Handbook of Environmental Engineering Calculations 2nd Ed.
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ContributorsPrefacePart 1: Calculations of Water Quality Assessment and ControlChapter 1.1: Basic Science and FundamentalsChapter 1.2: Streams and RiversChapter 1.3: Lakes and ReservoirsChapter 1.4: GroundwaterChapter 1.5: Fundamental and Treatment Plant HydraulicsChapter 1.6: Public Water SupplyChapter 1.7: Wastewater EngineeringAppendix A: Illinois Environmental Protection Agency's Macroinvertebrate Tolerance ListAppendix B: Well Function for Confined AquifersAppendix C: Solubility Product Constants for Solution at or near Room TemperatureAppendix D: Freundlich Adsorption Isotherm Constants for Toxic Organic CompoundsPart 2: Solid Waste CalculationsChapter 2.1: Thermodynamics Used in Environmental EngineeringChapter 2.2: Basic Combustion and IncinerationChapter 2.3: Practical Design of Waste IncinerationChapter 2.4: Calculations for Permitting and ComplianceChapter 2.5: Calculational Procedures for Ash Stabilization and SolidificationChapter 2.6: Incineration Technologies and Facility RequirementsPart 3: Air Pollution Control CalculationsChapter 3.1: Air Emission ControlChapter 3.2: Particulate Emission ControlChapter 3.3: Wet and Dry Scrubbers for Emission ControlPart 4Chapter 4.1: Air Toxic Risk AssessmentPart 5Chapter 5.1: Fundamentals of Fuel Cell TechnologiesINDEX
Part 1: Calculations of Water Quality Assessment and ControlChapter 1.1: Basic Science and FundamentalsChapter 1.2: Streams and RiversChapter 1.3: Lakes and ReservoirsChapter 1.4: GroundwaterChapter 1.5: Fundamental and Treatment Plant HydraulicsChapter 1.6: Public Water SupplyChapter 1.7: Wastewater EngineeringAppendix A: Illinois Environmental Protection Agency's Macroinvertebrate Tolerance ListAppendix B: Well Function for Confined AquifersAppendix C: Solubility Product Constants for Solution at or near Room TemperatureAppendix D: Freundlich Adsorption Isotherm Constants for Toxic Organic CompoundsPart 2: Solid Waste CalculationsChapter 2.1: Thermodynamics Used in Environmental EngineeringChapter 2.2: Basic Combustion and IncinerationChapter 2.3: Practical Design of Waste IncinerationChapter 2.4: Calculations for Permitting and ComplianceChapter 2.5: Calculational Procedures for Ash Stabilization and SolidificationChapter 2.6: Incineration Technologies and Facility RequirementsPart 3: Air Pollution Control CalculationsChapter 3.1: Air Emission ControlChapter 3.2: Particulate Emission ControlChapter 3.3: Wet and Dry Scrubbers for Emission ControlPart 4Chapter 4.1: Air Toxic Risk AssessmentPart 5Chapter 5.1: Fundamentals of Fuel Cell TechnologiesINDEX
Chapter 1.2: Streams and RiversChapter 1.3: Lakes and ReservoirsChapter 1.4: GroundwaterChapter 1.5: Fundamental and Treatment Plant HydraulicsChapter 1.6: Public Water SupplyChapter 1.7: Wastewater EngineeringAppendix A: Illinois Environmental Protection Agency's Macroinvertebrate Tolerance ListAppendix B: Well Function for Confined AquifersAppendix C: Solubility Product Constants for Solution at or near Room TemperatureAppendix D: Freundlich Adsorption Isotherm Constants for Toxic Organic CompoundsPart 2: Solid Waste CalculationsChapter 2.1: Thermodynamics Used in Environmental EngineeringChapter 2.2: Basic Combustion and IncinerationChapter 2.3: Practical Design of Waste IncinerationChapter 2.4: Calculations for Permitting and ComplianceChapter 2.5: Calculational Procedures for Ash Stabilization and SolidificationChapter 2.6: Incineration Technologies and Facility RequirementsPart 3: Air Pollution Control CalculationsChapter 3.1: Air Emission ControlChapter 3.2: Particulate Emission ControlChapter 3.3: Wet and Dry Scrubbers for Emission ControlPart 4Chapter 4.1: Air Toxic Risk AssessmentPart 5Chapter 5.1: Fundamentals of Fuel Cell TechnologiesINDEX
