Nanotechnologies for Water Environment Applications

Zhiqiang Hu (Redaktør) ; Tian Cheng Zhang (Redaktør) ; Rao Y. Surampalli (Redaktør) ; R.D. Tyagi (Redaktør) ; Keith C. K. Lai (Redaktør) ; Irene M. C. Lo (Redaktør)

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Nanotechnologies, 'the engine of the next Industrial Revolution', represent the new wave of research for chemical and industrial innovation. However, with any new technology or compound, comes the threat of harm to humans and natural ecosystems. Research into the environmental effects, as well as the ethical, legal, and social implications of nanotechnologies and nanoproducts has never been more important. ""Nanotechnologies for Water Environment Applications"" provides the current status of synthesis and characterization of nanomaterials, as well as the environmental effects of nanotechnology. This publication specifically targets the major applications of nanotechnologies in various water environments; issues related to the fate and transport of nanomaterials in aquatic environments; engineered nanomaterials as emerging contaminants in water; the environmental risks, and related management, of nanomaterials. Extensive up-to-date references are provided. This book will be useful to undergraduate and graduate students of engineering, educators, scientists, engineers, government officers, decision makers, process managers, and practicing professionals.

FAKTA: Utgitt: 2009
Forlag: American Society of Civil Engineers
Innbinding: Paperback
Språk: Engelsk
ISBN: 9780784410301

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FAKTA: Utgitt: 2009
Forlag: American Society of Civil Engineers
Innbinding: Paperback
Språk: Engelsk
ISBN: 9780784410301

KATEGORIER:

Bla i alle kategorier

VURDERING: Gi vurdering
Les vurderinger

Chapter 1 Introduction

1.1 Background

1.2 Past, Present, and Future

1.3 Environmental Applications

1.4 Implications of Nanotechnology and Research Needs

1.5 Summary

1.6 References

Chapter 2 Synthesis of Nanoparticles and One-Dimensional Nanomaterials

2.1 Introduction

2.2 Nanoparticles

2.3 One-Dimensional Nanomaterials

2.4 Conclusions

2.5 References

Chapter 3 Nanotechnostructured Catalysts TiO2 Nanoparticles for Water Purification

3.1 Background of TiO2 as a Semiconductor Photocatalyst

3.2 Photocatalytic Mechanism, General Pathways, and Kinetics

3.3 Intrinsic Photocatalytic Activity

3.4 Reaction Variables

3.5 Photocatalytic Degradation of Specific Waterborne Pollutants

3.6 Conclusions

3.7 References

Chapter 4 Nanoparticles for Treatment of Chlorinated Organic Contaminants

4.1 Introduction

4.2 Overview of Chlorinated Organic Solvents

4.3 Biodegradation of Chlorinated Organic Solvents

4.4 Nanoscale Zero-Valence Iron (NZVI)

100

4.5 Application of Other Nanoscale Metallic Particles in Chlorinated Organic Compound Degradation

108

4.6 Conclusions

111

4.7 References

111

Chapter 5 Nanoparticles for Treatment of Arsenic

116

5.1 Introduction

116

5.2 Environmental Chemistry of Arsenic

117

5.3 Treatment of Arsenic Using Nanocrystalline TiO2

119

5.4 Treatment of Arsenic Using Nanoparticles Other Than TiO2

132

5.5 References

133

Chapter 6 Nanoparticles as Sorbents for Removal of Heavy Metal Ions from Aqueous Solutions

137

6.1 Introduction

137

6.2 Iron-Based Nanoparticles for Removal of Heavy Metal Ions

142

6.3 Polymeric Nanoparticles for Removal of Heavy Metal Ions

148

6.4 Conclusions

153

6.5 References

154

Chapter 7 Bimetallic Nanoparticles

159

7.1 Introduction

159

7.2 Micro-Sized Bimetallic Particles

162

7.3 Bimetallic Nanoparticles

169

7.4 Conclusions

184

7.5 References

184

Chapter 8 Challenges in Groundwater Remediation with Iron Nanoparticles: Enabling Colloidal Stability

