Environmental chemistry: fundamentals
Gespeichert in:
| Format: | Buch |
|---|---|
| Sprache: | English |
| Veröffentlicht: |
New York, NY
Springer
2007
|
| Schlagworte: | |
| Online-Zugang: | Inhaltstext Inhaltsverzeichnis |
| Beschreibung: | XVIII, 334 S. |
| ISBN: | 9780387314358 9780387260617 |
Internformat
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| 245 | 1 | 0 | |a Environmental chemistry |b fundamentals |c Jorge G. Ibanez ... |
| 264 | 1 | |a New York, NY |b Springer |c 2007 | |
| 300 | |a XVIII, 334 S. | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
| 338 | |b nc |2 rdacarrier | ||
| 650 | 4 | |a Environmental chemistry | |
| 650 | 0 | 7 | |a Ökologische Chemie |0 (DE-588)4135167-8 |2 gnd |9 rswk-swf |
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| 700 | 1 | |a Ibanez, Jorge G. |e Sonstige |4 oth | |
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| 856 | 4 | 2 | |m Digitalisierung UB Bayreuth |q application/pdf |u http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016306450&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |3 Inhaltsverzeichnis |
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Datensatz im Suchindex
| _version_ | 1804137363160432640 |
|---|---|
| adam_text | Contents
Foreword
..............................................................................................................
v
Preface
.................................................................................................................
vii
Part
1
Introductory Concepts
1
Introduction to Environmental Chemistry
............................................................... 3
1.1
Chemistry of the Natural Processes in the Biosphere
.............................................. 3
1.2
Chemistry Associated with Pollution Processes
..................................................... 4
1.3
Chemistry Applied to the Analysis of Pollutants and Natural Compounds
.................... 6
1.4
Chemistry Applied to the Treatment and Remediation of Pollution
............................. 8
1.5
Green Chemistry
.......................................................................................... 8
1.6
Importance of Environmental Chemistry
............................................................. 9
References and Further Reading
....................................................................... 10
2
Chemistry Fundamentals, Part A
.......................................................................... 11
2.1
Chemical Equilibria
...................................................................................... 11
2.1.1
Equilibrium Values and Calculations
........................................................ 12
2.1.2
Exchange Reaction Equilibria: Systems of the Type
МЦ/МЦ.,/
· · ·
ML/M
...... 12
2.2
Acid-Base Reactions
..................................................................................... 15
2.2.1
Acid-Base Characteristics of Common Chemical Species
.............................. 15
2.2.2
Buffers
............................................................................................. 16
2.2.3
Acid/Base Character of Oxides
............................................................... 21
2.3
Redox
Processes
.......................................................................................... 23
2.3.1
Latimer Diagrams
............................................................................... 25
2.3.2
Frost Diagrams
................................................................................... 27
2.3.3
Nernst Equation
.................................................................................. 27
2.3.4
Pourbaix Diagrams
.............................................................................. 28
2.3.5
The p£ Scale
..................................................................................... 33
References and Further Reading
....................................................................... 41
3
Chemistry Fundamentals, Part
В
.......................................................................... 43
3.1
Complexes and Complex Formation
.................................................................. 43
3.1.1
Definition and Generalities
.................................................................... 43
Contents
3.1.2
Modification
of Properties of Metal Ions
.................................................... 43
3.1.3
Geometry of Metal Complexes
............................................................... 46
3.1.4
Inner and Outer Sphere Complexes
.......................................................... 47
3.1.5
Mono and Polydentate Ligands. The HSAB Approach
.................................. 48
3.1.6
The Chelate Effect
............................................................................... 48
3.1.7
Reactions of Complexes
........................................................................ 50
3.1.7.1
Ligand-Exchange Reactions
....................................................... 50
3.1.7.2
Electron-Exchange Reactions
..................................................... 50
3.2
Chemical Kinetics
........................................................................................ 51
3.2.1
Factors That Influence the Rate of a Mono Directional Reaction
...................... 52
3.2.1.1
Dependence of the Rate of Reaction on Concentrations: The Rate Law
.. 53
3.2.1.2
The Rate Constant
................................................................... 54
3.2.2
Integrated Rate Equations
...................................................................... 54
3.2.2.1
Zeroth-Order Reactions
............................................................. 54
3.2.2.2
First-Order Reactions
............................................................... 54
3.2.2.3
Second-Order Reactions
............................................................ 55
3.2.2.4
Higher-Order Reactions
............................................................ 55
3.2.3
Complex Reactions
.............................................................................. 55
3.2.3.1
Consecutive Reactions
.............................................................. 56
3.2.3.2
Opposing (Reversible) Reactions
................................................. 56
3.2.3.3
Parallel Reactions
.................................................................... 57
3.2.4
The Steady-State Approximation
............................................................. 57
3.2.5
Catalysis
........................................................................................... 57
3.2.6
Kinetics of Metal-Complex Dissociation
................................................... 58
3.3
Photochemical Processes
................................................................................ 59
3.3.1
Photochemical Processes After the Absorption of Light
................................. 59
3.3.2
BeeťsLaw
........................................................................................ 60
3.3.3
Homogeneous and Heterogeneous Processes
.............................................. 61
3.4
Radiochemistry
............................................................................................ 61
3.4.1
Decay Kinetics
................................................................................... 62
3.4.2
Units of Radiation
............................................................................... 63
3.4.3
Detection Devices for Ionizing Radiations and Protection From Radiation
.......... 64
3.4.3.1 Geiger
Counter or Ionization in Gas-Filled Tubes
............................. 64
3.4.3.2
Scintillation Device
.................................................................. 64
3.4.3.3
Photographic Films
.................................................................. 64
3.4.3.4
Semiconductors
...................................................................... 64
3.4.3.5
Thermoluminescence
................................................................ 64
References and Further Reading
....................................................................... 64
Part
2
The Chemistry of Natural Environmental Processes
4
The Chemistry of Processes in the Atmosphere
........................................................ 69
4.1
Air
........................................................................................................... 69
4.2
How Did the Earth s Atmosphere Form?
