Produktbild: Green Stormwater Infrastructure Fundamentals and Design

Green Stormwater Infrastructure Fundamentals and Design

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Beschreibung

Produktdetails

Einband

Gebundene Ausgabe

Erscheinungsdatum

26.07.2022

Verlag

John Wiley & Sons Inc

Seitenzahl

512

Maße (L/B/H)

25,7/18/2,8 cm

Gewicht

1261 g

Auflage

1. Auflage

Sprache

Englisch

ISBN

978-1-118-59019-5

Beschreibung

Produktdetails

Einband

Gebundene Ausgabe

Erscheinungsdatum

26.07.2022

Verlag

John Wiley & Sons Inc

Seitenzahl

512

Maße (L/B/H)

25,7/18/2,8 cm

Gewicht

1261 g

Auflage

1. Auflage

Sprache

Englisch

ISBN

978-1-118-59019-5

Herstelleradresse

Libri GmbH
Europaallee 1
36244 Bad Hersfeld
DE

Email: gpsr@libri.de

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  • Produktbild: Green Stormwater Infrastructure Fundamentals and Design
  • Preface xix

    About the Authors xxi

    Acknowledgements xxiii

    About the Companion Website xxv

    1 Introduction to Urban Stormwater and Green Stormwater Infrastructure 1

    1.1 Population and Urban Infrastructure 1

    1.2 Impacts of Urbanization 2

    1.3 The US Regulatory Environment 7

    1.4 Urban Stormwater Management 12

    1.4.1 Flood Control 12

    1.4.2 Peak Flow Control 13

    1.4.3 Watershed Approach to Peak Flow 14

    1.4.4 Water-Quality Control 14

    1.5 Climate Change and Stationarity 15

    1.6 Green Stormwater Infrastructure 15

    1.7 Stormwater Control Measures 17

    1.8 Stormwater Infrastructure and Equity 17

    References 18

    Problems 19

    2 Precipitation: The Stormwater Driver 21

    2.1 Introduction 21

    2.2 The Urban Hydrologic Cycle 21

    2.3 Precipitation 23

    2.4 Precipitation Depths 24

    2.5 Rainfall Patterns 26

    2.6 Inter-event Interval 27

    2.7 Extreme Event Precipitation 27

    2.8 Introducing the Rainfall-Runoff Relationship 29

    2.9 Precipitation and Water Quality 30

    2.10 Climate Change 31

    References 31

    Problems 31

    3 Water Quality 33

    3.1 Introduction 33

    3.2 Designated Water Uses 33

    3.3 Water-Quality Parameters and Measures 34

    3.4 Temperature 34

    3.5 pH 35

    3.6 Dissolved Oxygen 35

    3.7 Turbidity and Particulate Matter 37

    3.8 Biodegradable Organic Matter or "Oxygen Demand" 40

    3.9 Nitrogen 41

    3.9.1 Nitrate 41

    3.9.2 Nitrite 42

    3.9.3 Ammonium 42

    3.9.4 Organic Nitrogen 43

    3.9.5 Nitrogen Measurements 43

    3.10 Phosphorus 44

    3.11 Heavy Metals 46

    3.12 Hydrocarbons and Other Organic Pollutants 46

    3.12.1 Hydrocarbons 46

    3.12.2 Pesticides and Other Organic Chemicals 47

    3.13 Pathogens 48

    3.14 Dissolved Solids and Conductivity 49

    3.15 Trash 50

    References 50

    Problems 50

    4 Ecosystem Services 53

    4.1 What Are Ecosystem Services? 53

    4.2 Ecosystem Services and Stormwater Management 56

    4.3 Stormwater Wetlands and Ecosystem Services 56

    4.4 Regulation Services 56

    4.4.1 Water Treatment 56

    4.4.2 Hydrologic Regulation 56

    4.4.3 Climate Regulation 57

    4.4.4 Air Quality Regulation 57

    4.5 Habitat Services 58

    4.6 Production Services 59

    4.7 Information Services 60

    4.8 Designing SCMs for Ecosystem Services 61

    References 61

    Problems 63

    5 Stormwater Quality 65

    5.1 Introduction 65

