Description

Book Synopsis

Water harvesting is gaining more and more recognition as a sustainable and resilient water supply options. It is economically viable, socially compatible and environmentally friendly. Water harvesting has proven to be a robust solution to overcome or reduce water shortages all over the world. It is important to understand how to apply this practice in a sustainable and effective way to make full use of its potential in a world increasingly threatened by water scarcity.

The Handbook of Water Harvesting and Conservation: Basic Concepts and Fundamentals is the most comprehensive, up-to-date and applied handbook on water harvesting and conservation yet published. The book's 30 chapters -- written by 84 outstanding international experts from approximately 20 selected countries faced by drought -- explore, critique and develop concepts and systems for water harvesting. The editors bring together many perspectives into a synthesis that is both academically based and practical

Table of Contents

List of Contributors xxi

About the Editors xxvii

Part A Concepts and Standards for a Secure Water Harvesting 1

1 Concept and Technology of Rainwater Harvesting 3
Fayez Abdulla, Cealeen Abdulla, and Saeid Eslamian

1.1 Introduction 3

1.2 Concept of Rainwater Harvesting 4

1.3 Technologies of Rainwater Harvesting 5

1.4 Advantages and Disadvantages of Rainwater Harvesting 8

1.5 Feasibility of Rainwater Harvesting across Different Climatic Zones 10

1.6 Roof Rainwater Harvesting System Components 11

1.7 Calculation of Potential HarvestedWater 13

1.8 Water Quality and its Health and Environmental Impacts 14

1.9 System Operation and Maintenance 14

1.10 Conclusion 15

References 15

2 Rainwater Harvesting: Recent Developments and Contemporary Measures 17
Aline Pires Veról, Marcelo Gomes Miguez, Elaine Garrido Vazquez, Fernanda Rocha Thomaz, Bruna Peres Battemarco, and Assed Naked Haddad

2.1 Introduction 17

2.2 Water Resource Management 18

2.3 Water Management at the Building Scale 25

2.4 Analysis of Payback of Rainwater Harvesting Systems 34

2.5 Conclusion 35

Acknowledgment 35

References 36

3 Standards for Rainwater Catchment Design 39
Sisuru Sendanayake and Saeid Eslamian

3.1 Introduction 39

3.2 Catchment Surface 40

3.3 Conveyance System 42

3.4 Storage Tank 44

3.5 Pre-treatment of Roof Collection 53

3.6 Distribution System and Related Regulations 54

3.7 Conclusion 54

References 55

4 Water Security Using Rainwater Harvesting 57
Adebayo Eludoyin, Oyenike Eludoyin, Tanimola Martins, Mayowa Oyinloye, and Saeid Eslamian