............................................................. 70
4.3
Amounts of Constituents in the Atmosphere
........................................................ 71
4.4
Tropospheric Chemistry
................................................................................. 73
4.5
Physical Principles of the Greenhouse Effect
........................................................ 74
4.6
Stratospheric Chemistry
................................................................................. 75
4.7
Aerosols
.................................................................................................... 76
Related Experiments in the Companion Book
....................................................... 76
Contents
Additional Related Experiments/Activities
.......................................................... 76
References and Further Reading
....................................................................... 77
The Chemistry of Processes in the
Lithosphère
......................................................... 78
5.1
The
Lithosphère
and its Components
................................................................. 78
5.1.1
Structure of the Solid Earth
.................................................................... 78
5.1.1.1
Core
.................................................................................... 78
5.1.1.2
Mantle
.................................................................................. 78
5.1.1.3
Crust
.................................................................................... 78
5.1.2
Classification of Rocks
......................................................................... 79
5.1.2.1
Igneous Rocks
........................................................................ 79
5.1.2.2
Sedimentary Rocks
.................................................................. 79
5.1.2.3
Metamorphic Rocks
................................................................. 80
5.1.2.4
Rock-Forming Minerals
............................................................ 80
5.2
Formation and Differentiation of Minerals and Ores
............................................... 80
5.3
Weathering
................................................................................................. 81
5.3.1
Physical Weathering
............................................................................ 81
5.3.2
Chemical Weathering
........................................................................... 82
5.3.2.1
Dissolution and Precipitation of Solids
.......................................... 85
5.3.2.2
Dissolution of Natural Oxides
..................................................... 89
5.3.2.3
Stable and Metastable Solid Phases
.............................................. 90
5.3.3
Biological Weathering
.......................................................................... 92
5.4
Soil Characteristics
....................................................................................... 92
5.4.1
Soil Taxonomy
................................................................................... 93
5.4.2
Humic Substances
(HS)........................................................................ 93
5.4.3
Decomposition of Organic Materials Adsorbed on Soil
.................................. 93
Related Experiments in the Companion Book
....................................................... 93
Additional Related Experiments/Activities
.......................................................... 94
References and Further Reading
....................................................................... 94
6
The Chemistry of Processes in the Hydrosphere
....................................................... 96
6.1
Natural Waters: Types and Composition
.............................................................. 96
6.1.1
Processes That Affect Water Composition
.................................................. 96
6.1.2
Rainwater
......................................................................................... 98
6.1.3
Surface Water
.................................................................................... 99
6.1.3.1
Stream and River Water
............................................................. 101
6.1.3.2
Lake Water
............................................................................ 103
6.1.4
Groundwater
......................................................................................
1
05
6.1.5
Seawater
........................................................................................... 106
6.1.6
Brackish/Saline Water
.......................................................................... 107
6.2
Interactions of Water with Air and Sediments; Effects on
10
10
10
Aquatic Chemistry
....................................................
6.2.1
Gas Dissolution and Acidification of Natural Waters.
6.2.1.1
Henry s Law
......................
6.2.1.2
Dissolved Oxygen in Water....
6.2.1.3
Dissolution of CO2 in Water...
6.2.2
Interactions between Water and Sediments/Soil
.
6.3
Physicochemical Processes in Aquatic Systems
..........
6.3.1
Chemical Processes in Aquatic Systems
6.3.1.1
Acid-Base Reactions.
13
14
15
15
16
Contents
6.3.1.2
Redox
Reactions
..................................................................... 119
6.3.1.3
Complex Formation
................................................................. 122
6.3.1.4
Speciation
............................................................................. 122
6.3.1.5
Colloids: Properties, Types, Sources, and Formation
......................... 124
6.3.1.6
Photochemical Reactions
........................................................... 126
6.3.2
Natural Removal of Species from Aqueous Systems by Chemical
and Physical Processes
......................................................................... 128
6.3.2.1 Sorption
onto Colloidal, Suspended, or Settled Sediments
.................. 128
6.3.2.2
Ion Exchange in Sediments and in Aqueous Colloidal
and Suspended Matter
.............................................................. 129
6.3.2.3
Precipitation Reactions and Co-precipitation
................................... 131
6.3.2.4
Solidification and Deposition Processes Due to
Evaporation
........................................................................... 131
6.3.2.5
Colloidal and Sediment Transport into Surface Water
........................ 131
6.3.2.6
Volatilization of Organic and Inorganic Compounds
.......................... 132
Related Experiments in the Companion Book
....................................................... 132
Additional Related Experiments/Activities
.......................................................... 135
References and Further Reading
....................................................................... 135
Natural Biochemical Processes and Organisms in the Biosphere
.................................. 137
7.1
Classification of Living Organisms
.................................................................... 137
7.2
Nutritional Classification of Organisms
.............................................................. 140
7.3
Basic Aspects of Ecology
............................................................................... 142
7.3.1
The Habitats of Life: Air, Land, and Water
................................................. 143
7.3.1.1
Atmosphere
........................................................................... 143
7.3.1.2
Land
.................................................................................... 143
7.3.1.3
Water
................................................................................... 144
7.3.2
Trophic Levels
................................................................................... 145
7.3.3
Non-feeding Relations Among Species
..................................................... 146
7.3.4
Sustainability of Ecosystems
.................................................................. 147
7.4
Biogeochemical Cycles
.................................................................................. 148
7.4.1
Water Cycle
....................................................................................... 148
7.4.2
Hydrogen Cycle
.................................................................................. 148
7.4.3
Carbon Cycle
..................................................................................... 149
7.4.4
Oxygen Cycle
.................................................................................... 150
7.4.5
Nitrogen Cycle
................................................................................... 152
7.4.5.1
Fixation
................................................................................ 152
7.4.5.2
Ammonification
...................................................................... 153
7.4.5.3
Nitrification
........................................................................... 154
7.4.5.4
Nitrate Reduction and Denitrification
............................................ 154
7.4.6
Sulfur Cycle
...................................................................................... 155
7.4.6.1
Sulfur Mineralization
............................................................... 155
7.4.6.2
Oxidation of
Sulfide
and of Elemental Sulfur
.................................. 156
7.4.6.3
Dissimilatory
Sulfate
or Sulfur Reduction
...................................... 157
