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Table of Contents
1. Introduction
1.1 Wastewater management and sustainability
1.1.1 Natural treatment systems and the new paradigm for wastewater management
1.1.2 Natural treatment systems and sustainable development
1.1.3 Basics about wastewater
1.1.4 Global use of natural wastewater treatment systems
1.2 Purpose and scope of this book
2. Biology of ponds, lagoons, and wetlands
2.1 Introduction
2.2 Classification of organisms by energy and carbon source
2.3 Biodiversity in ponds, lagoons, and wetlands
2.3.1 Prokaryotes
2.3.2 Viruses
2.3.3 Plants, algae, and cyanobacteria
2.3.4 Protozoa
2.3.5 Macroinvertebrates
2.3.6 Fungi
2.3.7 Larger organisms
2.4 Biological transformations of organic matter
2.5 The carbon, nitrogen, phosphorus, and sulfur cycles
2.5.1 Carbon cycle
2.5.2 Nitrogen cycle
2.5.3 Phosphorus cycle
2.5.4 Sulfur cycle
2.6 Pathogenic and nuisance organisms
2.6.1 Microorganisms associated with disease
2.6.2 Nuisance organisms
3. Site selection and physical design considerations
3.1 Site selection
3.2 Lining materials
3.3 Earthwork, slopes, berms, and embankments
3.4 Hydraulic design of wastewater systems
3.4.1 Inlets and outlets
3.4.2 Flow control structures
3.5 Overview
3.6 Design approaches
3.6.1 Loading rate approach
3.6.2 Reactor theory approach
4. Wastewater treatment ponds and lagoons
4.1 Introduction
4.2 Pretreatment
4.2.1 Screening
4.2.2 Grit removal
4.3 Anaerobic ponds
4.4 Facultative ponds
4.5 Mechanically aerated ponds
4.6 Maturation and polishing ponds
4.6.1 Removal of pathogens and fecal indicator organisms
4.6.2 Ammonia and total nitrogen removal
4.6.3 Phosphorus removal
4.7 Floating macrophyte ponds (wetlands)
5. Constructed wetlands
5.1 Introduction
5.2 Horizontal subsurface flow wetlands
5.2.1 Loading rate approach
5.2.2 Reactor theory approach
5.3 Vertical flow wetlands
5.3.1 Loading rate approach
5.3.2 Reactor theory approach
5.4 Free water surface flow wetlands
5.4.1 Hydraulic design
5.4.2 Loading rate approach
5.4.3 Reactor theory approach
5.5 Selection of plant species
5.6 Substrate
5.6.1 Horizontal subsurface flow wetlands
5.6.2 Vertical flow wetlands
5.6.3 Free water surface flow wetlands
6. Industrial wastewater
6.1 Introduction
6.2 Animal waste
6.3 Food processing waste
6.4 Coal combustion residuals
6.5 Pulp and paper mill waste
7. Operation and maintenance
7.1 Start-up
7.2 Sludge management
7.3 Routine monitoring
7.4 Visual and sensory cues
References
Author biography
Index.
1.1 Wastewater management and sustainability
1.1.1 Natural treatment systems and the new paradigm for wastewater management
1.1.2 Natural treatment systems and sustainable development
1.1.3 Basics about wastewater
1.1.4 Global use of natural wastewater treatment systems
1.2 Purpose and scope of this book
2. Biology of ponds, lagoons, and wetlands
2.1 Introduction
2.2 Classification of organisms by energy and carbon source
2.3 Biodiversity in ponds, lagoons, and wetlands
2.3.1 Prokaryotes
2.3.2 Viruses
2.3.3 Plants, algae, and cyanobacteria
2.3.4 Protozoa
2.3.5 Macroinvertebrates
2.3.6 Fungi
2.3.7 Larger organisms
2.4 Biological transformations of organic matter
2.5 The carbon, nitrogen, phosphorus, and sulfur cycles
2.5.1 Carbon cycle
2.5.2 Nitrogen cycle
2.5.3 Phosphorus cycle
2.5.4 Sulfur cycle
2.6 Pathogenic and nuisance organisms
2.6.1 Microorganisms associated with disease
2.6.2 Nuisance organisms
3. Site selection and physical design considerations
3.1 Site selection
3.2 Lining materials
3.3 Earthwork, slopes, berms, and embankments
3.4 Hydraulic design of wastewater systems
3.4.1 Inlets and outlets
3.4.2 Flow control structures
3.5 Overview
3.6 Design approaches
3.6.1 Loading rate approach
3.6.2 Reactor theory approach
4. Wastewater treatment ponds and lagoons
4.1 Introduction
4.2 Pretreatment
4.2.1 Screening
4.2.2 Grit removal
4.3 Anaerobic ponds
4.4 Facultative ponds
4.5 Mechanically aerated ponds
4.6 Maturation and polishing ponds
4.6.1 Removal of pathogens and fecal indicator organisms
4.6.2 Ammonia and total nitrogen removal
4.6.3 Phosphorus removal
4.7 Floating macrophyte ponds (wetlands)
5. Constructed wetlands
5.1 Introduction
5.2 Horizontal subsurface flow wetlands
5.2.1 Loading rate approach
5.2.2 Reactor theory approach
5.3 Vertical flow wetlands
5.3.1 Loading rate approach
5.3.2 Reactor theory approach
5.4 Free water surface flow wetlands
5.4.1 Hydraulic design
5.4.2 Loading rate approach
5.4.3 Reactor theory approach
5.5 Selection of plant species
5.6 Substrate
5.6.1 Horizontal subsurface flow wetlands
5.6.2 Vertical flow wetlands
5.6.3 Free water surface flow wetlands
6. Industrial wastewater
6.1 Introduction
6.2 Animal waste
6.3 Food processing waste
6.4 Coal combustion residuals
6.5 Pulp and paper mill waste
7. Operation and maintenance
7.1 Start-up
7.2 Sludge management
7.3 Routine monitoring
7.4 Visual and sensory cues
References
Author biography
Index.