    5.2 Event Mean Concentrations 66

    5.3 Urban Runoff Pollutant Concentrations 68

    5.3.1 Particulate Matter and Particle Size Distributions 70

    5.3.2 Nitrogen and Nitrogen Speciation 71

    5.3.3 Phosphorus and Phosphorus Speciation 72

    5.3.4 Heavy Metals Concentrations and Speciation 73

    5.3.5 PAH and PCBs 74

    5.4 Urban Stormwater Pollutant Sources 74

    5.5 Pollutant Buildup and Wash Off 76

    5.5.1 Pollutographs 76

    5.5.2 First Flush 76

    5.6 Annual Pollutant Loads 83

    5.7 Sampling and Measurements 84

    5.8 A Note about Stormwater Quality 84

    References 84

    Problems 87

    6 Watershed Hydrology 89

    6.1 Introduction 89

    6.2 Precipitation 90

    6.2.1 Design Storms 91

    6.2.2 Continuous Simulation 97

    6.3 Watershed Hydrology 98

    6.3.1 Drainage Area Delineation 98

    6.3.2 Interception and Depression Storage 99

    6.3.3 The Simple Method 100

    6.3.4 NRCS Curve Number Method 101

    6.3.5 NRCS "Time of Concentration" 106

    6.3.6 NRCS Unit Hydrograph 108

    6.3.7 Creating the Storm Hydrograph 112

    6.4 Peak Flow Methods 113

    6.4.1 The Rational Method 113

    6.4.2 The NRCS Unit Hydrograph Method 115

    6.5 Watershed and SCM Hydraulics 115

    6.5.1 Open Channel Flow 115

    6.5.2 Orifices 117

    6.5.3 Weirs 118

    References 120

    Problems 121

    7 SCM Hydrologic Unit Processes 127

    7.1 Introduction 127

    7.2 SCM Soil Physics and Infiltration 128

    7.2.1 Soil Texture 129

    7.2.2 Soil-Water Interactions 130

    7.2.3 Soil Hydraulic Properties 134

    7.2.4 Green and Ampt Model 137

    7.2.5 Karst Areas 140

    7.3 Evapotranspiration 141

    7.4 Soil Moisture Accounting 147

    7.5 Storage Indication Routing 148

    7.6 Computer-Based Stormwater Models 148

    References 149

    Problems 150

    8 Unit Processes for Stormwater Quality Mitigation 153

    8.1 Introduction 153

    8.2 Reactions, Reactors, and Reactor Engineering 154

    8.3 Removal of Particulate Matter 158

    8.3.1 Sedimentation 158

    8.3.2 Filtration 161

    8.4 Removal of Dissolved Pollutants: Adsorption 163

    8.4.1 Adsorption Equilibrium Models 164

    8.4.2 Batch Adsorption 165

    8.4.3 Adsorption Column Dynamics 168

    8.4.4 Adsorption of Hydrophobic Organic Compounds 169

    8.4.5 Adsorption of Heavy Metals 170

    8.4.6 Adsorption of Phosphorus 170

    8.4.7 Adsorption of Ammonium 171

    8.5 Leaching Processes 171

    8.6 Microbiological Processes 171

    8.6.1 Microbial/Pathogen Survival 172

    8.6.2 Organic Matter Degradation 172

    8.6.3 Nitrification 173

    8.6.4 Denitrification 174

    8.7 Phytobiological Processes 175

    8.8 Heat Transfer 176

    References 177

    Problems 178

    9 Stormwater Performance Measures and Metrics 183

    9.1 Introduction 183

    9.2 Reference Conditions and Defining Thresholds 184

    9.3 Volume Control 184

    9.3.1 Runoff Depth 184

    9.3.2 Curve Number Reduction 185

    9.4 Peak Flow, Flow, and Geomorphology 186

    9.5 Pollutant Percent Removal 189

    9.6 Chesapeake Bay Retrofit Curves 190

    9.7 Target Effluent Concentrations 190

    9.8 Annual Mass Load 192

    9.9 Probability and Exceedance 193

    9.10 Pollutant Durations 195

    References 198

    Problems 199

    10 Preventing Runoff and Stormwater Pollution 201

    10.1 Introduction 201