7.4.6.4
Assimilatory
Sulfate
Reduction or
Sulfur Immobilization
............................................................... 157
7.4.7
Phosphorus Cycle
............................................................................... 157
7.4.8
Iron Cycle
......................................................................................... 159
7.4.9
Interrelations Among Cycles
.................................................................. 160
Contents
Related
Experiments in
the
Companion
Book....................................................... 161
Additional Related Experiments/Activities
.......................................................... 162
References and Further Reading
....................................................................... 162
Part
3
Effects, Treatment and Prevention of Pollution
8
Effects of Pollutants on the Chemistry of the Atmosphere, Hydrosphere,
and
Lithosphère
................................................................................................. 167
8.1
Importance of the Manufacture and Use of Chemical Substances
............................... 167
8.2
Sources of Chemical Substances as Contaminants and Pollutants
............................... 167
8.3
Transport, Mobility, and Partition of Pollutants
..................................................... 169
8.4
Air, Water, and Soil Pollution and Their Effects
.................................................... 173
8.4.1
Effects of Pollutants on the Atmosphere
.................................................... 173
8.4.1.1
Main Air Pollutants
................................................................ 173
8.4.1.2
Combustion Processes as the Main Air Pollution Source
................... 175
8.4.1.3
The Greenhouse Effect
............................................................ 176
8.4.1.4
Smog Formation
.................................................................... 176
8.4.1.5
Stratospheric Ozone Destruction or the Ozone Hole
........................ 177
8.4.1.6
Acid Rain
............................................................................ 178
8.4.1.7
Indoor Pollution
.................................................................... 179
8.4.2
Effects of Pollutants on the Hydrosphere
................................................... 180
8.4.2.1
Oxygen-Demanding Materials
................................................... 180
8.4.2.2
Nutrients
............................................................................. 182
8.4.2.3
Pathogenic Organisms
............................................................. 183
8.4.2.4
Suspended Solids
................................................................... 183
8.4.2.5
Oil and Grease Spills
.............................................................. 184
8.4.2.6
Metallic and Metalloid Compounds
............................................ 185
8.4.2.7
Radionuclides
....................................................................... 185
8.4.2.8
Detergents (Surfactants) and Nutrient Enrichment
........................... 185
8.4.2.9
Salts
................................................................................... 186
8.4.2.10
Heat
................................................................................... 186
8.4.2.11
Other Contributions
................................................................ 187
8.4.2.12
Groundwater Pollution
............................................................ 187
8.4.2.13
Surface Waters
...................................................................... 187
8.4.3
Effects of Pollutants on the
Lithosphère
.................................................... 187
8.4.3.1
Transformation of Pollutants in Soils
........................................... 187
8.4.3.2
Transport, Mobility, and Partitioning of Pollutants in Soils
................ 188
8.4.3.3
Agriculture and the Chemistry of Soils
........................................ 188
8.4.3.4
Metals and Mining Processes
.................................................... 189
8.4.3.5
Other Wastes and Pollutants in Soil
............................................. 190
Related Experiments in the Companion Book
....................................................... 190
Additional Related Experiments/Activities
.......................................................... 191
References and Further Reading
....................................................................... 196
9
Effects of Pollutants on the Biosphere: Biodegradability,
Toxicity,
and Risks
.................. 198
9.1
Types of Pollutants According to Their Capacity to Undergo
Biotransformation
............ 198
9.1.1
Biodegradable Substances and
Biodegradation
Processes
............................... 198
9.1.2
Biotic Transformation Reactions
............................................................. 199
9.1.3
Recalcitrance and Recalcitrant Compounds
................................................ 204
xv¡
Contents
9.2
Hazardous and Non-hazardous Substances or Pollutants
.......................................... 207
9.2.1
Classification of Hazardous Substances
..................................................... 208
9.2.2
Toxicity
and Related Definitions
.............................................................. 208
9.2.3
Factors That Affect the
Toxicity
of Chemical Substances
............................... 208
9.3
Human Health Risk Assessment
....................................................................... 220
9.3.1
Hazard Identification
............................................................................ 221
9.3.2
Dose-Response Assessment
................................................................... 222
9.3.2.1
Non-carcinogenic Risk Assessment
............................................ 223
9.3.2.2
Cancer Risk Assessment
.......................................................... 224
9.3.3
Exposure Assessment
........................................................................... 226
9.3.4
Risk Characterization
........................................................................... 226
9.3.5
Risk Management
............................................................................... 227
9.4
Ecotoxicology
............................................................................................. 228
9.4.1
Methods of Ecotoxicology
..................................................................... 229
9.4.1.1
Toxic
Endpoints.................................................................... 230
9.4.1.2
Bioassays
............................................................................ 230
9.4.2
Ecotoxicity Determination
................................................................ 231
9.4.2.1
Short-Time
Toxicity
Tests
.................................................... 231
9.4.2.2
Long-Term
Toxicity
Tests
.................................................... 231
9.4.3
Bioconcentration,
Bioaccumulation,
and Biomagnification
........................ 232
9.4.4
Biomarkers
and Bioindicators
............................................................ 233
9.4.5
In Situ Monitoring
.......................................................................... 233
9.4.6
Ecological Risk Assessment
.............................................................. 234
9.4.6.1
Characterization of the Baseline Ecology and Identification
of Potential Receptor Populations
.......................................... 234
9.4.6.2
Ecological
Toxicity
Assessment
............................................ 234
9.4.6.3
Evaluation of Potential Exposures
.......................................... 234
9.4.6.4
Risk Characterization
......................................................... 234
9.4.7
Risk Assessment
............................................................................ 234
Related Experiments in the Companion Book
.................................................... 235
Additional Related Experiments/Activities
....................................................... 236
References and Further Reading
.................................................................... 236
10
Physicochemical
and Physical Treatment of Pollutants and Wastes
............................. 237
10.1
Physicochemical Processes
.......................................................................... 237
10.1.1
Redox
Processes
............................................................................ 237
10.1.1.1
Chemical Oxidation and Incineration
...................................... 238
10.1.1.2
Advanced Oxidation Processes (AOP)
.................................... 249
10.1.1.3
Chemical Reduction
........................................................... 253
10.1.2
Precipitation/Immobilization, Acid-Base/Hydrolysis, and
Ion-Exchange Processes
................................................................... 255
10.1.2.1
Chemical Precipitation/Metal Immobilization
........................... 255
10.1.2.2
Acid-Base/Hydrolysis Processes
........................................... 256
10.1.2.3
Ion Exchange
................................................................... 256
10.1.3
Complexation Processes
................................................................... 258
10.1.3.1
Gaseous Pollutants
............................................................ 258
10.1.3.2
Aqueous Pollutants
............................................................ 258
