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In: The International trade journal, Band 9, Heft 3, S. 381-409
ISSN: 1521-0545
In: Handbook of Environmental Engineering 14
The Handbook of Environmental Engineering is a collection of methodologies that study the effects of pollution and waste in their three basic forms: gas, solid, and liquid. A sister volume to Volume 15: Modern Water Resources Engineering, this volume focuses on the theory and analysis of various water resources systems including watershed sediment dynamics and modeling, integrated simulation of interactive surface water and groundwater systems, river channel stabilization with submerged vanes, non-equilibrium sediment transport, reservoir sedimentation, and fluvial processes, minimum energy dissipation rate theory and applications, hydraulic modeling development and application, geophysical methods for assessment of earthen dams, soil erosion on upland areas by rainfall and overland flow, geofluvial modeling methodologies and applications, and an environmental water engineering glossary. This critical volume will serve as a valuable reference work for advanced undergraduate and graduate students, designers of water resources systems, and scientists and researchers
In: Handbook of environmental engineering 4
In: Handbook of Environmental Engineering 2
1 Introduction to Solid Waste Management -- I. Introduction -- II. Solid Waste Generation -- III. Solid Waste Collection and Transportation -- IV. Solid Waste Disposal -- V. Recovery of Resources -- VI. Special Types of Solid Waste -- VII. Legislative Aspects of Solid Waste -- VIII. Concluding Remarks -- References -- 2 Mechanical Volume Reduction -- I. Introduction -- II. Shredding -- III. Baling -- IV. Size Reduction Applications -- V. Economics -- VI. Operation and Maintenance -- VII. Illustration of Shredder Selection -- References -- 3 Combustion and Incineration -- I. Introduction to Incineration -- II. Process Analysis of Incineration Systems -- III. Incineration Systems for Municipal Solid Waste -- IV. Incineration Systems for Municipal and Commercial Wastes -- VI. Economics of Incineration -- VII. An Approach to Design -- Appendix Waste Thermochemical Data -- References -- 4 Sanitary Landfill -- I. Introduction -- II. Site Selection -- III. Engineering, Construction, and Operation of Sanitary Landfill Sites -- IV. Environmental Considerations -- V. Termination of Operations -- Acknowledgements -- References -- 5 Composting Process -- I. Introduction -- II. Microbiology and Classification -- III. Design Approaches -- IV. Process Parameters -- V. Process Control -- VI. Pathogen Survival -- VII. Cost Considerations -- VIII. End Products -- IX. Summary -- X. Practical Examples -- References -- 6 Materials and Energy Recovery -- I. Introduction -- II. Resource Recovery Objectives -- III. Resource Recovery Operations -- IV. Selected Case Studies -- V. The Economics of Resource Recovery -- References -- 7 Solid waste Systems Planning -- I. Introduction -- II. Planning Methodology -- III. Evaluation Methodology -- References.
In: Handbook of Environmental Engineering 1
I Air Pollution Control -- 1 Introduction to Air Pollution -- 2 Fabric Filtration -- 3 Cyclones -- 4 Electrostatic Precipitation -- 5 Wet Scrubbing -- 6 Atmospheric Dilution -- 7 Ventilation And Air Conditioning -- 8 Other Air Pollution Control Techniques -- II Noise Pollution Control -- 9 Introduction to Noise Pollution -- 10 Noise Control.
In: Handbook of Water and Energy Management in Food Processing, S. 755-775
The Handbook of Environment and Waste Management, Volume 1, Air and Water Pollution Control, is a comprehensive compilation of topics that are at the forefront of many technical advances and practices in air and water pollution control. These include air pollution control, water pollution control, water treatment, wastewater treatment, industrial waste treatment and small scale wastewater treatment. Internationally recognized authorities in the field of environment and waste management contribute chapters in their areas of expertise. This handbook is an essential source of reference for profes
In: Handbook of Environmental Engineering 8
Pollution and its effects on the environment have emerged as critical areas of research within the past 30 years. The Handbook of Environmental Engineering is a collection of methodologies that study the effects of pollution and waste in their three basic forms: gas, solid, and liquid. In Volume 8, Biological Treatment Processes, tried-and-true solutions comprise a 'methodology of pollution control'. The distinguished panel of authors contributes detailed chapters, which include topics ranging from treatment by land application, activated sludge processes, and submerged aeration to trickling filters, lagoons, rotating biological contactors, sequencing batch reactors, digestions, and composting. Volume 8 and its sister book - Volume 9: Advanced Biological Treatment Processes - are designed as both basic biological waste treatment textbooks and reference books for advanced undergraduate and graduate students - as well as for designers of waste treatment systems, scientists, and researchers. An indispensable addition to the Humana Press series, Volume 8: Biological Treatment Processes provides an illuminating look at water pollution control and the fascinating evolution of bio-environmental engineering.