    10.2 Site Design and Low Impact Development 201

    10.3 Compacted Urban Surfaces 203

    10.3.1 Avoiding Compaction and Promoting Infiltration 204

    10.3.2 Soil Restoration 204

    10.3.3 De-paving 205

    10.3.4 Removing Abandoned Housing 205

    10.4 Street Trees 206

    10.5 Disconnecting Impervious Surfaces 207

    10.5.1 Defining Disconnected Impervious Surface 208

    10.5.2 Calculating the Benefit of Disconnecting Imperviousness 208

    10.5.3 Design 210

    10.5.4 Water-Quality Benefits 212

    10.5.5 Performance Results 212

    10.6 Pollution Prevention 213

    10.6.1 Street Sweeping 213

    10.6.2 Product Prohibition 216

    10.7 Education 217

    References 217

    Problems 218

    11 Green Infrastructure Stormwater Control 221

    11.1 Introduction 221

    11.2 Fundamentals of Stormwater Control Measures 221

    11.3 Designing to Climate and the Watershed 222

    11.4 Types of Stormwater Control Measures 223

    11.5 Nonvegetated Stormwater Control Measures 224

    11.5.1 Infiltration Basins and Rock Beds 224

    11.5.2 Permeable Pavements 224

    11.5.3 Cisterns and Rain Barrels 225

    11.5.4 Sand Filters 225

    11.6 Vegetated Stormwater Control Measures 225

    11.6.1 Vegetation Challenges 227

    11.6.2 Green Roofs 229

    11.6.3 Bioretention 230

    11.6.4 Vegetated Swales and Filter Strips 230

    11.6.5 Stormwater Wetlands 230

    11.7 Selecting the SCM Site 230

    11.8 Stormwater Treatment Media 231

    11.8.1 Rock, Gravel, and Coarse Sand 232

    11.8.2 Silts and Clays 232

    11.8.3 Organic Media 232

    11.9 Volumetric Storage 233

    11.10 Drains and Underdrains 234

    11.11 "Irreducible Concentrations" 235

    References 237

    Problems 238

    12 Inlets, Bypasses, Pretreatment, and Proprietary Devices 239

    12.1 Introduction 239

    12.2 Inlets 239

    12.3 Stormwater Bypass 240

    12.4 Catch Basin and Inlet Filters 241

    12.5 Pretreatment 242

    12.6 Forebays 242

    12.6.1 Forebay Design 243

    12.6.2 Forebay Maintenance 245

    12.7 Proprietary Devices 246

    12.8 Accumulated Trash and Sediment 248

    References 249

    Problems 249

    13 Green Roofs 251

    13.1 Introduction 251

    13.2 Climate and Green Roofs 251

    13.3 Types of Roofs 252

    13.3.1 Green Roofs 252

    13.3.2 Blue Roofs 253

    13.4 Extensive Green Roof Components 256

    13.5 Hydrologic Design Strategies 259

    13.5.1 Rainfall Capture 259

    13.5.2 Evapotranspiration 262

    13.6 Water Quality Design 264

    13.6.1 Phosphorus 265

    13.6.2 Nitrogen 266

    13.6.3 Metals 266

    13.7 Inspection and Maintenance 266

    13.8 Other Green Roof Benefits 266

    References 267

    Problems 268

    14 Rainwater Harvesting 271

    14.1 Introduction 271

    14.2 Potential as a Water Resource 272

    14.3 Harvested Roof Water Quality 273

    14.4 Rain Barrels 274

    14.5 Rainwater Harvesting Regulations 275

    14.5.1 Non-stormwater Regulations 276

    14.5.2 Stormwater Regulations 276

    14.6 Designing Rainwater Harvesting Systems 277

    14.6.1 General Characteristics and Purpose 277

    13.6.2 Rainwater Storage Sizing Techniques 278

    14.6.3 Design 279

    14.7 Designing for Enhanced Stormwater Performance 282

    14.7.1 Passive Release Mechanism 282

    14.7.2 Active Release Mechanism 284

    14.7.3 Alternative Approaches for Irrigation-based Systems 285