10.1.3.3
Soil Pollutants
.................................................................. 259
10.1.4
Electrochemical Processes
................................................................ 260
10.1.4.1
Direct and Indirect Processes
................................................ 260
Contents xvii
10.1.4.2 Electrochemical
Processes
Based
on
Ion Exchange............................................................... 261
10.1.4.3 Electrochemical
Treatment of
Gases....................................... 261
10.1.4.4
Electrokinetic Treatment of Soils
........................................... 262
10.1.4.5
Electrochemical Production of Water Disinfectants
..................... 263
10.1.4.6
Hybrid Processes that Involve an Electrochemical Step for the
Treatment of Aqueous Wastes
............................................... 263
10.1.5
Other Chemical Processes
................................................................. 264
10.1.5.1
Selective Dissolution in CO2
................................................ 264
10.1.5.2
Extraction with Other Liquefied Gases
.................................... 264
10.1.5.3
Extraction with Liquid Solvents (Liquid-Liquid Extraction)
......... 264
10.1.5.4
Catalytic Hydrodechlorination
.............................................. 264
10.2
Physical Processes
..................................................................................... 264
10.2.1
Adsorption Processes
...................................................................... 264
10.2.2
Incorporation of Pollutants into Solid Materials
...................................... 265
10.2.2.1
Clay Incorporation
............................................................ 265
10.2.2.2
Supersoaker Materials
........................................................ 265
10.2.2.3
Vitrification
..................................................................... 265
10.2.3
Radiation-Based Processes
................................................................ 265
10.2.3.1
Microwave Energy
............................................................ 265
10.2.3.2
Electron Beams
................................................................ 266
10.2.3.3
Ultrasound
...................................................................... 266
10.2.3.4
Photochemical Methods
...................................................... 266
10.2.4
Methods Based on Magnetic Fields
..................................................... 266
10.2.4.1
Magnetic Treatment
........................................................... 266
10.2.4.2
Magnetic Particles
............................................................. 266
10.2.5
Filtration Methods
.......................................................................... 267
10.2.6
Evaporation
.................................................................................. 268
10.2.7
Air/Steam Stripping
........................................................................ 268
10.3
Combined Treatments
................................................................................. 268
Related Experiments in the Companion Book
.................................................... 269
Additional Related Experiments/Activities
....................................................... 272
References and Further Reading
.................................................................... 272
11
Biological Treatment of Pollutants and Wastes
....................................................... 276
11.1
Removal of Pollutants from Wastewater
........................................................... 276
11.1.1
Preliminary Treatment
..................................................................... 276
11.1.2
Primary Treatment
.......................................................................... 276
11.1.3
Secondary Treatment
....................................................................... 277
11.1.3.1
Aerobic Processes
............................................................. 277
11.1.3.2
Anaerobic Treatment of Wastewater
....................................... 281
11.1.3.3
Biological Nutrient Removal
................................................ 283
11.1.4
Tertiary Treatment
.......................................................................... 287
11.1.5
Chemical and Physical Disinfection
..................................................... 288
11.2
Sludge Treatment Options
............................................................................ 288
11.2.1
Anaerobic Digestion of Sludge
........................................................... 289
11.2.2
Composting
.................................................................................. 289
11.2.3
Pasteurization and Drying
................................................................. 289
11.2.4
Lime Stabilization
.......................................................................... 289
11.3
Wastewater Reuse
...................................................................................... 290
xviii
Contents
11.4
Biological Treatment of Soil and Groundwater
.................................................. 290
11.4.1
In Situ Bioremediation
..................................................................... 291
11.4.2
Treatment of Excavated Soils
............................................................. 292
11.4.2.1
Composting
..................................................................... 292
11.4.2.2
Slurry Reactors
................................................................. 292
11.4.3
Treatment Strategies for Aquifers
........................................................ 292
11.4.3.1
Physical Containment
......................................................... 292
11.4.3.2
In Situ
Biorestoration
......................................................... 292
11.4.3.3
Above-Ground Bioreactors (Pump-and-Treat Technology)
........... 293
11.4.4
Marine
OU
Spills
............................................................................ 293
11.5
Biological Treatment of Volatile Compounds
.................................................... 294
Related Experiments in the Companion Book
.................................................... 295
Additional Related Experiments/Activities
....................................................... 295
References and Further Reading
.................................................................... 295
12
The Minimization and Prevention of Pollution; Green Chemistry
............................... 296
12.1
Industrial Ecology
..................................................................................... 296
12.2
Life-Cycle Assessment
............................................................................... 296
12.3
Green Chemistry
....................................................................................... 297
12.3.1
Prevent Waste Production
................................................................. 297
12.3.2
Design Effective, Non-toxic Products
................................................... 298
12.3.3
Design Good Syntheses
.................................................................... 298
12.3.4
Use Alternative Feedstock/Starting Materials
........................................ 299
12.3.5
Minimize Waste Using Catalytic Reactions
............................................ 302
12.3.6
Avoid Temporary Modifications
......................................................... 304
12.3.7
Maximize the Use of Starting Materials
................................................ 305
12.3.8
Minimize the Use of Auxiliary Chemicals
............................................. 307
12.3.8.1
Ionic Liquids
(Љѕ)
......................................................... 307
12.3.8.2
Fluorous Compounds and Solvents
..................................... 312
12.3.8.3
Supercritical Fluids
........................................................ 313
12.3.8.4
Solventless Reactions
...................................................... 314
12.3.8.5
Aqueous Systems
........................................................... 315
12.3.8.6
Biosolvents
.................................................................. 316
12.3.9
Energy Requirements
..................................................................... 316
12.3.9.1
Microwave Radiation
...................................................... 317
12.3.9.2
Green Photochemistry
..................................................... 317
12.3.10
Design Benign Products
.................................................................. 318
12.3.10.1
Synthetic Biodegradable Polymers
...................................... 318
12.3.10.2
Starch-Based Biodegradable Plastics
................................... 319
12.3.11
Optimize Monitoring and Control
...................................................... 319
12.3.12
Minimize the Potential for Accidents
.................................................. 320
Related Experiments in the Companion Book
.................................................... 320
Additional Related Experiments/Activities
....................................................... 320
References and Further Reading
.................................................................... 322
Index
.................................................................................................................... 325
|
| adam_txt |
Contents
Foreword
.