4.1 Introduction 57

4.2 Concept of Rainwater Harvesting 57

4.3 Rainwater Collection Systems 58

4.4 Rainwater Storage 61

4.5 Importance of Rainwater Harvesting 61

4.6 Quality Assessment of Harvested Rainwater 64

4.7 Problems Associated with Rainwater Harvesting 64

4.8 Conclusion 65

References 65

Part B Water Harvesting Resources 69

5 Single-Family Home and Building Rainwater Harvesting Systems 71
Duygu Erten

5.1 Introduction 71

5.2 Historical Development of RWH and Utilization 71

5.3 Pros and Cons of RWH Systems 72

5.4 Current Practices Around theWorld 78

5.5 Health Risks of Roof-Collected Rainwater 78

5.6 Guides, Policy, and Incentives 79

5.7 Green Building Certification Systems and RWH 82

5.8 Conclusion 84

References 85

6 Water Harvesting in Farmlands 87
Elena Bresci and Giulio Castelli

6.1 Introduction 87

6.2 Water Harvesting: Definitions 87

6.3 Floodwater Harvesting in Farmlands 88

6.4 Macro-CatchmentWater Harvesting in Farmlands 91

6.5 Micro-CatchmentWater Harvesting in Farmlands 94

6.6 RooftopWater Harvesting in Farmlands 95

6.7 Water Harvesting and Fertilization 96

6.8 Conclusions and Future Perspectives 96

References 97

7 Rainwater Harvesting for Livestock 101
Billy Kniffen

7.1 Introduction 101

7.2 Rainfall Harvesting on the Land 101

7.3 AnimalWater Requirements 102

7.4 Harvested Rainfall as a Source for Livestock 103

7.5 Requirements for Harvesting Rainwater for Livestock 104

7.6 Distribution ofWater for Livestock 107

7.7 Rainwater System Maintenance 107

7.8 Conclusion 107

References 108

8 Road Water Harvesting 109
Negin Sadeghi and Saeid Eslamian

8.1 Introduction 109

8.2 Water Harvesting Systems and Their Characteristics 110

8.3 RoadWater Harvesting 113

8.4 Conclusion 123

References 124

Part C Hydroinformatic and Water Harvesting 127

9 Application of RS and GIS for Locating Rainwater Harvesting Structure Systems 129
Dhruvesh Patel, Dipak R. Samal, Cristina Prieto, and Saeid Eslamian

9.1 Introduction 129

9.2 Experimental Site 131

9.3 Methodology 131

9.4 Results and Discussions 137

9.5 Conclusion 141

References 142

10 Information Technology in Water Harvesting 145
S. Sreenath Kashyap, M.V.V. Prasad Kantipudi, Saeid Eslamian, Maryam Ghashghaie, Nicolas R. Dalezios, Ioannis Faraslis, and Kaveh Ostad-Ali-Askari

10.1 Introduction 145

10.2 Water Harvesting Methods 145

10.3 The Internet of Things (IoT) 147

10.4 Assessing the Available Subsurface Resources Using the IoT 148

10.5 The IoT Devices for Efficient Agricultural/Irrigation Usage 150

10.6 Conclusions 151

References 151

11 Global Satellite-Based Precipitation Products 153
Zhong Liu, Dana Ostrenga, Andrey Savtchenko, William Teng, Bruce Vollmer, Jennifer Wei, and David Meyer

11.1 Introduction 153

11.2 Precipitation Measurements from Space 154

11.3 Overview of NASA Satellite-Based Global Precipitation Products and Ancillary Products at GES DISC 155

11.4 Data Services 159

11.5 Examples 163

11.6 Conclusion 171

Acknowledgments 172

References 172

12 Risk Analysis of Water Harvesting Systems 177
Maria Do Céu Almeida, Nelson Carriço, João Santos and Saeid Eslamian

12.1 Introduction 177

12.2 Concepts and Terminology 177

12.3 General Approaches to Risk Management Applicable to RWHS 177

12.4 Supporting Risk Management for RWHS 181

12.5 Hazards and Exposure Modes 182

12.6 Rainwater Collection Reliability asWater Source 183

12.7 Specific Risk Treatment Actions 185

12.8 Process Control and Monitoring 186

12.9 Conclusion 187

References 187

Part D Hydrological Aspects of Water Harvesting 191

13 Return Period Determination for Rainwater Harvesting System Design 193
Sandeep Samantaray, Dillip K. Ghose, and Saeid Eslamian

13.1 Introduction 193

13.2 Study Area 194

13.3 Overview of Rainwater Harvesting 197

13.4 Methodology 198

13.5 Results and Discussions 201

13.6 Conclusions 203

References 203

14 Rainwater Harvesting Impact on Urban Groundwater 207
A. Jebamalar, R. Sudharsanan, G. Ravikumar, and Saeid Eslamian

14.1 Introduction 207

14.2 State of the Art 208

14.3 Study Area and Data Collection 209

14.4 Methodology 213

14.5 Temporal Analysis of Groundwater Level 214

14.6 Spatial Analysis of Groundwater Table 215

14.7 Impact of RWH on Groundwater Recharge 215

14.8 Model Simulations for Impact of RWH Systems 217

14.9 Model Predictions for the Future 218

14.10 Conclusion 222

Acknowledgement 223

References 223

15 Effects of Water Harvesting Techniques on Sedimentation 225
Siavash Fasihi, and Saeid Eslamian

15.1 Introduction 225

15.2 Qualitative Effects and Data Collection 226

15.3 Sedimentation in Small Check Dams 228

15.4 Revised Universal Soil Loss Equation (RUSLE) 229

15.5 Limburg Soil Erosion Model (LISEM) 235

15.6 Conclusion 238

References 238

Part E Hydrometeorological Water Harvesting 243

16 Principles and Applications of Atmospheric Water Harvesting 245
Mousa Maleki, Saeid Eslamian, and Boutaghane Hamouda

16.1 Introduction 245

16.2 AtmosphericWater Harvesting Necessity 245

16.3 Methods of AtmosphericWater Harvesting 246

16.4 Energy Requirements of AMH andWater Production Costs 247

16.5 Atmospheric Vapor Harvesting Systems 248

16.6 Conclusion 256

References 257

17 Dew Harvesting on High Emissive Natural and Artificial Passive Surfaces 261
Jose Francisco Maestre-Valero, Bernardo Martin-Gorriz, Victoriano Martínez-Alvarez, and Saeid Eslamian

