UID:
almafu_9960072225402883
Umfang:
1 online resource (309 p.)
ISBN:
1-281-05019-9
,
9786611050191
,
0-08-047608-2
Serie:
Waste management series ; 6
Inhalt:
Microbial granules have practical importance in anaerobic and aerobic biological wastewater treatment. Advantages of granules are retention of biomass in reactor, diversity of microorganisms, complex structure, and resistance to unfavorable conditions. Microbial granules can be used to treat municipal and industrial wastewater for removal of organic matter, xenobiotics, nutrients, and heavy metals. The book covers almost all aspects of formation and use of microbial granules in wastewater treatment. The data on aerobic microbial granulation are related mostly to laboratory systems due
Anmerkung:
Description based upon print version of record.
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FRONT COVER; TITLE PAGE; Copyright Page; Dedication; Table of contents; Preface; Contributors; Chapter 1 - Mechanisms and Models for Anaerobic Granulation; Introduction; Physico-chemical Models; Structural Models; Proton Translocation-Dehydration Theory; Cellular Automaton Model; Cell-to-Cell Communication Model; A General Model for Anaerobic Granulation; References; Chapter 2 - Factors Affecting Anaerobic Granulation; Introduction; Environmental Conditions; Process Conditions During Start-up and Operation; Chemical Conditions; Summary of Recommendations for Developing Granular Sludge
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ReferencesChapter 3 - Applications of Anaerobic Granulation; Introduction; Types of Anaerobic Treatment Plants Installed Worldwide; Scope of Applications; Applications of Anaerobic Granulation; The Future of Anaerobic Granulation; References; Chapter 4 - Mechanisms of Aerobic Granulation; Introduction; Selection Pressure-driven Aerobic Granulation; Role of Extracellular Polymeric Substances (EPS) in Aerobic Granulation; Summary; References; Chapter 5 - Factors Affecting Aerobic Granulation; Introduction; Substrate Composition; Substrate Loading Rate; Hydrodynamic Shear Force
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Feast-Famine RegimeSolids Retention Time; Dissolved Oxygen; Feeding Strategy; Cycle Time; Settling Time; Exchange Ratio; Presence of Calcium Ion in Feed; Seed Sludge; Reactor Configuration; Summary; References; Chapter 6 - Structure of Aerobically Grown Microbial Granules; Natural Microbial Granules; Aerobically Grown Microbial Granules; Structural Features of Aerobically Grown Microbial Granules; Shape and Size of the Granules; Surface of Granules; Radial Structures in Granule; Concentric Layers of Granule; Biomass and Polysaccharides in Granule; Channels and Pores
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Adherence and Release of Cells and ParticlesAnaerobic Processes in Aerobically Grown Granules; Optimization of Granule Size; Dynamics of Granule Formation and Destruction; References; Chapter 7 - Microorganisms of Aerobic Microbial Granules; Granules as Cellular Aggregates; Microbial Interactions in Aggregates; Study of Microbial Community Diversity; Microbial Diversity Studied by Cloning-Sequencing Method; Growth Stages of Aerobic Granules; Amplified Ribosomal DNA Restriction Analysis (ARDRA); Diversity Indices; Microbial Community Analysis; Aerobes and Facultative Anaerobes in Granules
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Obligate Anaerobes in GranulesMicrobial Diversity of Granules, Grown in Glucose-containing Model Wastewater, Studied by FISH with Group-specific Oligonucleotide Probes; Bacterial Populations in Acetate-fed Aerobic Granules; References; Chapter 8 - Nutrient Removal by Microbial Granules; Introduction; Development of Nitrifying Granules; Organics Removal and Nitrification; Nitrogen Removal under Alternating Aerobic-Anaerobic Conditions; Improved Stability of Aerobic Granules by Selecting Slow-growing Bacteria; Microbial Granules for Phosphorus Removal; Summary; References
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Chapter 9 - Removal of Phenol from Wastewater by Microbial Granules
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English
Weitere Ausg.:
ISBN 0-08-045022-9
Sprache:
Englisch
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