v
Preface
.
vii
Part
1
Introductory Concepts
1
Introduction to Environmental Chemistry
. 3
1.1
Chemistry of the Natural Processes in the Biosphere
. 3
1.2
Chemistry Associated with Pollution Processes
. 4
1.3
Chemistry Applied to the Analysis of Pollutants and Natural Compounds
. 6
1.4
Chemistry Applied to the Treatment and Remediation of Pollution
. 8
1.5
Green Chemistry
. 8
1.6
Importance of Environmental Chemistry
. 9
References and Further Reading
. 10
2
Chemistry Fundamentals, Part A
. 11
2.1
Chemical Equilibria
. 11
2.1.1
Equilibrium Values and Calculations
. 12
2.1.2
Exchange Reaction Equilibria: Systems of the Type
МЦ/МЦ.,/
· · ·
ML/M
. 12
2.2
Acid-Base Reactions
. 15
2.2.1
Acid-Base Characteristics of Common Chemical Species
. 15
2.2.2
Buffers
. 16
2.2.3
Acid/Base Character of Oxides
. 21
2.3
Redox
Processes
. 23
2.3.1
Latimer Diagrams
. 25
2.3.2
Frost Diagrams
. 27
2.3.3
Nernst Equation
. 27
2.3.4
Pourbaix Diagrams
. 28
2.3.5
The p£ Scale
. 33
References and Further Reading
. 41
3
Chemistry Fundamentals, Part
В
. 43
3.1
Complexes and Complex Formation
. 43
3.1.1
Definition and Generalities
. 43
Contents
3.1.2
Modification
of Properties of Metal Ions
. 43
3.1.3
Geometry of Metal Complexes
. 46
3.1.4
Inner and Outer Sphere Complexes
. 47
3.1.5
Mono and Polydentate Ligands. The HSAB Approach
. 48
3.1.6
The Chelate Effect
. 48
3.1.7
Reactions of Complexes
. 50
3.1.7.1
Ligand-Exchange Reactions
. 50
3.1.7.2
Electron-Exchange Reactions
. 50
3.2
Chemical Kinetics
. 51
3.2.1
Factors That Influence the Rate of a Mono Directional Reaction
. 52
3.2.1.1
Dependence of the Rate of Reaction on Concentrations: The Rate Law
. 53
3.2.1.2
The Rate Constant
. 54
3.2.2
Integrated Rate Equations
. 54
3.2.2.1
Zeroth-Order Reactions
. 54
3.2.2.2
First-Order Reactions
. 54
3.2.2.3
Second-Order Reactions
. 55
3.2.2.4
Higher-Order Reactions
. 55
3.2.3
Complex Reactions
. 55
3.2.3.1
Consecutive Reactions
. 56
3.2.3.2
Opposing (Reversible) Reactions
. 56
3.2.3.3
Parallel Reactions
. 57
3.2.4
The Steady-State Approximation
. 57
3.2.5
Catalysis
. 57
3.2.6
Kinetics of Metal-Complex Dissociation
. 58
3.3
Photochemical Processes
. 59
3.3.1
Photochemical Processes After the Absorption of Light
. 59
3.3.2
BeeťsLaw
. 60
3.3.3
Homogeneous and Heterogeneous Processes
. 61
3.4
Radiochemistry
. 61
3.4.1
Decay Kinetics
. 62
3.4.2
Units of Radiation
. 63
3.4.3
Detection Devices for Ionizing Radiations and Protection From Radiation
. 64
3.4.3.1 Geiger
Counter or Ionization in Gas-Filled Tubes
. 64
3.4.3.2
Scintillation Device
. 64
3.4.3.3
Photographic Films
. 64
3.4.3.4
Semiconductors
. 64
3.4.3.5
Thermoluminescence
. 64
References and Further Reading
. 64
Part
2
The Chemistry of Natural Environmental Processes
4
The Chemistry of Processes in the Atmosphere
. 69
4.1
Air
. 69
4.2
How Did the Earth"s Atmosphere Form?
