Die Ozonierung von Trink- und Abwasser ist eine umweltfreundliche und kostengünstige Alternative zur Chlorierung. Auf diesem Gebiet wird derzeit sehr intensiv geforscht, und die meisten industriellen Anwendungen werden im Labormaßstab geprüft.
Das vorliegende Buch zum Thema ist insofern originell, als es sich sowohl mit Trink- als auch mit Abwasserbehandlung befaßt. Es ist äußerst praxisorientiert und liefert kompakt die nötigen Informationen zum Aufbau von Experimenten im Labormaßstab, zu deren Ausführung, Interpretation und Anwendung.
Autorentext
Christiane Gottschalk holds a PhD degree in environmental engineering from the Technical University of Berlin, Germany. She is currently responsible for the strategic product development of the business unit ozone at MKS Instruments.
Judy Libra is currently a project coordinator with acatech, the German Academy of Science and Engineering. She holds degrees in chemical engineering, civil engineering and environmental process engineering and has taught and researched in the field of wastewater treatment for many years at the Technical Universities in Berlin and Cottbus, Germany.
Adrian Saupe holds a PhD in environmental engineering. Having developed the use of ozonation in wastewater treatment, especially in combined chemical-biological processes, at the Technical University of Berlin, he is now working as a program manager with the Research Funding and Management organisation Project Management Jülich (PtJ), affiliated with the Forschungszentrum Jülich GmbH, Germany.
Klappentext
C. Gottschalk, J. A. Libra, A. Saupe Ozonation of Water and Waste Water A Practical Guide to Understanding Ozone and its Application The ozonation of compounds in water is a complex process. The mechanisms are very complicated, the parameters are many, but the possibilities of developing cost-effective treatment schemes for drinking water and waste water are large. Most books available today concentrate on either drinking water or waste water treatment, seldom dealing with both or explaining the essential differences. And only rare exceptions deal with the how-to of ozone experiments. This practical guide fills the gap. It contains the author’s cumulative knowledge on experimental design, execution, interpretation and application. Drawing on experience gained from hours spent on laboratory research with drinking and waste waters, literature study, intensive discussion with leading experts, perplexed reflection and deep thought, the book offers practical help to avoid common pitfalls and unnecessary work. This book is aimed at professionals in industry and research currently using ozonation who want to optimize their system, as well as students beginning work with ozonation. It contains just enough information for beginners to start with, but goes rapidly to the detailed information that advanced readers need.
Zusammenfassung
The ozonation of compounds in water is a complex process. The mechanisms are very complicated, the parameters are many, but the possibilities of developing cost-effective treatment schemes for drinking water and waste water are large.
Most books available today concentrate on either drinking water or waste water treatment, seldom dealing with both or explaining the essential differences. And only rare exceptions deal with the how-to of ozone experiments. This practical guide fills the gap.
It contains the cumulative knowledge on experimental design, execution, interpretation and application. Drawing on experience gained from hours spent on laboratory research with drinking and waste waters, literature study, intensive discussion with leading experts, perplexed reflection and deep thought, the book offers practical help to avoid common pitfalls and unnecessary work.
This book is aimed at professionals in industry and research currently using ozonation who want to optimize their system, as well as students beginning work with ozonation. It contains just enough information for beginners to start with, but goes rapidly to the detailed information that advanced readers need.
Inhalt
Introduction
PART A: OZONE IN OVERVIEW
Toxicology
Reaction Mechanism
Full Scale Applications
PART B: OZONE APPLIED
Experimental Design
Experimental Equipment and Analytical Methods
Mass Transfer
Reaction Kinetics
Modeling of Ozonation Processes
Application of Ozone in Combined Processes
Glossary