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Critical Reviews in Environmental Science and Technology Volume 37, 2007 - Issue 4
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Original Articles

Ultrasound Applications in Wastewater Sludge Pretreatment: A Review

Samir Kumar Khanal Department of Civil, Construction, and Environmental Engineering, Iowa State University, Ames, Iowa, USA
,
David Grewell Department of Agricultural and Biosystems Engineering, Iowa State University, Ames, Iowa, USA
,
Shihwu Sung Department of Civil, Construction, and Environmental Engineering, Iowa State University, Ames, Iowa, USA
&
J. (Hans) van Leeuwen Departments of Civil, Construction, and Environmental Engineering and of Agricultural and Biosystems Engineering, Iowa State University, Ames, Iowa, USA
Pages 277-313 | Published online: 14 May 2007
 
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Abstract

Municipal wastewater sludge, particularly waste activated sludge (WAS), is more difficult to digest than primary solids due to a rate-limiting cell lysis step. The cell wall and the membrane of prokaryotes are composed of complex organic materials such as peptidoglycan, teichoic acids, and complex polysaccharides, which are not readily biodegradable. Physical pretreatment, particularly ultrasonics, is emerging as a popular method for WAS disintegration. The exposure of the microbial cells to ultrasound energy ruptures the cell wall and membrane and releases the intracellular organics in the bulk solution, which enhances the overall digestibility. This review article summarizes the major findings of ultrasonic application in WAS disintegration, and elucidates the impacts of sonic treatment on both aerobic and anaerobic digestion. This review also touches on some basics of ultrasonics, different methods of quantifying ultrasonic efficacy, and some engineering aspects of ultrasonics as applied to biological sludge disintegration. The review aims to advance the understanding of ultrasound sludge disintegration and outlines the future research direction. There is general agreement that ultrasonic density is more important than sonication time for efficient sludge disintegration. Published studies showed as much as 40% improvement in solubilization of WAS following ultrasonic pretreatment. Based on kinetic models, ultrasonic disintegration was impacted in the order: sludge pH > sludge concentration > ultrasonic intensity > ultrasonic density. Both laboratory and full-scale studies showed that the integration of an ultrasonic system to the anaerobic digester improved the anaerobic digestibility significantly.

ACKNOWLEDGEMENTS

The authors thank Jay Sheehan of Branson Ultrasonics for his input into this review. We also thank one of the anonymous reviewers for his/her excellent inputs. The Department of Civil, Construction, and Environmental Engineering at Iowa State University provided startup funds to the first author (SKK) for this research.

Notes

*Some of the data were taken from the graph; N/A: Not applicable or Not available.

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