17.1 Introduction 261

17.2 Passive Surfaces for the Case Studies 262

17.3 Data Collection 264

17.4 Case Studies for Dew Collection 265

17.5 Dew Modeling 267

17.6 Conclusion 270

Acknowledgments 271

References 271

18 Atmospheric Water Harvesting Using Waste Energy from Landfills and Oilfields 273
Enakshi Wikramanayake, Onur Ozkan, Aritra Kar, and Vaibhav Bahadur

18.1 Introduction 273

18.2 Refrigeration-Based AtmosphericWater Harvesting Systems 275

18.3 ModelingWaste Natural Gas-Based AtmosphericWater Harvesting 276

18.4 Landfill Gas-Based AtmosphericWater Harvesting 277

18.5 Oilfield Gas-Based AtmosphericWater Harvesting 283

18.6 Sensitivity of theWater Harvest to Various Parameters 284

18.7 Comparison of AWH to Other Techniques for ProducingWater 285

18.8 Perspectives on AtmosphericWater Harvesting 285

18.9 Conclusions 286

Acknowledgements 286

References 286

Part F Environmental Aspects of Water Harvesting 289

19 Treatment Techniques in Water Harvesting 291
Brandon Reyneke, Monique Waso, Thando Ndlovu, Tanya Clements, Sehaam Khan, and Wesaal Khan

19.1 Introduction 291

19.2 Pretreatment of Harvested Rainwater: Prevention of Debris Entry and Sedimentation 292

19.3 Chemical Disinfection 293

19.4 Physical Disinfection 295

19.5 Biological Treatment 298

19.6 Conclusion 300

References 301

20 Water Recycling from Palm Oil Mill Effluent 307
Hossein Farraji, Irvan Dahlan, and Saeid Eslamian

20.1 Introduction 307

20.2 Problem Statement 307

20.3 Palm Oil Production 308

20.4 POME as an Agro-IndustryWastewater 308

20.5 Characteristics of POME 308

20.6 POME Treatment Methods 312

20.7 Water Recycling by Membrane Technique 313

20.8 Application of the SBR in POME Treatment 314

20.9 Discussions 316

20.10 Conclusion 316

References 316

Part G Green Water Harvesting 321

21 Vegetation Advantages for Water and Soil Conservation 323
Hadis Salehi Gahrizsangi, Saeid Eslamian, Nicolas R. Dalezios, Anna Blanta, and Mohadaseh Madadi

21.1 Introduction 323

21.2 Background 323

21.3 Vegetation Advantage for Soil andWater Conservation in Artificial Plots 329

21.4 Conclusions 334

References 335

22 Water Harvesting in Forests: An Important Step in Water-Food-Energy Nexus 337
Rina Kumari and Saeid Eslamian

22.1 Introduction 337

22.2 GlobalWater Scarcity 337

22.3 Change in Land Use-Land Cover and its Impact on Forest andWater Resources 339

22.4 Forest Hydrology 339

22.5 Rainwater Harvesting in Forests 343

22.6 Deforestation and its Impact 345

22.7 Forest Management andWatershed Development 346

22.8 Knowledge Gaps 347

22.9 Forests andWater in International Agreements 348

22.10 Role of Geospatial Technologies 348

22.11 Managing the Climate-Water-Forest Nexus for Sustainable Development 349

22.12 Case Studies 350

22.12.1 CombatingWater Scarcity in Latin America 350

22.12.2 Amazon River 350

22.12.3 Case Study of Southeast Asia 350

22.13 Conclusions 350

References 351

23 Rainwater and Green Roofs 355
Sara Nazif, Seyed Ghasem Razavi, Pouria Soleimani, and Saeid Eslamian

23.1 Introduction 355

23.2 Green Roof Components 355

23.3 Green Roof Types 358

23.4 Green Roof Irrigation 359

23.5 Green Roof Standards 359

23.6 Green Roofs for Rainwater Collection and Storage 360

23.7 Green Roof Effect on Runoff Quality 363

23.8 Other Functions of Green Roofs 364

23.9 Cost and Benefit Analysis of Green Roofs 367

23.10 Conclusion 369

References 369

24 Green Landscaping and Plant Production with Water Harvesting Solutions 373
Saeid Eslamian, Saeideh Parvizi, and Sayed Salman Ghaziaskar

