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| INTRODUCTION | |
| The Nature and Control of Waste Disposal Sites | |
| The Bioreactor Concept | |
| Reactor Configurations of Relevance to Practical Description of a Waste Site | |
| The Waste Site as a Biological Reactor | |
| PHYSICAL CHARACTERISTICS OF WASTE SITES | |
| Waste Site Bioreactor Concepts | |
| Porosity of a Waste Site | |
| Density and Other Properties of Mixed Soil and Waste Materials | |
| Applicability of Conductivity and Permeability Relations for Packed Beds | |
| Permeability k of a Mixed Porous Media | |
| Permeability (k) Correction for Packed Bed Flow | |
| Correction of Packed Column Pressure Drop for Wall Effects | |
| Corrections for Pressure Drop Relations for Fluid Flow through a Waste Site | |
| Waste Site Particle Properties: Size and Shape | |
| References | |
| CHARACTERIZATION OF DISPOSED WASTES: PHYSICAL AND CHEMICAL PROPERTIES, AND BIODEGRADATION FACTORS | |
| Determination of Physical and Chemical Characteristics of Wastes | |
| MSW Composition vs. Landfill Layer Depth or Age: Data for Initialization | |
| Individual Wastes and Characteristics | |
| Characteristics of Paper Wastes | |
| Characteristics of Food Wastes | |
| Characteristics of Yard Wastes | |
| Characteristics of Plastics Wastes | |
| Plastics Deterioration in Landfills | |
| Landfill Leachate and Landfill Gas Characteristics | |
| WASTE SITE ECOLOGY | |
| Influence of the Waste Site Environment on Types of Organisms Present | |
| Species Competition for Food at a Waste Site | |
| The Range of Organisms at Waste Sites | |
| Organisms Found in Compost Piles | |
| Trophic Relations and Environmental Factors Determining Organisms at Waste Sites | |
| Influence of Site Environmental factors on Organism Types | |
| The Waste Site as an Environment for Organisms | |
| Definition of Impact of Organisms at Disposed Waste Site | |
| Organisms Reported at Landfills, Dumps, and Other Waste Sites: Considerations | |
| Waste Site Scavengers | |
| Waste Removal Impact of Animals at Disposal Sites | |
| Waste Removal by Insects and Soil Mesofauna | |
| References | |
| MOISTURE AND HEAT FLOWS | |
| Moisture as a Control of Processes in the Waste Site | |
| Water Film Thickness on Solid Materials under Sorption Regime | |
| Method 1 for Liquid Film Thickness Determination | |
| Method 2 for Moisture Film Thickness | |
| Water Potential vs. Water Activity of Soils and Solid Porous Materials | |
| The Issue of Mixed Water Saturation or Varied Water Potential in Wastes | |
| Maximum Moisture Sorption by a Material | |
| Effect of Waste Moisture Content on Soil Organisms | |
| Water Availability to Organisms | |
| Hydraulic Conductivity | |
| Capillary Effects in Waste Sites | |
| Waste Site Moisture Retention Characteristics | |
| Full Range Moisture Capillarity | |
| Middle Moisture Content Range | |
| Moist to Saturation of Wet Moisture Content Section of Curve | |
| Moisture Retention Curve in the Dry Range for Landfilled Waste | |
| Boundary Conditions | |
| Estimation of Constants Full-Range (Wet to Dry) | |
| Reliability of Estimated Values | |
| Relevance of the Lower Curve Junction to Bioreactor Simulation | |
| Development of Moisture Capillarity-Hydraulic | |
| Summary of Extended Range Conductivity Relationships | |
| Moisture Inflow and Moisture Balance | |
| Locations Used for Landfill Cover Moisture Impact Simulations | |
| Microorganism Rate vs. Water Content and Water Activity | |
| Limitations of Applying Water Potential Concepts | |
| Discussion | |
| References | |
| HEAT GENERATION AND TRANSPORT | |
| Introduction | |
| The Heat Model | |
| Definition of Waste Site System Heat Capacity | |
| Heat Content of System: Landfill Gas or Air as Saturating Fluid | |
| The Volumetric Heat Generation Term q''' | |
| Heat Impact of Moisture Uptake and Flows | |
| Evaporation Enhancement Due to Thermal Gradient in Pore Structure | |
| Temperature vs. Water Vapor Diffusion, Latent Heat and Density Variation | |
| Definitions of Waste Site System Tortuosity | |
| Energy Balance at Atmospheric Boundary of Bioractor | |
| Effect of Surface Albedo | |
| Incoming Longwave Radiation | |
| Outgoing Longwave Radiation | |
| Latent Heat Flow of a Bioreactor System | |
| Temperature Variation with Depth | |
| Sensible Heat Flow from the Bioreactor System | |
| Development of the Heat Generation Model | |
| Solution to the Heat Equation | |
| Temperature at the Waste Site Surface | |
| Variables of the Heat Generation Model | |
| Landfill Thermal Conductivity Km | |
| Thermal Conductivity and Diffusivity Values | |
| Estimating the Mean Thermal Conductivity of Mixed Waste Materials | |
| References | |
| THE KINETICS OF DECOMPOSITION OF WASTES | |
| Introduction | |
| Anaerobic and Aerobic Decomposition Patterns | |
| Anaerobic Decomposition | |
| The Kinetics of Aerobic Decomposition at a Waste Site | |
| Aerobic Hydrolysis Product Generation, Incorporation and Use | |
| Diffusivity Coefficients for Liquid and Gas Solutes | |
| A Stoichiometric Approach to Decomposition | |
| Values of Decompositiom Kinetic Constants | |
| References | |
| DECOMPOSITION ISSUES | |
| Introduction | |
| Information from Previous Waste Site Studies | |
| Landfill Soils Sampling Studies | |
| Landfill Soil Microorganism Studies | |
| Mass Transfer Considerations | |
| Application of Transport Model to Gas Flux | |
| Gas-Liquid Transfers | |
| Mass Flux | |
| Removal of Chemical in Liquid Film | |
| Application of Transport Model to Gas Chemicals Flux | |
| Mass Transfer Rate at Interface | |
| Biodegradation Rates for Landfill Organic Chemicals | |
| Partitioning Between Gas and Liquid | |
| Waste Site Settlement | |
| References | |
| SENSITIVITY ANALYSIS AND CONCLUSIONS | |
| Introduction | |
| Information in Database for MSW Fractions as Substrate | |
| Range of Anaerobic and Hydrolysis Rates | |
| Chemical Characterization of Waste Fractions | |
| Moisture Sorption Factors for Municipal Waste Materials | |
| Moisture Response of Materials to the Environment | |
| Testing Approach | |
| Other Properties Estimated for the Database | |
| Constants for Aerobic and Anaerobic Decomposition | |
| Soil Moisture Content | |
| Moisture Inflow Effect of Cover | |
| Temperature as a Decomposition Factor | |
| Biofiltration Effect | |
| Settlement Effect | |
| Discussion | |
| Moisture Input | |
| Conclusions | |
| Appendix 1: Waste-Properties | |
| Appendix 2: Landfill Gas Properties |
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