. 70
4.3
Amounts of Constituents in the Atmosphere
. 71
4.4
Tropospheric Chemistry
. 73
4.5
Physical Principles of the Greenhouse Effect
. 74
4.6
Stratospheric Chemistry
. 75
4.7
Aerosols
. 76
Related Experiments in the Companion Book
. 76
Contents
Additional Related Experiments/Activities
. 76
References and Further Reading
. 77
The Chemistry of Processes in the
Lithosphère
. 78
5.1
The
Lithosphère
and its Components
. 78
5.1.1
Structure of the Solid Earth
. 78
5.1.1.1
Core
. 78
5.1.1.2
Mantle
. 78
5.1.1.3
Crust
. 78
5.1.2
Classification of Rocks
. 79
5.1.2.1
Igneous Rocks
. 79
5.1.2.2
Sedimentary Rocks
. 79
5.1.2.3
Metamorphic Rocks
. 80
5.1.2.4
Rock-Forming Minerals
. 80
5.2
Formation and Differentiation of Minerals and Ores
. 80
5.3
Weathering
. 81
5.3.1
Physical Weathering
. 81
5.3.2
Chemical Weathering
. 82
5.3.2.1
Dissolution and Precipitation of Solids
. 85
5.3.2.2
Dissolution of Natural Oxides
. 89
5.3.2.3
Stable and Metastable Solid Phases
. 90
5.3.3
Biological Weathering
. 92
5.4
Soil Characteristics
. 92
5.4.1
Soil Taxonomy
. 93
5.4.2
Humic Substances
(HS). 93
5.4.3
Decomposition of Organic Materials Adsorbed on Soil
. 93
Related Experiments in the Companion Book
. 93
Additional Related Experiments/Activities
. 94
References and Further Reading
. 94
6
The Chemistry of Processes in the Hydrosphere
. 96
6.1
Natural Waters: Types and Composition
. 96
6.1.1
Processes That Affect Water Composition
. 96
6.1.2
Rainwater
. 98
6.1.3
Surface Water
. 99
6.1.3.1
Stream and River Water
. 101
6.1.3.2
Lake Water
. 103
6.1.4
Groundwater
.
1
05
6.1.5
Seawater
. 106
6.1.6
Brackish/Saline Water
. 107
6.2
Interactions of Water with Air and Sediments; Effects on
10
10
10
Aquatic Chemistry
.
6.2.1
Gas Dissolution and Acidification of Natural Waters.
6.2.1.1
Henry's Law
.
6.2.1.2
Dissolved Oxygen in Water.
6.2.1.3
Dissolution of CO2 in Water.
6.2.2
Interactions between Water and Sediments/Soil
.
6.3
Physicochemical Processes in Aquatic Systems
.
6.3.1
Chemical Processes in Aquatic Systems
6.3.1.1
Acid-Base Reactions.
13
14
15
15
16
Contents
6.3.1.2
Redox
Reactions
. 119
6.3.1.3
Complex Formation
. 122
6.3.1.4
Speciation
. 122
6.3.1.5
Colloids: Properties, Types, Sources, and Formation
. 124
6.3.1.6
Photochemical Reactions
. 126
6.3.2
Natural Removal of Species from Aqueous Systems by Chemical
and Physical Processes
. 128
6.3.2.1 Sorption
onto Colloidal, Suspended, or Settled Sediments
. 128
6.3.2.2
Ion Exchange in Sediments and in Aqueous Colloidal
and Suspended Matter
. 129
6.3.2.3
Precipitation Reactions and Co-precipitation
. 131
6.3.2.4
Solidification and Deposition Processes Due to
Evaporation
. 131
6.3.2.5
Colloidal and Sediment Transport into Surface Water
. 131
6.3.2.6
Volatilization of Organic and Inorganic Compounds
. 132
Related Experiments in the Companion Book
. 132
Additional Related Experiments/Activities
. 135
References and Further Reading
. 135
Natural Biochemical Processes and Organisms in the Biosphere
. 137
7.1
Classification of Living Organisms
. 137
7.2
Nutritional Classification of Organisms
. 140
7.3
Basic Aspects of Ecology
. 142
7.3.1
The Habitats of Life: Air, Land, and Water
. 143
7.3.1.1
Atmosphere
. 143
7.3.1.2
Land
. 143
7.3.1.3
Water
. 144
7.3.2
Trophic Levels
. 145
7.3.3
Non-feeding Relations Among Species
. 146
7.3.4
Sustainability of Ecosystems
. 147
7.4
Biogeochemical Cycles
. 148
7.4.1
Water Cycle
. 148
7.4.2
Hydrogen Cycle
. 148
7.4.3
Carbon Cycle
. 149
7.4.4
Oxygen Cycle
. 150
7.4.5
Nitrogen Cycle
. 152
7.4.5.1
Fixation
. 152
7.4.5.2
Ammonification
. 153
7.4.5.3
Nitrification
. 154
7.4.5.4
Nitrate Reduction and Denitrification
. 154
7.4.6
Sulfur Cycle
. 155
7.4.6.1
Sulfur Mineralization
. 155
7.4.6.2
Oxidation of
Sulfide
and of Elemental Sulfur
. 156
7.4.6.3
Dissimilatory
Sulfate
or Sulfur Reduction
. 157
7.4.6.4
Assimilatory
Sulfate
Reduction or
Sulfur Immobilization
. 157
7.4.7
Phosphorus Cycle
. 157
7.4.8
Iron Cycle
. 159
7.4.9
Interrelations Among Cycles
. 160
Contents
Related
Experiments in
the
Companion
Book. 161
Additional Related Experiments/Activities
. 162
References and Further Reading
. 162
Part
3
Effects, Treatment and Prevention of Pollution
8
Effects of Pollutants on the Chemistry of the Atmosphere, Hydrosphere,
and
Lithosphère
. 167
8.1
Importance of the Manufacture and Use of Chemical Substances
. 167
8.2
Sources of Chemical Substances as Contaminants and Pollutants
. 167
8.3
Transport, Mobility, and Partition of Pollutants
. 169
8.4
Air, Water, and Soil Pollution and Their Effects
. 173
8.4.1
Effects of Pollutants on the Atmosphere
. 173
8.4.1.1
Main Air Pollutants
. 173
8.4.1.2
Combustion Processes as the Main Air Pollution Source
. 175
8.4.1.3