24.1 Introduction 373

24.2 Water Harvesting 374

24.3 Rainwater Harvesting 374

24.4 The Goals and Benefits of Rainwater Harvesting 376

24.5 Impact of RWHR on Infiltration and Surface Runoff Processes 376

24.6 Climate Change and RWH 376

24.7 Landscape Functions and RWH 377

24.8 Hydrological Functions and RWH 377

24.9 Soil Fertility and Biomass Production 378

24.10 Discussions 380

24.11 Conclusions 381

References 381

Part H Reliable Rainwater Harvesting and Storage Systems 385

25 Comparing Rainwater Storage Options 387
Sara Nazif, Hamed Tavakolifar, Hossein Abbasizadeh, and Saeid Eslamian

25.1 Introduction 387

25.2 History of Rainwater Harvesting 387

25.3 Benefits of Rainwater Storage 388

25.4 Main Rainwater Storage Options 389

25.5 Comparing Rainwater Storage Options 395

25.6 Conclusion 398

References 398

26 Rainwater Harvesting Storage-Yield-Reliability Relationships 401
John Ndiritu

26.1 Introduction 401

26.2 The Rainwater Harvesting Storage-Yield-Reliability Problem 401

26.3 Modeling Storage-Yield-Reliability Relationships 402

26.4 Key Considerations 411

26.5 Conclusions 412

References 413

27 Towards Developing Generalized Equations for Calculating Potential Rainwater Savings 417
Monzur A. Imteaz, Muhammad Moniruzzaman and, Abdullah Yilmaz

27.1 Introduction 417

27.2 State of the Art 418

27.3 Methodology 419

27.4 Study Area and Data 420

27.5 Results 421

27.6 Conclusions 423

Acknowledgement 424

References 424

Part I Sustainable Water Harvesting and Conservation in a Changing Climate 427

28 Water Harvesting, Climate Change, and Variability 429
Jew Das, Manish Kumar Goyal, and N.V. Umamahesh

28.1 Introduction 429

28.2 Water Harvesting 431

28.3 Case Study 437

28.4 Results and Discussion 439

28.5 Conclusion 443

References 444

29 Water Harvesting and Sustainable Tourism 447
Neda Torabi Farsani, Homa Moazzen Jamshidi, Mohammad Mortazavi, and Saeid Eslamian

29.1 Introduction 447

29.2 Water Management: An Approach to Sustainable Tourism 447

29.3 Tourism andWater Harvesting Economy 451

29.4 Conclusion 453

References 453

30 Rainwater Harvesting Policy Issues in the MENA Region: Lessons Learned, Challenges, and

Sustainable Recommendations 457
Muna Yacoub Hindiyeh, Mohammed Matouq, and Saeid Eslamian

30.1 Introduction 457

30.2 Definitions of RWH 457

30.3 Rainwater Harvesting Toward Millennium and Sustainable Development Goals 458

30.4 Water Administration and Legislation 459

30.5 Policy and Regulatory Approaches to RWH Use 459

30.6 Considerations When Establishing a Municipal Rainwater Harvesting Program 463

30.7 Regulatory Approaches in Other Countries 464

30.8 Challenges and Limitations 469

30.9 Future Recommendations for the MENA Region 470

30.10 Conclusion 470

References 471

Index 475

Handbook of Water Harvesting and Conservation

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      Publisher: John Wiley & Sons Inc
      Publication Date: 13/01/2021
      ISBN13: 9781119478959, 978-1119478959
      ISBN10: 1119478952

      Description

      Book Synopsis

      Water harvesting is gaining more and more recognition as a sustainable and resilient water supply options. It is economically viable, socially compatible and environmentally friendly. Water harvesting has proven to be a robust solution to overcome or reduce water shortages all over the world. It is important to understand how to apply this practice in a sustainable and effective way to make full use of its potential in a world increasingly threatened by water scarcity.

