In-situ sparging: Mass transfer mechanisms

Autor:	Neil M. Ram, Christopher H. Nelson, David H. Bass, Wilson S. Clayton
Rok vydání:	1996
Předmět:	Environmental Engineering Ozone Airflow Environmental engineering chemistry.chemical_element Contamination Pollution Oxygen Methane chemistry.chemical_compound chemistry Mass transfer Environmental chemistry Waste Management and Disposal Groundwater Sparging
Zdroj:	Remediation Journal. 6:15-29
ISSN:	1051-5658
DOI:	10.1002/rem.3440060403
Popis:	In-situ sparging has been accepted as a method to rapidly remediate groundwater at considerably lower costs compared to remedies based on groundwater recovery alone. The success of in-situ sparging depends on effective mass transfer between air and contaminated media in the subsurface. Factors affecting mass transfer include advective airflow, diffusive transport, interphase chemical partitioning, and chemical and biological reaction rates between sparged gases and subsurface contaminants, minerals, and naturally occurring organic compounds. Understanding these factors can increase the design efficiency of in-situ sparging and assist in developing sparging systems that use gases other than air (i.e., oxygen, ozone, and methane).
Databáze:	OpenAIRE
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