« Previous Abstract"Reducing 1,3-dichloropropene emissions from soil columns amended with thiourea"    Next AbstractPotential characterization of yeasts isolated from Kazak artisanal cheese to produce flavoring compounds »

Water Environ Res

Title:		Study on mechanisms and effect of surfactant-enhanced air sparging
Author(s):		Zheng W; Zhao YS; Qin CY; Wang B; Qu ZH;
Address:		"College of Environment and Resource, Jilin University, Changchun, PR China"
Journal Title:		Water Environ Res
Year:		2010
Volume:		82
Issue:		11
Page Number:		2258 - 2264
DOI:		10.2175/106143010x12681059116734
ISSN/ISBN:		1061-4303 (Print) 1061-4303 (Linking)
Abstract:		"In an attempt to enhance the effectiveness of air sparging, two sets of experiments were designed to investigate the mechanisms and effect of surfactant-enhanced air sparging (SEAS). The first set was performed at different surface tensions and with different kinds of surfactants (sodium dodecyl benzene sulfonate and Tween-80 [Uniqema Americas LLC, Wilmington, Delaware]), which were added into the contaminated aquifer of different media (particle distribution size = 0.25 to 0.5 mm and 5 to 10 mm). The results indicated that the air saturation in the aquifer increased rapidly at an early stage, then the increase of air saturation slowed down with the increase of airflow rate. The air saturation of medium sand increased with the decrease in water surface tension, and maximum air saturation was achieved at a surface tension of approximately 5 x 10(-2) N/m (50 dyn/cm), which was considered to be the optimum surface tension for air sparging enhancement in the medium sand aquifer. The increase of air saturation in gravel was the result of the increase of foamability and foam stability. The second group of experiments is about the removal of chlorobenzene from the medium sand aquifer. The experiments indicated that chlorobenzene removal by SEAS was more complete and efficient than that of conventional air sparging technology. However, the increase of removal rate and the decrease of lingering concentration by SEAS was not significant, with a further decrease in the surface tension when the surface tension dropped to 5.04 X 10(-2) N/m (50.4 dyn/cm)"
Keywords:		"*Air Surface-Active Agents/*chemistry Volatile Organic Compounds/*chemistry Waste Disposal, Fluid/*methods Water/chemistry Water Pollutants, Chemical/*chemistry;"
Notes:		"MedlineZheng, Wei Zhao, Yong-sheng Qin, Chuan-yu Wang, Bing Qu, Zhi-hui eng Research Support, Non-U.S. Gov't 2010/12/15 Water Environ Res. 2010 Nov; 82(11):2258-64. doi: 10.2175/106143010x12681059116734"