Wastewater Treatment Using Green Synthesis 1st Edition by Swapnila Roy, Tien Anh Tran, Zaira Zaman Chowdhury, Prathibha BS ISBN 9781032379661 1032379669

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ISBN 10: 1032379669
ISBN 13: 9781032379661
Author: Swapnila Roy, Tien Anh Tran, Zaira Zaman Chowdhury, Prathibha BS

Wastewater Treatment Using Green Synthesis 1st Edition Table of contents:

Chapter 1 Bioremediation of Toxic Pollutants

1.1 Introduction

1.1.1 Bioremediation

1.2 Dyes

1.2.1 Classification of Synthetic Dyes

1.3 Bioremediation of Dyes

1.3.1 By the Use of Bacteria

1.3.2 By the Use of Fungi

1.3.3 By the Use of Algae

1.3.4 By the Use of Yeast

1.3.5 By the Use of Enzymes

1.4 Heavy Metals

1.5 Heavy Metal Bioremediation

1.5.1 By the Use of Bacteria

1.5.2 By the Use of Fungi

1.5.3 By the Use of Algae

1.6 Organic Pollutants

1.7 Bioremediation of Organic Pollutants

1.7.1 By the Use of Bacteria

1.7.2 By the Use of Algae

1.8 Microplastics

1.9 Microplastics Bioremediation

1.9.1 By the Use of Bacteria

1.9.2 By the Use of Fungi

1.9.3 By the Use of Algae

1.9.4 Role of Enzymes

1.10 Bioremediation of Pharmaceutical Waste

1.11 Advantages and Limitations

1.12 Conclusion

Acknowledgments

References

Chapter 2 Green Synthesis of Iron Oxide Nanoparticles and Its Application in Water Treatment

2.1 Introduction

2.2 Various Green Technology for Synthesis of Iron Oxide Nanoparticles

2.2.1 Green Synthesis of IONPs Using Fungal Biomass

2.2.2 Green Synthesis of IONPs Using Algal Biomass

2.2.3 Green Synthesis of IONPs Using Bacteria

2.2.4 Green Synthesis of IONPs Using Plant Species

2.3 Applications of Iron Oxide Nanoparticles for Water Treatment

2.3.1 Iron Oxide Nanoparticles as Adsorbent for Heavy Metals

2.3.2 Iron Oxide Nanoparticles as Adsorbent for Organic Contaminants

2.3.3 Iron Oxide Nanoparticles as Photo-Catalyst

2.4 Challenges and Future Perspective of Using Iron Oxide Nanoparticles

2.5 Conclusion

Acknowledgments

References

Chapter 3 TiO2 Doped Lignocellulosic Biopolymer for Water Treatment: Waste to Wealth – A Pathway Towards Circular Economy

3.1 Introduction

3.2 Synthesis of TiO2/Cellulose and its Derivatives Based Composites for Wastewater Purification

3.2.1 TiO2 Coating over the Cellulosic Filaments

3.2.2 Cellulose Derived Carbon as Support Matrix of TiO2

3.2.3 Porous TiO2 Based Composites Using Cellulosic Filament as Sacrificial Templates

3.3 Synthesis of TiO2/Carbon and its Derivatives Based Composites for Wastewater Purification

3.4 Photocatalytic Degradation Performance by TiO2 Doped Cellulosic Matrix for Water Treatment

3.5 Photocatalytic Degradation Performance by TiO2 Doped Carbonaceous Substrate for Water Treatment

3.6 Recent Roadmap, Challenges and Future Perspective of TiO2 Doped Biopolymer Composites

3.7 Conclusion

Acknowledgments

References

Chapter 4 Electrospun Nanofibre/Composite Membrane for Water Treatment

4.1 Introduction

4.2 Basic Principle for Electrospun Membrane Fabrication for Water Treatment

4.3 Types of Electrospun Membrane Fabrication Process

4.3.1 Fabrication of Tri-Axial Electrospun Fibres for Water Filtration Membrane

4.3.2 Fabrication of Co-Axial Electrospun Fibres for Water Filtration Membrane

4.3.3 Fabrication of Electrospun Fibres for Water Filtration Membrane by Coupling of Electrospinning with Electro-Spraying

4.3.4 Fabrication of Electrospun Fibres for Water Filtration Membrane Using Melt Phase Splitting and Dispersion

4.4 Application of Electrospun Nanofibre and Its Composites for Pressure Driven Membrane Filtration Unit for Water Treatment

