Principles of environmental engineering and science
(Book)

Machine generated contents note: 1.Introduction

1-1.What Is Environmental Science?

Natural Science

Environmental Science

Quantitative Environmental Science

1-2.What Is Environmental Engineering?

Engineering

Environmental Engineering

1-3.Historical Perspective

Overview

Hydrology

Water Treatment

Wastewater Treatment

Air Pollution Control

Solid and Hazardous Waste

1-4.How Environmental Engineers And Environmental Scientists Work Together

1-5.Introduction To Principles Of Environmental Engineering And Science

Where Do We Start?

A Short Outline of This Book

1-6.Environmental Systems

Overview

Systems

Water Resource Management System

Air Resource Management System

Solid Waste Management System

Multimedia Systems

Sustainability

1-7.Environmental Legislation And Regulation

Acts, Laws, and Regulations

1-8.Environmental Ethics

Case 1 To Add or Not to Add

Case 2 You Can't Do Everything At Once

Chapter Review

Problems

Discussion Questions

References

2.Chemistry

Case Study: To MTBE or Not to MTBE?

2-1.Introduction

2-2.Basic Chemical Concepts

Atoms, Elements, and the Periodic Table

Chemical Bonds and Intermolecular Forces

The Mole, Molar Units, and Activity Units

Chemical Reactions and Stoichiometry

Chemical Equilibrium

Reaction Kinetics

2-3.Organic Chemistry

Alkanes, Alkenes, and Alkynes

Aryl (Aromatic) Compounds

Functional Groups and Classes of Compounds

2-4.Water Chemistry

Physical Properties of Water

States of Solution Impurities

Concentration Units in Aqueous Solutions or Suspensions

Buffers

2-5.Soil Chemistry

2-6.Atmospheric Chemistry

Fundamentals of Gases

Chapter Review

Problems

Discussion Questions

References

3.Biology

Case Study: Poison Water?

3-1.Introduction

3-2.Chemical Composition Of Life

Carbohydrates

Nucleic Acids

Proteins

Lipids

3-3.The Cell

Prokaryotes and Eukaryotes

Cell Membrane

Cell Organelles of Eukaryotes

Cell Organelles of Plant Cells

Cell Organelles of Prokaryotes

3-4.Energy And Metabolism

Cells, Matter, and Energy

3-5.Cellular Reproduction

The Cell Cycle

Asexual Reproduction

Sexual Reproduction

3-6.Diversity Of Living Things

3-7.Bacteria And Archaea

Archaea

Bacteria

3-8.Protists

Protozoa

Algae

Slime Molds and Water Molds

3-9.Fungi

Chytridiomycota

Zygomycota

Ascomycota

Basidiomycota

Deuteromyceta

3-10.Viruses

3-11.Microbial Disease

3-12.Microbial Transformations

Chapter Review

Problems

Discussion Questions

References

4.Materials and Energy Balances

4-1.Introduction

4-2.Unifying Theories

Conservation of Matter

Conservation of Energy

Conservation of Matter and Energy

4-3.Materials Balances

Fundamentals

Time as a Factor

More Complex Systems

Efficiency

The State of Mixing

Including Reactions and Loss Processes

Reactors

Reactor Analysis

4-4.Energy Balances

First Law of Thermodynamics

Fundamentals

Second Law of Thermodynamics

Chapter Review

Problems

Discussion Questions

References

5.Ecosystems

Case Study: DDT'Curse or Blessing?

5-1.Introduction

Ecosystems

5-2.Human Influences On Ecosystems

5-3.Energy And Mass Flow

Bioaccumulation

5-4.Nutrient Cycles

Carbon Cycle

Nitrogen Cycle

Phosphorus Cycle

Sulfur Cycle

5-5.Population Dynamics

Bacterial Population Growth

Animal Population Dynamics

Human Population Dynamics

5-6.Lakes: An Example Of Mass And Energy Cycling In An Ecosystem

Stratification and Turnover in Deep Lakes

Biological Zones

Lake Productivity

Eutrophication

5-7.Environmental Laws To Protect Ecosystems

Chapter Review

Problems

Discussion Questions

References

6.Risk Perception, Assessment, and Management

Case Study: No Swimming!