    14.7.4 Designing an Infiltration or Filtration Area 286

    14.8 Treatment for High-quality Use 288

    14.9 Inspection and Maintenance 289

    References 289

    Problems 290

    15 Permeable Pavement 293

    15.1 Introduction 293

    15.2 Types of Permeable Pavements 295

    15.3 Permeable Pavement Installation 298

    15.4 Designing for Infiltration and Percolation 298

    15.4.1 Surface Infiltration 299

    15.4.2 Run-on Ratio 299

    15.4.3 Depth/Volume of Storage Layer 301

    15.4.4 Underdrain Need 301

    15.4.5 Underdrain Configuration 301

    15.4.6 In Situ Soils 302

    15.5 Permeable Pavement Hydrologic Design Strategies 302

    15.6 Permeable Pavement Hydrology 305

    15.6.1 Hydrographs 305

    15.6.2 Curve Numbers and Storage 306

    15.6.3 Evaporation 307

    15.7 Water Quality Design 307

    15.7.1 Particulate Matter 308

    15.7.2 Metals 308

    15.7.3 Nutrients 308

    15.7.4 Hydrocarbons 309

    15.7.5 pH 309

    15.7.6 Thermal Pollution (Temperature) 310

    15.7.7 Pollutant Loads 310

    15.7.8 Long-term Pollutant Fate 311

    15.8 Maintenance 312

    15.9 Design Summary 312

    15.10 Permeable Pavement Cost Factors 312

    15.11 Permeable Friction Course 314

    References 315

    Problems 317

    16 Infiltration Trenches and Infiltration Basins 319

    16.1 Introduction 319

    16.2 Types of Basins 319

    16.3 Mechanisms of Treatment 321

    16.4 Infiltration 323

    16.5 Surface Infiltration Basins 323

    16.6 Infiltration Trench and Subsurface Infiltration Basin Design 326

    16.7 Infiltration Trench and Basin Performance 327

    16.8 Inspection and Maintenance 328

    References 329

    Problems 329

    17 Sand Filters 331

    17.1 Introduction 331

    17.2 Basic Sand Filter Operation 331

    17.3 Sand Filter Options and Configurations 331

    17.4 Sand Filter Design 333

    17.5 Water Quality Performance 335

    17.5.1 Particulate Matter Removal 335

    17.5.2 Dissolved Pollutant Removal 336

    17.6 Sand Filter Headloss 336

    17.7 Solids Accumulation and Clogging 337

    17.8 Sorptive and Reactive Media 339

    17.9 Geotextile Filters 339

    17.10 Inspection and Maintenance 340

    References 340

    Problems 341

    18 Bioretention 343

    18.1 Introduction 343

    18.2 Bioretention Classifications 344

    18.3 Bioretention Components 345

    18.4 Siting and Configuration 346

    18.5 Bioretention Flow Entrances, Inlets, and Forebays 348

    18.6 Storage Bowl 350

    18.7 Bioretention Design: Static Storage and Hydrologic Performance 351

    18.8 Dynamic Storage 353

    18.9 The Media 354

    18.9.1 Rain Gardens 354

    18.9.2 Standard Media 354

    18.9.3 Surface Mulch Layer 354

    18.10 Evapotranspiration 355

    18.11 The Media and Particulate Matter Removal 356

    18.12 The Media and Heavy Metals Removal 358

    18.13 The Media and Organic Pollutants Removal 359

    18.14 The Media and Phosphorus Removal 360

    18.14.1 Phosphorus Removal in Bioretention 361

    18.14.2 Quantifying Phosphorus Removal 362

    18.14.3 Media Enhancements for Phosphorus Removal 363

    18.15 The Media and Nitrogen Removal 366

    18.15.1 Nitrogen Processing in Standard Bioretention Systems 366

    18.15.2 Enhanced Nitrogen Removal 368

    18.15.3 Biological Nitrogen Transformations 368