191

8.1 Introduction

191

8.2 Current Status of nZVI Surface Modification

192

8.3 Surface Modification with Amphiphilic Polysiloxane Graft Copolymers

198

8.4 Conclusions

206

8.5 Acknowledgements

206

8.6 References

206

Chapter 9 Iron-Based Magnetic Nanoparticles for Removal of Heavy Metals from Electroplating and Metal-Finishing Wastewater

213

9.1 Introduction

213

9.2 Applications of Magnetic Nanoparticles on Environmental Pollution Control

215

9.3 Laboratory Production of Magnetic Nanoparticles

218

9.4 Nanoparticles Characterizations

223

9.5 Batch Kinetics and Equilibrium Adsorption Studies

235

9.6 Conclusions

263

9.7 References

264

Chapter 10 Nanoscale Carbon Materials for Contaminant Separation

269

10.1 Introduction

269

10.2 Properties and Potential Applications

274

10.3 Carbon Nanotubes and Fullerenes for Contaminant Separation

277

10.4 Adsorptive Removal on Mesoporous Carbon

297

10.5 Other Nanoscale Carbons

300

10.6 Perspectives of Nanoscale Carbon

301

10.7 References

302

Chapter 11 Nanoscale Porous Materials for Water Treatment: Advances and Challenges

312

11.1 Introduction

312

11.2 Nanoscale Porous Materials

313

11.3 Fate/Transport of Nanoscale Porous Materials in Porous Media

349

11.4 Discussion

351

11.5 Conclusions and Perspectives

352

11.6 Abbreviation

353

11.7 References

354

Chapter 12 Nanomembranes

367

12.1 Introduction

367

12.2 Nanomembranes in Drinking Water Treatment

368

12.3 Nanomembranes in Water Reclamation and Reuse

385

12.4 Nanomembranes in Seawater Desalination

396

12.5 Future of Nanomembranes in Water Beneficiation

403

12.6 References

403

Chapter 13 Nanosensors

412

13.1 Introduction

412

13.2 Characteristics of Sensors for the Water Industry

416

13.3 Working Mechanisms and Types of Sensors

417

13.4 Fabrication and Synthesis of Micro- and Nano-Scale Materials

421

13.5 Detection Limit as Key Parameter for Pathogens in Water

422

13.6 Labeling Approaches

423

13.7 Signaling Methods

427

13.8 Magnetic Particle Based Immunoassays for the Detection of Pathogens: Commercial Devices

428

13.9 Label-Free Detection

430

13.10 Sample Processing

433

13.11 Market Trends

434

13.12 Conclusions

435

13.13 Acknowledgements

436

13.14 References

436

Chapter 14 Nanomaterials for Environmental Burden Reduction, Waste Treatment, and Non-Point Source Pollution Control

444

14.1 Introduction

444

14.2 Environmental Burden Reduction

445

14.3 Treatment of Industrial and Agricultural Wastes

455

14.4 Nanomaterials for Non-Point Source Pollution Control

459

14.5 Summary

462

14.6 References

462

Chapter 15 Fate and Transport of Nanomaterials in Aquatic Environments

474

15.1 Introduction

474

15.2 Mass Balance Equations and Transport Processes

477

15.3 Interphase Transfer Processes

497

15.4 Transformation Processes

503

15.5 NM-Induced Characteristics, Interactions and Behaviors

523

15.6 Conclusions

543

15.7 References

545

Chapter 16 Engineered Nanomaterials as Emerging Contaminants in Water

558

16.1 Introduction

558

16.2 What Are Emerging Contaminants

559

16.3 Classification of Nanomaterials

561

16.4 Sources, Detection and Fate of Engineered Nanomaterials in Aquatic Systems

562

16.5 Stability of Nanomaterials in Aquatic Systems

570

16.6 Examples of NM Fate in Engineered and Natural Systems

572

16.7 Conclusions

580

16.8 Acknowledgements

581

16.9 References

582

Chapter 17 Environmental Risks of Nanomaterials

591

17.1 Introduction

591

17.2 Routes of NMs into the Water Environment

592

17.3 Hazardous Effects of NMs on Human and Animal Health

595

17.4 Risk Management

600

17.5 Conclusions

609

17.6 References

610

Editor Biographies

619

Index

623