Wastewater and Biosolids Management, 2nd Edition.

Format:

Book

Author/Creator:

Kalavrouziotis, Ioannis K.

Language:

English

Subjects (All):

Sewage.

Sewage sludge.

Physical Description:

1 online resource (240 p.) ill

Edition:

1st ed.

Place of Publication:

London : IWA Publishing, 2020.

Summary:

The second edition of Wastewater and Biosolids Management has 40% new material including a comprehensive study guide and one new chapter entitled 'The contribution of Decision Support System (DSS) to the approach of safe wastewater and biosolid reuse'. The study guide contains the title of the chapter, the purpose, the expected results, key concepts, study plan, additional bibliography, and a set of self-assessment exercises and activities.The book covers a wide range of current, new and emerging topics in wastewater and biosolids. It addresses the theoretical and practical aspect of the reuse and looks to advance our knowledge on wastewater reuse and its application in agricultural production. The book aims to present existing modern information about wastewater reuse management based on earlier literature on the one hand and recent research developments, many of which have not so far been implemented into actual practice on the other. It combines the practical and theoretical knowledge about 'wastewater and biosolids management' and in this sense it is useful for researchers, students, academics as well as professionals.

Contents:

Cover

Contents

About the Editor

Preface

A Foreword by Prof. James Oster

A Foreword by Prof. Asher Brenner

A Foreword by Prof. Heidrun Steinmetz

Chapter 1: Wastewater management in ancient times

1.1 INTRODUCTION

1.2 MIDDLE EAST AND INDIA

1.3 CHINA

1.4 AFRICA

1.5 MEDITERRANEAN AREA

1.6 CONCLUSIONS

1.7 REFERENCES

Chapter 2: Wastewater management: introduction to new technologies

2.1 CLIMATE CHANGE EFFECTS ON WASTEWATER TREATMENT

2.2 INNOVATIVE NITROGEN REMOVAL

2.3 PHOSPHOROUS RECOVERY

2.4 THE MEMBRANE BIOREACTOR PROCESS

2.5 ADVANCED OXIDATION PROCESSES (AOPs)

2.6 SLUDGE TREATMENT AND DISPOSAL

2.7 REFERENCES

Chapter 3: Novel biological processes for nutrient removal and energy recovery from wastewater

3.1 INTRODUCTION

3.2 BIOLOGICAL NUTRIENT REMOVAL PROCESSES

3.3 ANAEROBIC TECHNOLOGIES

3.4 CONCLUSIONS

3.5 REFERENCES

Chapter 4: Managing reuse of treated wastewater and bio solids for improved water use, energy generation and environmental control

4.1 INTRODUCTION

4.2 INFORMATION SYSTEM

4.3 REUSE OPTIONS

4.4 BIOGAS PRODUCTION

4.5 THE MBR

4.6 THE MAIN COMPONENTS OF BIOGAS PRODUCTION

4.7 SUMMARY AND CONCLUSIONS

4.7.1 Unit conversion

4.8 REFERENCES

Chapter 5: Removal of pharmaceuticals and personal care products in constructed wetland systems for wastewater treatment and management

5.1 INTRODUCTION

5.2 DESIGN AND TYPES OF CONSTRUCTED WETLANDS

5.3 REMOVAL MECHANISMS OF PPCPs IN CWs

5.4 REMOVAL EFFICIENCIES OF PPCPs IN CONSTRUCTED WETLANDS

5.4.1 Design and operational parameters of CWs on PPCP removal

5.5 FUTURE GAPS AND RECOMMENDATIONS

5.6 ACKNOWLEDGEMENTS

5.7 REFERENCES

Chapter 6 Heavy metal interactions under the effect of the wastewater and sludge reuse in agriculture.