6-1.Introduction

6-2.Risk Perception

6-3.Risk Assessment

Data Collection and Evaluation

Toxicity Assessment

Exposure Assessment

Risk Characterization

6-4.Risk Management

Chapter Review

Problems

Discussion Questions

References

7.Hydrology

Case Study: The Dying of a Sea

7-1.Fundamentals Of Hydrology

The Hydrological Cycle

7-2.Measurement Of Precipitation, Evaporation, Infiltration, And Streamflow

Precipitation

Evaporation

Infiltration

Streamflow

7-3.Groundwater Hydrology

Aquifers

7-4.Groundwater Flow

7-5.Well Hydraulics

Definition of Terms

Cone of Depression

7-6.Surface Water And Groundwater

As A Water Supply

7-7.Depletion Of Groundwater And Surface Water

Water Rights

Water Use

Land Subsidence

7-8.Stormwater Management

Low Impact Development

Wet Weather Green Infrastructure

Chapter Review

Problems

Discussion Questions

References

8.Sustainability

Case Study: A New Precious Metal

Copper!

8-1.Introduction

Sustainability

The People Problem

There Are No Living Dinosaurs

Go Green

8-2.Water Resources

Water, Water, Everywhere

Frequency from Probability Analysis

Floods

Droughts

8-3.Energy Resources

Fossil Fuel Reserves

Nuclear Energy Resources

Environmental Impacts

Sustainable Energy Sources

Green Engineering and Energy Conservation

8-4.Mineral Resources

Reserves

Environmental Impacts

Resource Conservation

8-5.Soil Resources

Energy Storage

Plant Production

8-6.Parameters Of Soil Sustainability

Nutrient Cycling

Soil Acidity

Soil Salinity

Texture and Structure

8-7.Soil Conservation

Soil Management

Soil Erosion

Chapter Review

Problems

Discussion Questions

References

9.Water Quality Management

Case Study: There She Blows!

9-1.Introduction

9-2.Water Pollutants And Their Sources

Point Sources

Nonpoint Sources

Oxygen-Demanding Material

Nutrients

Pathogenic Organisms

Suspended Solids

Salts

Pesticides

Pharmaceuticals and Personal Care Products

Endocrine-Disrupting Chemicals

Other Organic Chemicals

Arsenic

Toxic Metals

Heat

Nanoparticles

9-3.Water Quality Management In Rivers

Effect of Oxygen-Demanding Wastes on Rivers

Biochemical Oxygen Demand

Laboratory Measurement of Biochemical Oxygen Demand

Additional Notes on Biochemical Oxygen Demand

Nitrogen Oxidation

DO Sag Curve

Effect of Nutrients on Water Quality in Rivers

9-4.Water Quality Management In Lakes

Control of Phosphorus in Lakes

Acidification of Lakes

9-5.Water Quality In Estuaries

9-6.Water Quality In Oceans

9-7.Groundwater Quality

Contaminant Migration in Groundwaters

9-8.Source Water Protection

Chapter Review

Problems

Discussion Questions

References

10.Water Treatment

Case Study: Walkerton

The Town Where Kids Died from E. coli

10-1.Introduction

Water Quality

Physical Characteristics

Chemical Characteristics

Microbiological Characteristics

Radiological Characteristics

U.S.