      The Handbook of Water Harvesting and Conservation: Basic Concepts and Fundamentals is the most comprehensive, up-to-date and applied handbook on water harvesting and conservation yet published. The book's 30 chapters -- written by 84 outstanding international experts from approximately 20 selected countries faced by drought -- explore, critique and develop concepts and systems for water harvesting. The editors bring together many perspectives into a synthesis that is both academically based and practical

      Table of Contents

      List of Contributors xxi

      About the Editors xxvii

      Part A Concepts and Standards for a Secure Water Harvesting 1

      1 Concept and Technology of Rainwater Harvesting 3
      Fayez Abdulla, Cealeen Abdulla, and Saeid Eslamian

      1.1 Introduction 3

      1.2 Concept of Rainwater Harvesting 4

      1.3 Technologies of Rainwater Harvesting 5

      1.4 Advantages and Disadvantages of Rainwater Harvesting 8

      1.5 Feasibility of Rainwater Harvesting across Different Climatic Zones 10

      1.6 Roof Rainwater Harvesting System Components 11

      1.7 Calculation of Potential HarvestedWater 13

      1.8 Water Quality and its Health and Environmental Impacts 14

      1.9 System Operation and Maintenance 14

      1.10 Conclusion 15

      References 15

      2 Rainwater Harvesting: Recent Developments and Contemporary Measures 17
      Aline Pires Veról, Marcelo Gomes Miguez, Elaine Garrido Vazquez, Fernanda Rocha Thomaz, Bruna Peres Battemarco, and Assed Naked Haddad

      2.1 Introduction 17

      2.2 Water Resource Management 18

      2.3 Water Management at the Building Scale 25

      2.4 Analysis of Payback of Rainwater Harvesting Systems 34

      2.5 Conclusion 35

      Acknowledgment 35

      References 36

      3 Standards for Rainwater Catchment Design 39
      Sisuru Sendanayake and Saeid Eslamian

      3.1 Introduction 39

      3.2 Catchment Surface 40

      3.3 Conveyance System 42

      3.4 Storage Tank 44

      3.5 Pre-treatment of Roof Collection 53

      3.6 Distribution System and Related Regulations 54

      3.7 Conclusion 54

      References 55

      4 Water Security Using Rainwater Harvesting 57
      Adebayo Eludoyin, Oyenike Eludoyin, Tanimola Martins, Mayowa Oyinloye, and Saeid Eslamian