Chapter 1.4: GroundwaterChapter 1.5: Fundamental and Treatment Plant HydraulicsChapter 1.6: Public Water SupplyChapter 1.7: Wastewater EngineeringAppendix A: Illinois Environmental Protection Agency's Macroinvertebrate Tolerance ListAppendix B: Well Function for Confined AquifersAppendix C: Solubility Product Constants for Solution at or near Room TemperatureAppendix D: Freundlich Adsorption Isotherm Constants for Toxic Organic CompoundsPart 2: Solid Waste CalculationsChapter 2.1: Thermodynamics Used in Environmental EngineeringChapter 2.2: Basic Combustion and IncinerationChapter 2.3: Practical Design of Waste IncinerationChapter 2.4: Calculations for Permitting and ComplianceChapter 2.5: Calculational Procedures for Ash Stabilization and SolidificationChapter 2.6: Incineration Technologies and Facility RequirementsPart 3: Air Pollution Control CalculationsChapter 3.1: Air Emission ControlChapter 3.2: Particulate Emission ControlChapter 3.3: Wet and Dry Scrubbers for Emission ControlPart 4Chapter 4.1: Air Toxic Risk AssessmentPart 5Chapter 5.1: Fundamentals of Fuel Cell TechnologiesINDEX
Chapter 1.6: Public Water SupplyChapter 1.7: Wastewater EngineeringAppendix A: Illinois Environmental Protection Agency's Macroinvertebrate Tolerance ListAppendix B: Well Function for Confined AquifersAppendix C: Solubility Product Constants for Solution at or near Room TemperatureAppendix D: Freundlich Adsorption Isotherm Constants for Toxic Organic CompoundsPart 2: Solid Waste CalculationsChapter 2.1: Thermodynamics Used in Environmental EngineeringChapter 2.2: Basic Combustion and IncinerationChapter 2.3: Practical Design of Waste IncinerationChapter 2.4: Calculations for Permitting and ComplianceChapter 2.5: Calculational Procedures for Ash Stabilization and SolidificationChapter 2.6: Incineration Technologies and Facility RequirementsPart 3: Air Pollution Control CalculationsChapter 3.1: Air Emission ControlChapter 3.2: Particulate Emission ControlChapter 3.3: Wet and Dry Scrubbers for Emission ControlPart 4Chapter 4.1: Air Toxic Risk AssessmentPart 5Chapter 5.1: Fundamentals of Fuel Cell TechnologiesINDEX
Appendix A: Illinois Environmental Protection Agency's Macroinvertebrate Tolerance ListAppendix B: Well Function for Confined AquifersAppendix C: Solubility Product Constants for Solution at or near Room TemperatureAppendix D: Freundlich Adsorption Isotherm Constants for Toxic Organic CompoundsPart 2: Solid Waste CalculationsChapter 2.1: Thermodynamics Used in Environmental EngineeringChapter 2.2: Basic Combustion and IncinerationChapter 2.3: Practical Design of Waste IncinerationChapter 2.4: Calculations for Permitting and ComplianceChapter 2.5: Calculational Procedures for Ash Stabilization and SolidificationChapter 2.6: Incineration Technologies and Facility RequirementsPart 3: Air Pollution Control CalculationsChapter 3.1: Air Emission ControlChapter 3.2: Particulate Emission ControlChapter 3.3: Wet and Dry Scrubbers for Emission ControlPart 4Chapter 4.1: Air Toxic Risk AssessmentPart 5Chapter 5.1: Fundamentals of Fuel Cell TechnologiesINDEX
Appendix C: Solubility Product Constants for Solution at or near Room TemperatureAppendix D: Freundlich Adsorption Isotherm Constants for Toxic Organic CompoundsPart 2: Solid Waste CalculationsChapter 2.1: Thermodynamics Used in Environmental EngineeringChapter 2.2: Basic Combustion and IncinerationChapter 2.3: Practical Design of Waste IncinerationChapter 2.4: Calculations for Permitting and ComplianceChapter 2.5: Calculational Procedures for Ash Stabilization and SolidificationChapter 2.6: Incineration Technologies and Facility RequirementsPart 3: Air Pollution Control CalculationsChapter 3.1: Air Emission ControlChapter 3.2: Particulate Emission ControlChapter 3.3: Wet and Dry Scrubbers for Emission ControlPart 4Chapter 4.1: Air Toxic Risk AssessmentPart 5Chapter 5.1: Fundamentals of Fuel Cell TechnologiesINDEX