The Greenhouse Effect
. 176
8.4.1.4
Smog Formation
. 176
8.4.1.5
Stratospheric Ozone Destruction or the Ozone Hole
. 177
8.4.1.6
Acid Rain
. 178
8.4.1.7
Indoor Pollution
. 179
8.4.2
Effects of Pollutants on the Hydrosphere
. 180
8.4.2.1
Oxygen-Demanding Materials
. 180
8.4.2.2
Nutrients
. 182
8.4.2.3
Pathogenic Organisms
. 183
8.4.2.4
Suspended Solids
. 183
8.4.2.5
Oil and Grease Spills
. 184
8.4.2.6
Metallic and Metalloid Compounds
. 185
8.4.2.7
Radionuclides
. 185
8.4.2.8
Detergents (Surfactants) and Nutrient Enrichment
. 185
8.4.2.9
Salts
. 186
8.4.2.10
Heat
. 186
8.4.2.11
Other Contributions
. 187
8.4.2.12
Groundwater Pollution
. 187
8.4.2.13
Surface Waters
. 187
8.4.3
Effects of Pollutants on the
Lithosphère
. 187
8.4.3.1
Transformation of Pollutants in Soils
. 187
8.4.3.2
Transport, Mobility, and Partitioning of Pollutants in Soils
. 188
8.4.3.3
Agriculture and the Chemistry of Soils
. 188
8.4.3.4
Metals and Mining Processes
. 189
8.4.3.5
Other Wastes and Pollutants in Soil
. 190
Related Experiments in the Companion Book
. 190
Additional Related Experiments/Activities
. 191
References and Further Reading
. 196
9
Effects of Pollutants on the Biosphere: Biodegradability,
Toxicity,
and Risks
. 198
9.1
Types of Pollutants According to Their Capacity to Undergo
Biotransformation
. 198
9.1.1
Biodegradable Substances and
Biodegradation
Processes
. 198
9.1.2
Biotic Transformation Reactions
. 199
9.1.3
Recalcitrance and Recalcitrant Compounds
. 204
xv¡
Contents
9.2
Hazardous and Non-hazardous Substances or Pollutants
. 207
9.2.1
Classification of Hazardous Substances
. 208
9.2.2
Toxicity
and Related Definitions
. 208
9.2.3
Factors That Affect the
Toxicity
of Chemical Substances
. 208
9.3
Human Health Risk Assessment
. 220
9.3.1
Hazard Identification
. 221
9.3.2
Dose-Response Assessment
. 222
9.3.2.1
Non-carcinogenic Risk Assessment
. 223
9.3.2.2
Cancer Risk Assessment
. 224
9.3.3
Exposure Assessment
. 226
9.3.4
Risk Characterization
. 226
9.3.5
Risk Management
. 227
9.4
Ecotoxicology
. 228
9.4.1
Methods of Ecotoxicology
. 229
9.4.1.1
Toxic
Endpoints. 230
9.4.1.2
Bioassays
. 230
9.4.2
Ecotoxicity Determination
. 231
9.4.2.1
Short-Time
Toxicity
Tests
. 231
9.4.2.2
Long-Term
Toxicity
Tests
. 231
9.4.3
Bioconcentration,
Bioaccumulation,
and Biomagnification
. 232
9.4.4
Biomarkers
and Bioindicators
. 233
9.4.5
In Situ Monitoring
. 233
9.4.6
Ecological Risk Assessment
. 234
9.4.6.1
Characterization of the Baseline Ecology and Identification
of Potential Receptor Populations
. 234
9.4.6.2
Ecological
Toxicity
Assessment
. 234
9.4.6.3
Evaluation of Potential Exposures
. 234
9.4.6.4
Risk Characterization
. 234
9.4.7
Risk Assessment
. 234
Related Experiments in the Companion Book
. 235
Additional Related Experiments/Activities
. 236
References and Further Reading
. 236
10
Physicochemical
and Physical Treatment of Pollutants and Wastes
. 237
10.1
Physicochemical Processes
. 237
10.1.1
Redox
Processes
. 237
10.1.1.1
Chemical Oxidation and Incineration
. 238
10.1.1.2
Advanced Oxidation Processes (AOP)
. 249
10.1.1.3
Chemical Reduction
. 253
10.1.2
Precipitation/Immobilization, Acid-Base/Hydrolysis, and
Ion-Exchange Processes
. 255
10.1.2.1
Chemical Precipitation/Metal Immobilization
. 255
10.1.2.2
Acid-Base/Hydrolysis Processes
. 256
10.1.2.3
Ion Exchange
. 256
10.1.3
Complexation Processes
. 258
10.1.3.1
Gaseous Pollutants
. 258
10.1.3.2
Aqueous Pollutants
. 258
10.1.3.3
Soil Pollutants
. 259
10.1.4
Electrochemical Processes
. 260
10.1.4.1
Direct and Indirect Processes
. 260
Contents xvii
10.1.4.2 Electrochemical
Processes
Based
on
Ion Exchange. 261
10.1.4.3 Electrochemical
Treatment of
Gases. 261
10.1.4.4
Electrokinetic Treatment of Soils
. 262
10.1.4.5
Electrochemical Production of Water Disinfectants
. 263
10.1.4.6
Hybrid Processes that Involve an Electrochemical Step for the
Treatment of Aqueous Wastes
. 263
10.1.5
Other Chemical Processes
. 264
10.1.5.1
Selective Dissolution in CO2
. 264
10.1.5.2
Extraction with Other Liquefied Gases
. 264
10.1.5.3
Extraction with Liquid Solvents (Liquid-Liquid Extraction)
. 264
10.1.5.4
Catalytic Hydrodechlorination
. 264
10.2
Physical Processes
. 264
10.2.1
Adsorption Processes
. 264
10.2.2
Incorporation of Pollutants into Solid Materials
. 265
10.2.2.1
Clay Incorporation
. 265
10.2.2.2
Supersoaker Materials
. 265
10.2.2.3
Vitrification
. 265
10.2.3
Radiation-Based Processes
. 265
10.2.3.1
Microwave Energy
. 265
10.2.3.2
Electron Beams
. 266
10.2.3.3
Ultrasound
. 266
10.2.3.4
Photochemical Methods
. 266
10.2.4
Methods Based on Magnetic Fields
. 266
10.2.4.1
Magnetic Treatment
. 266
10.2.4.2
Magnetic Particles
. 266
10.2.5
Filtration Methods
. 267
10.2.6
Evaporation
. 268
10.2.7
Air/Steam Stripping