In: Handbook of Environmental Engineering 2
In: Handbook of Environmental Engineering 27
Chapter 1: Application of Secondary Flotation-filtration and Coagulant Recycle for Improvement of A Pulp Mill Primary Waste Treatment Facility -- Chapter 2: Management of Solid and Hazardous Wastes -- Chapter 3: Microbial Enzymes for Wastewater Treatment -- Chapter 4: A Multi-criteria Approach to Appropriate Treatment Technology Selection For Water Reclamation -- Chapter 5: Chemicals Used In Agriculture: Hazards and Associated Toxicity Issues -- Chapter 6: Biochar For Adsorptive Removal of Pharmaceuticals From Environmental Water -- Chapter 7: Treatment of Palm Oil Mill Effluent -- Chapter 8: Treatment and Management of Solid Waste By Incineration -- Chapter 9: Technologies For Removal of Volatile Organic Compounds (voc) From Industrial Effluents and/or Potable Water Sources -- Chapter 10: Treatment of Healthcare Waste.
In: Handbook of Environmental Engineering 28
Chapter 1: Treatment of Hazardous Sludge from Water and Wastewater Treatment Plants -- Chapter 2: Treatment of Textile Effluent -- Chapter 3: Stabilization and Solidification of Sludges -- Chapter 4: Removal of Fe and Mn From Groundwater -- Chapter 5: Treatment of Toxicant Dye Compounds in Wastewater By Modified Natural Coagulant -- Chapter 6: Occurrence, Behaviour and Transport of Toxic Heavy Metals from Industries In River Catchment-Control and Mitigation Measures -- Chapter 7: Nano Pollutant Properties, Occurrence and Behavior in Water and Wastewater Streams -- Chapter 8: Dredging and Mining Operations, Management and Environmental Impacts -- Chapter 9: Laboratory Waste Management and Treatment -- Chapter 10: Management and Treatment Methods of Acid Mine Drainage -- Chapter 11: Evaluation of Coagulation-Flocculation Treatment Technologies in Palm Oil Effluent Management.
In: Handbook of Environmental Engineering 26
Chapter 1: Treatment And Management Of Livestock Wastes -- Chapter 2: Waste Treatment In The Pharmaceutical Biotechnology Industry Using Green Environmental Technologies -- Chapter 3: Vermicomposting Process For Processing Agricultural And Food Industry Wastes -- Chapter 4: The Impacts Of Climate Change On Agricultural, Food, And Public Utility Industries -- Chapter 5: Innovative Pact Activated Sludge, Captor Activated Sludge, Activated Bio-Filter, Vertical Loop Reactor, And Phostrip Processes -- Chapter 6: Agricultural Waste Treatment By Water Hyacinth Aquaculture, Wetland Aquaculture, Evapotranspiration, Rapid Rate Land Treatment , Slow Rate Land Treatment, And Subsurface Infiltration -- Chapter 7: Production And Applications Of Crude Polyhydroxyalkanoate-Containing Bioplastic From Agricultural And Food-Processing Wastes -- Chapter 8: Optimization Processes Of Biodiesel Production From Pig And Neem (Azadirachta Indica A.Juss) Seeds Blend Oil Using Alternative Catalysts From Waste Biomass -- Chapter 9: Castor Oil: A Promising Source For The Production Of Flavour And Fragrance Through Lipase Mediated Biotransformation -- Chapter 10: Treatment And Minimization Of Waste In Baker's Yeast Industry.
In: Handbook of Environmental Engineering Volume 16
In: Handbook of Environmental Engineering Ser. v.16
Intro -- Preface -- Contents -- Contributors -- Chapter 1: Multi-Reservoir System Operation Theory and Practice -- 1 Introduction -- 1.1 State-of-the-Art Review on Operation of Multi-Reservoir System -- 1.1.1 Analytical Analysis of Multi-Reservoir Optimal Operation -- 1.1.2 Numerical Simulation and Optimization of Multi-Reservoir System Operation -- Deterministic Optimization Operation -- Stochastic Optimization Operation -- Numerical Simulation Combined with Optimization Models -- 1.2 Multi-Reservoir Construction and Management Practice in China -- 2 Multi-Reservoir Operation Within Theory Framework of Dualistic Water Cycle -- 2.1 Dualistic Water Cycle Theory -- 2.2 Main Technologies -- 2.2.1 Coupling Technology for Dualistic Model -- Dualistic Model System Outline -- Characteristics of the Dualistic Model -- Function of Dualistic Model System -- 2.2.2 Developing Distributed Hydrological Model for Inflow Prediction -- Fortran 90 Is Used to Rebuild Modeling Codes -- Updated Pre-process Module -- Development of a Module for Automatic Calibration of Parameters -- 2.2.3 Technology to Derive Multi-Reservoir Operating Policy -- 2.3 Dualistic Hydrology Simulation and Regulation System for Upper Reaches of Yangtze River -- 3 Operation Rule Curves for Multi-Reservoir Operation -- 3.1 Equivalent Reservoir Rule Curves -- 3.1.1 The Hedging Rule -- 3.1.2 Parametric Rule to Determine the Reservoir Release -- 3.2 Two-Dimension (2D) Rule Curves for Dual-Reservoir System -- 3.2.1 The Function of 2D Rule Curves -- 3.2.2 2D Rule Curves with Variable Allocation Ratios -- 3.2.3 The Optimization Model and Result Analysis for 2D Rule Curves -- 3.3 Rule Curve Decision Variable Settings and Expression -- 4 Multi-Objective Optimization Operation of Multi-Reservoir System -- 4.1 Mathematic Expression of Multi-Objective Function.