Part 2: Solid Waste CalculationsChapter 2.1: Thermodynamics Used in Environmental EngineeringChapter 2.2: Basic Combustion and IncinerationChapter 2.3: Practical Design of Waste IncinerationChapter 2.4: Calculations for Permitting and ComplianceChapter 2.5: Calculational Procedures for Ash Stabilization and SolidificationChapter 2.6: Incineration Technologies and Facility RequirementsPart 3: Air Pollution Control CalculationsChapter 3.1: Air Emission ControlChapter 3.2: Particulate Emission ControlChapter 3.3: Wet and Dry Scrubbers for Emission ControlPart 4Chapter 4.1: Air Toxic Risk AssessmentPart 5Chapter 5.1: Fundamentals of Fuel Cell TechnologiesINDEX
Chapter 2.2: Basic Combustion and IncinerationChapter 2.3: Practical Design of Waste IncinerationChapter 2.4: Calculations for Permitting and ComplianceChapter 2.5: Calculational Procedures for Ash Stabilization and SolidificationChapter 2.6: Incineration Technologies and Facility RequirementsPart 3: Air Pollution Control CalculationsChapter 3.1: Air Emission ControlChapter 3.2: Particulate Emission ControlChapter 3.3: Wet and Dry Scrubbers for Emission ControlPart 4Chapter 4.1: Air Toxic Risk AssessmentPart 5Chapter 5.1: Fundamentals of Fuel Cell TechnologiesINDEX
Chapter 2.4: Calculations for Permitting and ComplianceChapter 2.5: Calculational Procedures for Ash Stabilization and SolidificationChapter 2.6: Incineration Technologies and Facility RequirementsPart 3: Air Pollution Control CalculationsChapter 3.1: Air Emission ControlChapter 3.2: Particulate Emission ControlChapter 3.3: Wet and Dry Scrubbers for Emission ControlPart 4Chapter 4.1: Air Toxic Risk AssessmentPart 5Chapter 5.1: Fundamentals of Fuel Cell TechnologiesINDEX
Chapter 2.6: Incineration Technologies and Facility RequirementsPart 3: Air Pollution Control CalculationsChapter 3.1: Air Emission ControlChapter 3.2: Particulate Emission ControlChapter 3.3: Wet and Dry Scrubbers for Emission ControlPart 4Chapter 4.1: Air Toxic Risk AssessmentPart 5Chapter 5.1: Fundamentals of Fuel Cell TechnologiesINDEX
Chapter 3.1: Air Emission ControlChapter 3.2: Particulate Emission ControlChapter 3.3: Wet and Dry Scrubbers for Emission ControlPart 4Chapter 4.1: Air Toxic Risk AssessmentPart 5Chapter 5.1: Fundamentals of Fuel Cell TechnologiesINDEX
Chapter 3.3: Wet and Dry Scrubbers for Emission ControlPart 4Chapter 4.1: Air Toxic Risk AssessmentPart 5Chapter 5.1: Fundamentals of Fuel Cell TechnologiesINDEX
Chapter 4.1: Air Toxic Risk AssessmentPart 5Chapter 5.1: Fundamentals of Fuel Cell TechnologiesINDEX
Chapter 5.1: Fundamentals of Fuel Cell TechnologiesINDEX
Take Advantage of the Latest Calculation Methods for Solving Problems in Every Major Area of Environmental Engineering
The only hands-on reference of its kind, the Handbook of Environmental Engineering Calculations equips you with step-by-step calculation procedures covering virtually every aspect of environmental engineering. Designed to give you quick access to essential information, the updated Second Edition of this unique guide now presents the latest methods for solving a wide range of specific problems, together with worked-out examples that include numerical results for the calculations.
Written by a team of environmental experts from both the private and public sectors, this easy-to-use reference provides you with complete calculations for water quality assessment and control…solid waste materials … and air pollution control. Filled with 200 helpful illustrations, the Second Edition features:
- Hundreds of detailed examples and calculations with fully illustrated steps
- Calculations covering every aspect of environmental engineering
- Both SI and U.S. customary units presented throughout
- New to this edition: new sections on fuel cells and air toxic risk assessment
Inside This State-of-the-Art Environmental Engineering Toolkit
• Calculations of Water Quality Assessment and Control • Solid Waste Calculations • Air Pollution Control Calculations • Air Toxic Risk Assessment • Fuel Cell Technologies