. 268
10.3
Combined Treatments
. 268
Related Experiments in the Companion Book
. 269
Additional Related Experiments/Activities
. 272
References and Further Reading
. 272
11
Biological Treatment of Pollutants and Wastes
. 276
11.1
Removal of Pollutants from Wastewater
. 276
11.1.1
Preliminary Treatment
. 276
11.1.2
Primary Treatment
. 276
11.1.3
Secondary Treatment
. 277
11.1.3.1
Aerobic Processes
. 277
11.1.3.2
Anaerobic Treatment of Wastewater
. 281
11.1.3.3
Biological Nutrient Removal
. 283
11.1.4
Tertiary Treatment
. 287
11.1.5
Chemical and Physical Disinfection
. 288
11.2
Sludge Treatment Options
. 288
11.2.1
Anaerobic Digestion of Sludge
. 289
11.2.2
Composting
. 289
11.2.3
Pasteurization and Drying
. 289
11.2.4
Lime Stabilization
. 289
11.3
Wastewater Reuse
. 290
xviii
Contents
11.4
Biological Treatment of Soil and Groundwater
. 290
11.4.1
In Situ Bioremediation
. 291
11.4.2
Treatment of Excavated Soils
. 292
11.4.2.1
Composting
. 292
11.4.2.2
Slurry Reactors
. 292
11.4.3
Treatment Strategies for Aquifers
. 292
11.4.3.1
Physical Containment
. 292
11.4.3.2
In Situ
Biorestoration
. 292
11.4.3.3
Above-Ground Bioreactors (Pump-and-Treat Technology)
. 293
11.4.4
Marine
OU
Spills
. 293
11.5
Biological Treatment of Volatile Compounds
. 294
Related Experiments in the Companion Book
. 295
Additional Related Experiments/Activities
. 295
References and Further Reading
. 295
12
The Minimization and Prevention of Pollution; Green Chemistry
. 296
12.1
Industrial Ecology
. 296
12.2
Life-Cycle Assessment
. 296
12.3
Green Chemistry
. 297
12.3.1
Prevent Waste Production
. 297
12.3.2
Design Effective, Non-toxic Products
. 298
12.3.3
Design Good Syntheses
. 298
12.3.4
Use Alternative Feedstock/Starting Materials
. 299
12.3.5
Minimize Waste Using Catalytic Reactions
. 302
12.3.6
Avoid Temporary Modifications
. 304
12.3.7
Maximize the Use of Starting Materials
. 305
12.3.8
Minimize the Use of Auxiliary Chemicals
. 307
12.3.8.1
Ionic Liquids
(Љѕ)
. 307
12.3.8.2
Fluorous Compounds and Solvents
. 312
12.3.8.3
Supercritical Fluids
. 313
12.3.8.4
Solventless Reactions
. 314
12.3.8.5
Aqueous Systems
. 315
12.3.8.6
Biosolvents
. 316
12.3.9
Energy Requirements
. 316
12.3.9.1
Microwave Radiation
. 317
12.3.9.2
Green Photochemistry
. 317
12.3.10
Design Benign Products
. 318
12.3.10.1
Synthetic Biodegradable Polymers
. 318
12.3.10.2
Starch-Based Biodegradable Plastics
. 319
12.3.11
Optimize Monitoring and Control
. 319
12.3.12
Minimize the Potential for Accidents
. 320
Related Experiments in the Companion Book
. 320
Additional Related Experiments/Activities
. 320
References and Further Reading
. 322
Index
. 325 |
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| id | DE-604.BV023103756 |
| illustrated | Not Illustrated |
| index_date | 2024-07-02T19:45:48Z |
| indexdate | 2024-07-09T21:11:06Z |
| institution | BVB |
| isbn | 9780387314358 9780387260617 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-016306450 |
| oclc_num | 255038594 |
| open_access_boolean | |
| owner | DE-703 |
| owner_facet | DE-703 |
| physical | XVIII, 334 S. |
| publishDate | 2007 |
| publishDateSearch | 2007 |
| publishDateSort | 2007 |
| publisher | Springer |
| record_format | marc |
| spelling | Environmental chemistry fundamentals Jorge G. Ibanez ... New York, NY Springer 2007 XVIII, 334 S. txt rdacontent n rdamedia nc rdacarrier Environmental chemistry Ökologische Chemie (DE-588)4135167-8 gnd rswk-swf Ökologische Chemie (DE-588)4135167-8 s DE-604 Ibanez, Jorge G. Sonstige oth text/html http://deposit.dnb.de/cgi-bin/dokserv?id=2684570&prov=M&dok_var=1&dok_ext=htm Inhaltstext Digitalisierung UB Bayreuth application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016306450&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Environmental chemistry fundamentals Environmental chemistry Ökologische Chemie (DE-588)4135167-8 gnd |
| subject_GND | (DE-588)4135167-8 |
| title | Environmental chemistry fundamentals |
| title_auth | Environmental chemistry fundamentals |
| title_exact_search | Environmental chemistry fundamentals |
| title_exact_search_txtP | Environmental chemistry fundamentals |
| title_full | Environmental chemistry fundamentals Jorge G. Ibanez ... |
| title_fullStr | Environmental chemistry fundamentals Jorge G. Ibanez ... |
| title_full_unstemmed | Environmental chemistry fundamentals Jorge G. Ibanez ... |
| title_short | Environmental chemistry |
| title_sort | environmental chemistry fundamentals |
| title_sub | fundamentals |
| topic | Environmental chemistry Ökologische Chemie (DE-588)4135167-8 gnd |
| topic_facet | Environmental chemistry Ökologische Chemie |
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