24561624
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  • 15. [Study on the groundwater petroleum contaminant remediation by air sparging].
    Wang ZQ, Wu Q, Zou ZG, Chen H, Yang XC, Zhao JC.
    Huan Jing Ke Xue; 2007 Apr 30; 28(4):754-60. PubMed ID: 17639932
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  • 16. Evaluation of air sparging and vadose zone aeration for remediation of iron and manganese-impacted groundwater at a closed municipal landfill.
    Pleasant S, O'Donnell A, Powell J, Jain P, Townsend T.
    Sci Total Environ; 2014 Jul 01; 485-486():31-40. PubMed ID: 24704954
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  • 17. A coupled simulation-optimization approach for groundwater remediation design under uncertainty: an application to a petroleum-contaminated site.
    He L, Huang GH, Lu HW.
    Environ Pollut; 2009 Jul 01; 157(8-9):2485-92. PubMed ID: 19359077
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  • 18. Remediation of groundwater contaminated with MTBE and benzene: the potential of vertical-flow soil filter systems.
    van Afferden M, Rahman KZ, Mosig P, De Biase C, Thullner M, Oswald SE, Müller RA.
    Water Res; 2011 Oct 15; 45(16):5063-74. PubMed ID: 21794890
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  • 19. Centrifuge modeling of air sparging - a study of air flow through saturated porous media.
    Marulanda C, Culligan PJ, Germaine JT.
    J Hazard Mater; 2000 Feb 25; 72(2-3):179-215. PubMed ID: 10650190
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  • 20. Air sparging effectiveness: laboratory characterization of air-channel mass transfer zone for VOC volatilization.
    Braida WJ, Ong SK.
    J Hazard Mater; 2001 Oct 12; 87(1-3):241-58. PubMed ID: 11566413
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