6.1 THE NEED FOR THE STUDY OF ELEMENTAL INTERACTIONS UNDER THE WASTEWATER AND BIOSOLID REUSE IN AGRICULTURE

6.2 THE WASTEWATER REUSE

6.3 ELEMENTAL INTERACTIONS IN SOIL-PLANT SYSTEM

6.3.1 Factors affecting the interactions

6.3.2 The study of the elemental Interactions under the treated municipal wastewater

6.3.3 Elemental Interactions occurring in soil and in plants under wastewater

6.3.3.1 Occurrence of interactions in soil

6.3.3.2 Occurrence of interaction in plants

6.3.4 Quantification of elemental contribution by the elemental interactions

6.3.5 Elemental interactions explaining the positive relation of heavy metals to plant growth

6.4 CONCLUSIONS

6.5 REFERENCES

Chapter 7: Microplastics and synthetic fibers in treated wastewater and sludge

7.1 MICROPLASTICS AND SYNTHETIC FIBERS IN THE ENVIRONMENT

7.2 DEFINITION OF MICROPLASTICS AND SYNTHETIC FIBERS

7.3 WWTP

7.3.1 Sewer systems

7.3.2 WWTP pretreatment

7.3.3 WWTP settling tanks

7.3.4 Treated wastewater

7.3.5 Sludge

7.4 IMPLICATIONS

7.5 CASE STUDIES

7.6 EFFECTIVE CONTROL AND TREATMENT SCHEMES

7.7 WWTPs AS A PRIMARY SOURCE FOR BEACHED MICROPLASTICS

7.8 CONCLUSIONS

7.9 REFERENCES

Chapter 8: Wastewater reuse: uptake of contaminants of emerging concern by crops

8.1 INTRODUCTION

8.2 KEY PHYSICAL-CHEMICAL PROPERTIES OF ORGANIC CONTAMINANTS AFFECTING TO THE UPTAKE

8.3 FACTORS AFFECTING TO BIOAVAILABILITY-BIOACCESIBILITY OF CONTAMINANTS

8.3.1 Water quality

8.3.2 Soil properties

8.3.3 Climate

8.3.4 Irrigation technology

8.4 FATE ORGANIC CONTAMINANTS IN CROPS

8.4.1 Uptake

8.4.2 Translocation

8.4.3 Metabolization

8.4.4 Accumulation

8.5 HUMAN HEALTH &amp

RISK IMPLICATIONS

8.6 SOIL AMENDING STRATEGIES

8.7 GENERAL CONCLUSIONS AND RESEARCH NEEDS

8.8 ACKNOWLEDGMENTS

8.9 REFERENCES.

Chapter 9: Biosolids composting and soil applications

9.1 INTRODUCTION

9.2 BIOSOLIDS REGULATION

9.3 CHARACTERISTICS OF BIOSOLIDS

9.4 APPLICATIONS OF BIOSOLIDS

9.5 COMPOSTING

9.6 BIOSOLIDS IMPACT ASSESSMENT

9.7 CONCLUSIONS

9.8 REFERENCES

Chapter 10: Anaerobic digestion and energy recovery from wastewater sludge

10.1 PRODUCTION AND CHARACTERISTICS OF WASTEWATER SLUDGE

10.1.1 Primary sludge

10.1.2 Secondary (biological) sludge

10.1.3 Treatment and disposal of sludge

10.2 ANAEROBIC DIGESTION OF WASTEWATER SLUDGE

10.3 MULTI STAGE AND TEMPERATURE PHASED ANAEROBIC PROCESS

10.4 PRE-TREATMENT OF SLUDGE FOR ENHANCED ANAEROBIC DIGESTION

10.5 ANAEROBIC DIGESTION OF SLUDGE AND OTHER SUBSTRATES (CO-DIGESTION)

10.6 NOVEL SHORT-CUT TREATMENT OF SLUDGE REJECT WATER FOR NUTRIENT AND CARBON MANAGEMENT

10.7 REFERENCES

Chapter 11: Advanced oxidation processes for wastewater treatment

11.1 INTRODUCTION

11.2 THE ROLE OF THE WATER MATRIX

11.3 ENHANCEMENT OF PROCESS PERFORMANCE

11.3.1 Coupling of AOPs

11.3.2 How can selectivity be improved?

11.3.3 New or improved materials

11.3.3.1 Heterogeneous semiconductor photocatalysis

11.3.3.2 Anodic oxidation

11.4 PERSPECTIVES AND RECOMMENDATIONS

11.5 REFERENCES

Chapter 12: Existence of organic micropollutants in the environment due to wastewater reuse and biosolids application

12.1 INTRODUCTION

12.2 OCCURRENCE OF ORGANIC MICROPOLLUTANTS IN TREATED WASTEWATER AND BIOSOLIDS

12.3 FATE OF ORGANIC MICROPOLLUTANTS DURING WASTEWATER REUSE AND BIOSOLIDS APPLICATION

12.4 ENVIRONMENTAL THREAT FOR THE AQUATIC AND TERRESTRIAL ENVIRONMENT DUE TO THE OCCURRENCE OF ORGANIC MICROPOLLUTANTS

12.5 REGULATORY FRAMEWORK ON THE OCCURRENCE OF ORGANIC MICROPOLLUTANTS IN TREATED WASTEWATER AND BIOSOLIDS

12.6 REFERENCES.

Chapter 13: The contribution of Decision Support System (DSS) to the approach of the safe wastewater and biosolid reuse

13.1 INTRODUCTION

13.2 A PROPOSED DSS

13.3 EXAMPLES

13.3.1 Example with high nutrient input

13.3.2 Example with low nutrient input

13.3.3 Observations and conclusions from the examples

13.4 CONCLUSIONS

13.5 REFERENCES

Index.

Notes:

Description based on publisher supplied metadata and other sources.

ISBN:

9781523162338

1523162333

9781789061666

1789061660

OCLC:

1200687225