      4.1 Introduction 57

      4.2 Concept of Rainwater Harvesting 57

      4.3 Rainwater Collection Systems 58

      4.4 Rainwater Storage 61

      4.5 Importance of Rainwater Harvesting 61

      4.6 Quality Assessment of Harvested Rainwater 64

      4.7 Problems Associated with Rainwater Harvesting 64

      4.8 Conclusion 65

      References 65

      Part B Water Harvesting Resources 69

      5 Single-Family Home and Building Rainwater Harvesting Systems 71
      Duygu Erten

      5.1 Introduction 71

      5.2 Historical Development of RWH and Utilization 71

      5.3 Pros and Cons of RWH Systems 72

      5.4 Current Practices Around theWorld 78

      5.5 Health Risks of Roof-Collected Rainwater 78

      5.6 Guides, Policy, and Incentives 79

      5.7 Green Building Certification Systems and RWH 82

      5.8 Conclusion 84

      References 85

      6 Water Harvesting in Farmlands 87
      Elena Bresci and Giulio Castelli

      6.1 Introduction 87

      6.2 Water Harvesting: Definitions 87

      6.3 Floodwater Harvesting in Farmlands 88

      6.4 Macro-CatchmentWater Harvesting in Farmlands 91

      6.5 Micro-CatchmentWater Harvesting in Farmlands 94

      6.6 RooftopWater Harvesting in Farmlands 95

      6.7 Water Harvesting and Fertilization 96

      6.8 Conclusions and Future Perspectives 96

      References 97

      7 Rainwater Harvesting for Livestock 101
      Billy Kniffen

      7.1 Introduction 101

      7.2 Rainfall Harvesting on the Land 101

      7.3 AnimalWater Requirements 102

      7.4 Harvested Rainfall as a Source for Livestock 103

      7.5 Requirements for Harvesting Rainwater for Livestock 104

      7.6 Distribution ofWater for Livestock 107

      7.7 Rainwater System Maintenance 107

      7.8 Conclusion 107

      References 108

      8 Road Water Harvesting 109
      Negin Sadeghi and Saeid Eslamian

      8.1 Introduction 109

      8.2 Water Harvesting Systems and Their Characteristics 110

      8.3 RoadWater Harvesting 113

      8.4 Conclusion 123

      References 124

      Part C Hydroinformatic and Water Harvesting 127

      9 Application of RS and GIS for Locating Rainwater Harvesting Structure Systems 129
      Dhruvesh Patel, Dipak R. Samal, Cristina Prieto, and Saeid Eslamian

      9.1 Introduction 129

      9.2 Experimental Site 131

      9.3 Methodology 131

      9.4 Results and Discussions 137

      9.5 Conclusion 141

      References 142

      10 Information Technology in Water Harvesting 145
      S. Sreenath Kashyap, M.V.V. Prasad Kantipudi, Saeid Eslamian, Maryam Ghashghaie, Nicolas R. Dalezios, Ioannis Faraslis, and Kaveh Ostad-Ali-Askari

      10.1 Introduction 145

      10.2 Water Harvesting Methods 145

      10.3 The Internet of Things (IoT) 147

      10.4 Assessing the Available Subsurface Resources Using the IoT 148

      10.5 The IoT Devices for Efficient Agricultural/Irrigation Usage 150

      10.6 Conclusions 151

      References 151

      11 Global Satellite-Based Precipitation Products 153
      Zhong Liu, Dana Ostrenga, Andrey Savtchenko, William Teng, Bruce Vollmer, Jennifer Wei, and David Meyer

      11.1 Introduction 153

      11.2 Precipitation Measurements from Space 154

      11.3 Overview of NASA Satellite-Based Global Precipitation Products and Ancillary Products at GES DISC 155

      11.4 Data Services 159

      11.5 Examples 163

      11.6 Conclusion 171

      Acknowledgments 172

      References 172

      12 Risk Analysis of Water Harvesting Systems 177
      Maria Do Céu Almeida, Nelson Carriço, João Santos and Saeid Eslamian

      12.1 Introduction 177

      12.2 Concepts and Terminology 177

      12.3 General Approaches to Risk Management Applicable to RWHS 177

      12.4 Supporting Risk Management for RWHS 181

      12.5 Hazards and Exposure Modes 182

      12.6 Rainwater Collection Reliability asWater Source 183

      12.7 Specific Risk Treatment Actions 185

      12.8 Process Control and Monitoring 186

      12.9 Conclusion 187

      References 187

      Part D Hydrological Aspects of Water Harvesting 191

      13 Return Period Determination for Rainwater Harvesting System Design 193
      Sandeep Samantaray, Dillip K. Ghose, and Saeid Eslamian

      13.1 Introduction 193

      13.2 Study Area 194

      13.3 Overview of Rainwater Harvesting 197

      13.4 Methodology 198

      13.5 Results and Discussions 201

      13.6 Conclusions 203

      References 203

      14 Rainwater Harvesting Impact on Urban Groundwater 207
      A. Jebamalar, R. Sudharsanan, G. Ravikumar, and Saeid Eslamian

      14.1 Introduction 207

      14.2 State of the Art 208

      14.3 Study Area and Data Collection 209

      14.4 Methodology 213

      14.5 Temporal Analysis of Groundwater Level 214

      14.6 Spatial Analysis of Groundwater Table 215

      14.7 Impact of RWH on Groundwater Recharge 215

      14.8 Model Simulations for Impact of RWH Systems 217

      14.9 Model Predictions for the Future 218

      14.10 Conclusion 222

      Acknowledgement 223

      References 223

      15 Effects of Water Harvesting Techniques on Sedimentation 225
      Siavash Fasihi, and Saeid Eslamian

      15.1 Introduction 225

      15.2 Qualitative Effects and Data Collection 226

      15.3 Sedimentation in Small Check Dams 228

      15.4 Revised Universal Soil Loss Equation (RUSLE) 229

      15.5 Limburg Soil Erosion Model (LISEM) 235

      15.6 Conclusion 238

      References 238

      Part E Hydrometeorological Water Harvesting 243

      16 Principles and Applications of Atmospheric Water Harvesting 245
      Mousa Maleki, Saeid Eslamian, and Boutaghane Hamouda