    18.16 The Media and Bacteria Removal 370

    18.17 Vegetation 370

    18.18 The Underdrain and Subsurface Storage 373

    18.19 Internal Water Storage and Nitrogen Removal 376

    18.20 Bioretention Pollutant Load Reductions 377

    18.21 Bioretention Exfiltration and Groundwater 380

    18.22 Inspection and Maintenance 380

    References 381

    Problems 386

    19 Swales, Filter Strips, and Level Spreaders 393

    19.1 Introduction 393

    19.2 Characteristics 393

    19.2.1 Swales 393

    19.2.2 Filter Strips and Level Spreaders 393

    19.3 Swale Design 394

    19.3.1 Configurations 396

    19.3.2 Hydraulic Design 396

    19.4 Filter Strip Design 399

    19.4.1 Configurations 399

    19.4.2 Flow Conveyance 399

    19.5 Filter Strips Conveying to Swales 400

    19.6 Water Quality Considerations 402

    19.6.1 Designing for Pollutant Capture: Length of Swale 402

    19.6.2 Designing for Particulate Matter Removal 402

    19.6.3 Designing for Particulate Matter Removal with Particle-size Distribution Available 405

    19.6.4 Designing for Metals Removal 406

    19.6.5 Filtration through Swales and Filter Strips 408

    19.6.6 Check Dams 409

    19.7 Swale Performance 410

    19.7.1 Hydrologic Considerations 410

    19.7.2 Water Quality Considerations 412

    19.8 Construction, Inspection, and Maintenance 414

    19.9 Summary 414

    References 415

    Problems 416

    20 Stormwater Wetlands 421

    20.1 Introduction 421

    20.2 Sizing Stormwater Wetlands 422

    20.3 Stormwater Wetland Features and Design 423

    20.3.1 Zone I-Deep Pools 424

    20.3.2 Zone II-Deep to Shallow Water Transition Zone (Transition Zone) 426

    20.3.3 Zone III-Shallow Water Zone 426

    20.3.4 Zone IV-Temporary Inundation Zone 427

    20.3.5 Zone V-Upper Bank 428

    20.4 Wetland Vegetation 428

    20.5 Wetland Soils and Vegetation Growth Media 430

    20.6 Wetland Outlet Configuration 431

    20.7 Wetland Construction 437

    20.8 Wetland Variations 437

    20.8.1 Wetland Design for Cold Water Species (Salmonids) 437

    20.8.2 Off-line Stormwater Wetlands 437

    20.8.3 Wetlands with High Flow Bypass 438

    20.9 Water Quality Improvements in Stormwater Wetlands 439

    20.10 Other Stormwater Wetland Designs 442

    20.10.1 Submerged Gravel Wetlands 442

    20.10.2 Ponds Transitioning to Wetlands 443

    20.10.3 Floating Wetlands 444

    20.11 Inspection and Maintenance 447

    References 447

    Problems 449

    21 Putting It All Together 451

    21.1 Introduction 451

    21.2 SCM Hydrologic Performance Summary 451

    21.3 SCM Water Quality Performance Summary 453

    21.3.1 Green Roofs and Water Harvesting 453

    21.3.2 Permeable Pavements 453

    21.3.3 Infiltration Basins 454

    21.3.4 Sand Filters 454

    21.3.5 Bioretention 454

    21.3.6 Vegetated Swales 455

    21.3.7 Stormwater Wetlands 455

    21.4 Treatment Trains 455

    21.5 SCM Treatment Train Examples 456

    21.5.1 Treatment Trains within Individual SCMs 456

    21.5.2 Incorporating Treatment Trains in Traditional SCMs 457

    21.5.3 SCMs in Series 457

    21.6 Quantifying Performance in SCM Treatment Trains 462

    21.7 Real Time Controls 463

    21.8 Designing for Climate Change 464

    21.9 Greener Infrastructure: What Does the Future Hold? 466

    References 467

    Problems 469

    Appendix A 471

    Index 473