4.4.1 Reverse Osmosis (RO)

4.4.2 Nanofiltration (NF)

4.4.3 Ultrafiltration (UF)

4.4.4 Microfiltration (MF)

4.5 The Drawbacks of Utilising Electrospun Nanofibre and its Composites Wastewater Filtration/Treatment

4.6 Conclusion

Acknowledgments

References

Chapter 5 Green Nanotechnology in Wastewater Treatment

5.1 Introduction

5.2 Nanomaterials in Green Context

5.3 Why Plant Extracts Are More Promising Than Organisms

5.4 Types of Nanomaterials Used in Wastewater Treatment

5.4.1 Metal-Based Nanomaterials

5.4.2 Nanocatalyst

5.4.3 Magnetic NPs

5.4.4 Nano Membranes

5.5 Wastewater Treatment by Green NPs

5.5.1 Filtration Technique

5.5.2 Pollutant Adsorption by NPs

5.5.3 Organic Compounds Removal by NPs

5.5.4 Heavy Metal and Ions Removal by NPs

5.6 Future Plan

5.7 Summary

References

Chapter 6 Integration of Microbial Treatment for Advanced Biological Treatment of Wastewater

6.1 Introduction

6.2 Implications of Treating Wastewater in Present Scenario

6.3 Multiple Streams of Wastewater from the Industrial Sector

6.3.1 Battery Industry

6.3.2 Electrical Power Plant

6.3.3 Nuclear Power Plant

6.3.4 Textile Industry

6.3.5 Pulp and Paper Industry

6.3.6 Leather Industry

6.3.7 Agricultural Industry

6.3.8 Pharmaceutical Industry

6.3.9 Oil Mill Industry

6.3.10 Organic Chemical Production Industries

6.3.11 Petroleum and Petro-Chemical Industries

6.3.12 Mines Industry

6.3.13 Dairy Industry

6.3.14 Steel and Iron Industry

6.3.15 Food Industry

6.4 The Hybrid Mechanism of Microalgal/Bacterial Approach towards the Purification of Wastewater

6.5 The Advantages and Disadvantages of the Hybrid Approach Using Microalgal/Bacterial Treatment for Wastewater Purification

6.6 Conclusion

Acknowledgments

References

Chapter 7 A Comprehensive Analysis on Bio-Reactor Design and Assessment Biological Pre-Treatment of Industrial Wastewater

7.1 Introduction

7.2 History for Development of MBR Technology

7.3 Types of Configuration/Design in MBR

7.4 Types of Membrane Bioreactor

7.4.1 MBR with Aerobic Stirred Reactor

7.4.2 MBR with Anaerobic Stirred Reactor

7.4.3 MBR with Fluidized Bed Reactor

7.4.4 MBR with Semi-Fluidized Bed Reactor

7.4.5 MBR with DSFF Reactor

7.4.6 MBR with Inverse Fluidization Bed Reactor

7.5 Conclusion

Acknowledgments

References

Chapter 8 De-Ballasting Water Treatment Technology to Protect the Sea-Ocean Environment from Ships at the Western Australian Ports

8.1 Introduction

8.2 Literature Review

8.2.1 BWM

8.2.2 The Ballast Water Treatment Technologies

8.2.3 Recent Works Related to the Ballast Water Treatment

8.2.4 Wastewater Treatment Technology

8.3 Case Study: Western Australia Ports

8.4 Concluding Remarks

Acknowledgments

References

Chapter 9 Phytoremediation of Hg and Cd Particulates Using Scenedesmus and Nostoc on Industrial Wastes

9.1 Introduction

9.1.1 Macrophytes

9.1.2 Scenedesmus

9.1.3 Nostoc

9.2 Toxicity of Heavy Metals

9.2.1 Mercury

9.2.2 Cadmium

9.3 Conclusion

References

Chapter 10 Employment of Phytal Mediated Metallic Nanoparticles for the Effective Remediation of Wastewater Particulates

10.1 Introduction

10.1.1 Nanoparticle Synthesis and Wastewater Treatment

10.2 Green Synthesis of Nanoparticles

10.3 Conclusion

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Tags: Swapnila Roy, Tien Anh Tran, Zaira Zaman Chowdhury, Prathibha BS, Wastewater Treatment