      16.1 Introduction 245

      16.2 AtmosphericWater Harvesting Necessity 245

      16.3 Methods of AtmosphericWater Harvesting 246

      16.4 Energy Requirements of AMH andWater Production Costs 247

      16.5 Atmospheric Vapor Harvesting Systems 248

      16.6 Conclusion 256

      References 257

      17 Dew Harvesting on High Emissive Natural and Artificial Passive Surfaces 261
      Jose Francisco Maestre-Valero, Bernardo Martin-Gorriz, Victoriano Martínez-Alvarez, and Saeid Eslamian

      17.1 Introduction 261

      17.2 Passive Surfaces for the Case Studies 262

      17.3 Data Collection 264

      17.4 Case Studies for Dew Collection 265

      17.5 Dew Modeling 267

      17.6 Conclusion 270

      Acknowledgments 271

      References 271

      18 Atmospheric Water Harvesting Using Waste Energy from Landfills and Oilfields 273
      Enakshi Wikramanayake, Onur Ozkan, Aritra Kar, and Vaibhav Bahadur

      18.1 Introduction 273

      18.2 Refrigeration-Based AtmosphericWater Harvesting Systems 275

      18.3 ModelingWaste Natural Gas-Based AtmosphericWater Harvesting 276

      18.4 Landfill Gas-Based AtmosphericWater Harvesting 277

      18.5 Oilfield Gas-Based AtmosphericWater Harvesting 283

      18.6 Sensitivity of theWater Harvest to Various Parameters 284

      18.7 Comparison of AWH to Other Techniques for ProducingWater 285

      18.8 Perspectives on AtmosphericWater Harvesting 285

      18.9 Conclusions 286

      Acknowledgements 286

      References 286

      Part F Environmental Aspects of Water Harvesting 289

      19 Treatment Techniques in Water Harvesting 291
      Brandon Reyneke, Monique Waso, Thando Ndlovu, Tanya Clements, Sehaam Khan, and Wesaal Khan

      19.1 Introduction 291

      19.2 Pretreatment of Harvested Rainwater: Prevention of Debris Entry and Sedimentation 292

      19.3 Chemical Disinfection 293

      19.4 Physical Disinfection 295

      19.5 Biological Treatment 298

      19.6 Conclusion 300

      References 301

      20 Water Recycling from Palm Oil Mill Effluent 307
      Hossein Farraji, Irvan Dahlan, and Saeid Eslamian

      20.1 Introduction 307

      20.2 Problem Statement 307

      20.3 Palm Oil Production 308

      20.4 POME as an Agro-IndustryWastewater 308

      20.5 Characteristics of POME 308

      20.6 POME Treatment Methods 312

      20.7 Water Recycling by Membrane Technique 313

      20.8 Application of the SBR in POME Treatment 314

      20.9 Discussions 316

      20.10 Conclusion 316

      References 316

      Part G Green Water Harvesting 321

      21 Vegetation Advantages for Water and Soil Conservation 323
      Hadis Salehi Gahrizsangi, Saeid Eslamian, Nicolas R. Dalezios, Anna Blanta, and Mohadaseh Madadi

