Description
The book "Biofilms: Investigative Methods and Applications" provides an in-depth assessment of current and experimental techniques for studying biofilms, which are cellular colonies found in various water systems. These biofilms have become increasingly important in water quality preservation and wastewater treatment, and the book covers methods for understanding their development, structure, and dynamics. It also discusses how these techniques can be used to address technical problems such as biofouling, corrosion, and bioweathering. The book covers both culture-based and nondestructive methods and explains how they can be applied in different manmade settings. Additionally, it offers insights into biofilm research and technologies for controlled growth and monitoring. The book is intended for engineers and researchers and provides technical information and electronic data.
Until now, techniques for studying biofilms- the cellular colonies that live in drinking water systems, wastewater operations, even ground and surface water- have been limited. Yet during the last decade, biofilms have become a critical element in water quality preservation systems, a key component of wastewater treatment biological reactions and the subject of extensive microbiological inquiry. An understanding of biofilm development, structure and dynamics is one condition for improving water supplies and for addressing technical problems such as biofouling, corrosion and bioweathering. Biofilms: Investigative Methods and Applications provides the first in-depth assessment of current and experimental ways to study biofilms, both in sample form and in situ. It shows how sensors, microscopy, lasers, and calorimetry, among other tools, can be used to obtain data on the morphology and metabolism of biofilms. This text is the first to organize and examine the best methods for investigating biofilms. It covers culture-based methods and emerging nondestructive techniques. It also shows how they can be used to characterize biofilms in a variety of manmade settings, such as sewers, wastewater plants, and drinking water distribution systems, as well as in karsts and groundwater sources. In clarifying the way biofilms are studied, the book offers new insights into these living films. It also applies inquiry techniques to the many problems confronting the environmental specialist-corrosion control, biofouling, and the improvement of fixed reactors in wastewater treatment. At the same time it explains technologies for the controlled growth of biofilms and shows how biofilms can be effectively monitored and subjected to quantitative analysis. The technical information in Biofilms: Investigative Methods and Applications is designed to be of use to engineers and researchers and to be helpful in the generation of electronic data.
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