Advances in Sonochemistry, Volume 6: Ultrasound in Environmental Protectionby T.J. Mason, A. Tiehm, Mason T. J. Mason
Pub. Date: 06/22/2001
Publisher: Elsevier Science
Ultrasound in Environmental Protection focuses on one of the more significant developments in the subject - environmental remediation - providing an overview on both the fundamentals and applications of ultrasound in environmental protection, incorporating recent research and state-of-the-art information on the scientific basis, modes of use, and/b>/i>
Ultrasound in Environmental Protection focuses on one of the more significant developments in the subject - environmental remediation - providing an overview on both the fundamentals and applications of ultrasound in environmental protection, incorporating recent research and state-of-the-art information on the scientific basis, modes of use, and engineering developments.
A broad spectrum of topics are covered: reactor design, sonochemical pollutant degradation, integrated unltrasonic/ biological treatment, ultrasound in disinfection, leaching by ultrasound, and ultrasonically enhanced removal of suspended solids.
Ultrasound is generated and applied at frequencies from 20 kHz to several MHz. The physio-chemical parameters of the sonicated media, reactor design, applied intensity, and duration of sonication, dramatically influence the effects that can be achieved.
It is hoped that this compilation will contribute to a better understanding and further development of sonochemistry as a clean technology not only for environmental remediation but also more generally.
The foundation of this compilation was formed during a workshop that was held at the Technical University of Hamburg-Harburg, Germany, in March 1999. This was the first workshop to be devoted to 'Ultrasound in Environmental Engineering' and brought together experience and knowledge from a broad spectrum of disciplines including chemistry, biology, engineering, equipment manufacturing, and plant design.
Table of Contents
Preface (T.J. Mason, A. Tiehm). The uses of ultrasound for biological decontamination (S.S. Phull, T.J. Mason). Combination of ultrasonic and biological pollutant degradation (A.Tiehm). Ultrasonic disintegration of sewage sludge for enhanced anaerobic biodegradation (U. Neis et al.). The sonochemical degradation of aromatic and chloroaromatic contaminants (C. Petrier, D. Casadonte). Sonolytic ozonation for the remediation of hazardous pollutants (L.K. Weavers). Ultrasonically assisted leaching (K.M. Swamy et al.). Ultrasonic phase separation ( J.F. Spengler et al.). Ultrasound in filtration and sludge dewatering (P. Pirkonen). The design of ultrasonic reactors for environmental remediation (T.J. Mason). INDEX
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