      21.1 Introduction 323

      21.2 Background 323

      21.3 Vegetation Advantage for Soil andWater Conservation in Artificial Plots 329

      21.4 Conclusions 334

      References 335

      22 Water Harvesting in Forests: An Important Step in Water-Food-Energy Nexus 337
      Rina Kumari and Saeid Eslamian

      22.1 Introduction 337

      22.2 GlobalWater Scarcity 337

      22.3 Change in Land Use-Land Cover and its Impact on Forest andWater Resources 339

      22.4 Forest Hydrology 339

      22.5 Rainwater Harvesting in Forests 343

      22.6 Deforestation and its Impact 345

      22.7 Forest Management andWatershed Development 346

      22.8 Knowledge Gaps 347

      22.9 Forests andWater in International Agreements 348

      22.10 Role of Geospatial Technologies 348

      22.11 Managing the Climate-Water-Forest Nexus for Sustainable Development 349

      22.12 Case Studies 350

      22.12.1 CombatingWater Scarcity in Latin America 350

      22.12.2 Amazon River 350

      22.12.3 Case Study of Southeast Asia 350

      22.13 Conclusions 350

      References 351

      23 Rainwater and Green Roofs 355
      Sara Nazif, Seyed Ghasem Razavi, Pouria Soleimani, and Saeid Eslamian

      23.1 Introduction 355

      23.2 Green Roof Components 355

      23.3 Green Roof Types 358

      23.4 Green Roof Irrigation 359

      23.5 Green Roof Standards 359

      23.6 Green Roofs for Rainwater Collection and Storage 360

      23.7 Green Roof Effect on Runoff Quality 363

      23.8 Other Functions of Green Roofs 364

      23.9 Cost and Benefit Analysis of Green Roofs 367

      23.10 Conclusion 369

      References 369

      24 Green Landscaping and Plant Production with Water Harvesting Solutions 373
      Saeid Eslamian, Saeideh Parvizi, and Sayed Salman Ghaziaskar

      24.1 Introduction 373

      24.2 Water Harvesting 374

      24.3 Rainwater Harvesting 374

      24.4 The Goals and Benefits of Rainwater Harvesting 376

      24.5 Impact of RWHR on Infiltration and Surface Runoff Processes 376

      24.6 Climate Change and RWH 376

      24.7 Landscape Functions and RWH 377

      24.8 Hydrological Functions and RWH 377

      24.9 Soil Fertility and Biomass Production 378

      24.10 Discussions 380

      24.11 Conclusions 381

      References 381

      Part H Reliable Rainwater Harvesting and Storage Systems 385

      25 Comparing Rainwater Storage Options 387
      Sara Nazif, Hamed Tavakolifar, Hossein Abbasizadeh, and Saeid Eslamian

      25.1 Introduction 387

      25.2 History of Rainwater Harvesting 387

      25.3 Benefits of Rainwater Storage 388

      25.4 Main Rainwater Storage Options 389

      25.5 Comparing Rainwater Storage Options 395

      25.6 Conclusion 398

      References 398

      26 Rainwater Harvesting Storage-Yield-Reliability Relationships 401
      John Ndiritu

      26.1 Introduction 401

      26.2 The Rainwater Harvesting Storage-Yield-Reliability Problem 401

      26.3 Modeling Storage-Yield-Reliability Relationships 402

      26.4 Key Considerations 411

      26.5 Conclusions 412

      References 413

      27 Towards Developing Generalized Equations for Calculating Potential Rainwater Savings 417
      Monzur A. Imteaz, Muhammad Moniruzzaman and, Abdullah Yilmaz

      27.1 Introduction 417

      27.2 State of the Art 418

      27.3 Methodology 419

      27.4 Study Area and Data 420

      27.5 Results 421

      27.6 Conclusions 423

      Acknowledgement 424

      References 424

      Part I Sustainable Water Harvesting and Conservation in a Changing Climate 427

      28 Water Harvesting, Climate Change, and Variability 429
      Jew Das, Manish Kumar Goyal, and N.V. Umamahesh

      28.1 Introduction 429

      28.2 Water Harvesting 431

      28.3 Case Study 437

      28.4 Results and Discussion 439

      28.5 Conclusion 443

      References 444

      29 Water Harvesting and Sustainable Tourism 447
      Neda Torabi Farsani, Homa Moazzen Jamshidi, Mohammad Mortazavi, and Saeid Eslamian

      29.1 Introduction 447

      29.2 Water Management: An Approach to Sustainable Tourism 447

      29.3 Tourism andWater Harvesting Economy 451

      29.4 Conclusion 453

      References 453

      30 Rainwater Harvesting Policy Issues in the MENA Region: Lessons Learned, Challenges, and

      Sustainable Recommendations 457
      Muna Yacoub Hindiyeh, Mohammed Matouq, and Saeid Eslamian

      30.1 Introduction 457

      30.2 Definitions of RWH 457

      30.3 Rainwater Harvesting Toward Millennium and Sustainable Development Goals 458

      30.4 Water Administration and Legislation 459

      30.5 Policy and Regulatory Approaches to RWH Use 459

      30.6 Considerations When Establishing a Municipal Rainwater Harvesting Program 463

      30.7 Regulatory Approaches in Other Countries 464

      30.8 Challenges and Limitations 469

      30.9 Future Recommendations for the MENA Region 470

      30.10 Conclusion 470

      References 471

      Index 475

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