Water Quality Standards -- Water Classification and Treatment Systems -- 10-2.Rapid Mixing, Flocculation, And Coagulation -- Colloid Stability and Destabilization -- The Physics of Coagulation -- Coagulants -- Mixing and Flocculation -- 10-3.Softening -- Hardness -- Lime -- Soda Softening -- Ion-Exchange Softening -- 10-4.Sedimentation -- Overview -- Determination of Settling Velocity (vs) -- Determination of Overflow Rate (vo) -- 10-5.Filtration -- 10-6.Disinfection -- Disinfection Kinetics -- Disinfectants and Disinfection By-Products -- Chlorine Reactions in Water -- Chloramines -- Chlorine Dioxide -- Ozonation -- Ultraviolet Radiation -- 10-7.Other Treatment Processes For Drinking Water -- Membrane Processes -- Advanced Oxidation Processes (AOPs) -- Carbon Adsorption -- Aeration -- 10-8.Water Plant Residuals Management -- Mass-Balance Analysis -- Sludge Treatment -- Ultimate Disposal -- Chapter Review -- Problems -- Discussion Questions -- References -- 11.Wastewater Treatment -- Case Study: Cuyahoga River Burning -- 11-1.Introduction -- Wastewater Treatment Perspective -- 11-2.Characteristics Of Domestic Wastewater -- Physical Characteristics -- Chemical Characteristics -- Characteristics of Industrial Wastewater -- 11-3.Wastewater Treatment Standards -- Pretreatment of Industrial Wastes -- 11-4.On-Site Disposal Systems -- 11-5.Municipal Wastewater Treatment Systems -- 1-6.Unit Operations Of Pretreatment -- Bar Racks -- Grit Chambers -- Macerators -- Equalization -- 11-7.Primary Treatment -- 11-8.Unit Processes Of Secondary Treatment -- Overview -- Role of Microorganisms -- Population Dynamics -- Activated Sludge -- Trickling Filters -- Oxidation Ponds -- Rotating Biological Contactors -- Integrated Fixed-Film Activated Sludge (IFAS) -- Moving Bed Biofilm Reactor (MBBR) -- 11-9.Disinfection -- 11-10.Tertiary Wastewater Treatment -- Filtration -- Carbon Adsorption -- Chemical Phosphorus Removal -- Biological Phosphorus Removal -- Nitrogen Control -- 11-11.Land Treatment For Sustainability -- Slow Rate -- Overland Flow -- Rapid Infiltration -- Potential Adverse Affects -- 11-12.Sludge Treatment -- Sources and Characteristics of Various Sludges -- Solids Computations -- Sludge Treatment Processes -- 11-13.Sludge Disposal -- Ultimate Disposal -- Land Spreading -- Landfilling -- Dedicated Land Disposal (DLD) -- Utilization -- Sludge Disposal Regulations -- Chapter Review -- Problems -- Discussion Questions -- References -- 12.Air Pollution -- Case Study: The Fog -- 12-1.Introduction -- Air Pollution Perspective -- 12-2.Fundamentals -- Pressure Relationships and Units of Measure -- Relativity -- Adiabatic Expansion and Compression -- 12-3.Air Pollution Standards -- 12-4.Effects Of Air Pollutants -- Effects on Materials -- Effects on Vegetation -- Effects on Health -- 12-5.Origin And Fate Of Air Pollutants -- Carbon Monoxide --

Note continued: Hazardous Air Pollutants (HAPs)

Lead

Nitrogen Dioxide

Photochemical Oxidants

Sulfur Oxides

Particulates

12-6.Micro And Macro Air Pollution

Indoor Air Pollution

Acid Rain

Ozone Depletion

Global Warming

12-7.Air Pollution Meteorology

The Atmospheric Engine

Turbulence

Stability

Terrain Effects

12-8.Atmospheric Dispersion

Factors Affecting Dispersion of Air Pollutants

Dispersion Modeling

12-9.Indoor Air Quality Model

12-10.Air Pollution Control Of Stationary Sources

Gaseous Pollutants

Flue Gas Desulfurization

Control Technologies for Nitrogen Oxides

Particulate Pollutants

Control Technologies for Mercury

12-11.Air Pollution Control Of Mobile Sources

Engine Fundamentals

Control of Automobile Emissions

12-12.Waste Minimization For Sustainability

Chapter Review

Problems

Discussion Questions

References

13.Solid Waste Engineering

Case Study: Too Much Waste, Too Little Space

13-1.Introduction

Magnitude of the Problem

13-2.Characteristics Of Solid Waste

13-3.Solid Waste Management

13-4.Solid Waste Collection

13-5.Waste As Resource

Background and Perspective

Green Chemistry and Green Engineering

Recycling

Composting

Source Reduction

13-6.Solid Waste Reduction

Combustion Processes

Types of Incinerators

Public Health and Environmental Issues

Other Thermal Treatment Processes

13-7.Disposal By Sanitary Landfill

Site Selection

Operation

Environmental Considerations

Leachate

Methane and Other Gas Production

Landfill Design

Landfill Closure

Chapter Review

Problems

Discussion Questions

References

14.Hazardous Waste

Management

Case Study: Not a Good Time at the Beach

14-1.Introduction

Dioxins and PCBs

14-2.Epa's Hazardous Waste Designation System

14-3.Rcra And Hswa

Congressional Actions on Hazardous Waste

Cradle-to-Grave Concept

Generator Requirements

Transporter Regulations

Treatment, Storage, and Disposal Requirements

Underground Storage Tanks

14-4.Cercla And Sara

The Superfund Law

The National Priority List

The Hazard Ranking System

The National Contingency Plan

Liability

Superfund Amendments and Reauthorization Act

14-5.Hazardous Waste Management

Waste Minimization

Waste Exchange

Recycling

14-6.Treatment Technologies

Biological Treatment

Chemical Treatment

Physical/Chemical Treatment

Incineration

Stabilization-Solidification

14-7.Land Disposal

Deep Well Injection

Land Treatment

The Secure Landfill

14-8.Groundwater Contamination

And Remediation

The Process of Contamination

EPA's Groundwater Remediation Procedure

Mitigation and Treatment

Chapter Review

Problems

Discussion Questions

References

15.Noise Pollution

15-1.Introduction

Properties of Sound Waves

Sound Power and Intensity

Levels and the Decibel

Characterization of Noise

15-2.Effects Of Noise On People

The Hearing Mechanism

Normal Hearing

Hearing Impairment

Damage-Risk Criteria

Speech Interference

Annoyance

Sleep Interference

Effects on Performance

Acoustic Privacy

15-3.Rating Systems

Goals of a Noise-Rating System

The Ln Concept

The Leq Concept

The Ldn Concept

15-4.Community Noise Sources And Criteria

Transportation Noise

Other Internal Combustion Engines

Construction Noise

Zoning and Siting Considerations

Levels to Protect Health and Welfare

15-5.Transmission Of Sound Outdoors

Inverse Square Law

Radiation Fields of a Sound Source

Directivity

Airborne Transmission

15-6.Traffic Noise Prediction

Leq Prediction

Ldn Prediction

15-7.Noise Control

Source-Path-Receiver Concept

Control of Noise Source by Design

Noise Control in the Transmission Path

Control of Noise Source by Redress

Protect the Receiver

Chapter Review

Problems

Discussion Questions

References

16.Ionizing Radiation

16-1.Fundamentals

Atomic Structure

Radioactivity and Radiation

Radioactive Decay

Radioisotopes

Fission

The Production of X-Rays

Radiation Dose

16-2.Biological Effects Of Ionizing Radiation

Sequential Pattern of Biological Effects

Determinants of Biological Effects

Acute Effects

Relation of Dose to Type of Acute Radiation Syndrome

Delayed Effects

Genetic Effects

16-3.Radiation Standards

16-4.Radiation Exposure

External and Internal Radiation Hazards

Natural Background

X-Rays

Radionuclides

Nuclear Reactor Operations

Radioactive Wastes

16-5.Radiation Protection

Reduction of External Radiation Hazards

Reduction of Internal Radiation Hazards

16-6.Radioactive Waste

Types of Waste

Management of High-Level Radioactive Waste

Waste Isolation Pilot Plant

Management of Low-Level Radioactive Waste

Long-Term Management and Containment

Chapter Review

Problems

Discussion Questions

References.