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Table of Contents
Intro
Book_5159_C000
Half Title
Title Page
Copyright Page
Contents
Preface
Contributing Authors
Book_5159_C001
Chapter 1 : Introduction
1.1 Principle and Definition of Electro-Coagulation
1.2 Electro-Coagulation Process: Emerging Technology for Water and Wastewater Treatment
1.3 Electro-Coagulation Process: Green and Clean Electrochemical Technology
1.4 Integration into Water/Wastewater Treatment Plants or Application for Decentralized Sanitation
1.4.1 Electro-Coagulation Used as Primary Physicochemical Treatment
1.4.2 Electro-Coagulation Used as Secondary Treatment
1.4.3 Electro-Coagulation Used as Tertiary Treatment
1.5 Principle and Definition of Electro-Oxidation
1.5.1 Direct Effect of Electro-Oxidation
1.5.2 Indirect Effect of Electro-Oxidation
1.6 Integration of Electro-Oxidation into Water/Wastewater Treatment Plants or Application for Decentralized Sanitation
1.6.1 Electro-Oxidation Used as Pretreatment
1.6.2 Electro-Oxidation Used as Tertiary Treatment
1.7 Summary
References
Book_5159_C002
Chapter 2 : Electro-Coagulation Process: Origins and Principles
2.1 Introduction
2.2 Fundamentals of Electro-Coagulation for Water and Wastewater Treatment
2.2.1 Reactor Design
2.2.2 Monopolar and Bipolar Configurations
2.2.3 Production of Coagulation Agents
2.3 Experimental Features
2.3.1 Current Density and Energetic Parameters
2.3.2 Power Supply Type
2.3.3 Effect of Anodic and Cathode Materials
2.3.4 Influence of Operation Parameters
2.4 Advantages and Disadvantages of Electro-Coagulation
2.4.1 Advantages
2.4.2 Disadvantages
2.5 Future Research Work
2.6 Summary
References
Book_5159_C003
CHAPTER 3 : Electro-Oxidation Process: Origins and Principles
3.1 Introduction
3.2 Fundamentals of Electro-Oxidation for Water and Wastewater Treatment
3.2.1 Electrochemical Reactor Principle and Reaction Mechanism
3.2.2 Poisoning Effect
3.2.3 By-Products
3.3 Direct Anodic Oxidation
3.4 Indirect Electrochemical Oxidation
3.5 Challenges and Future Research Work
3.6 Summary
References
Book_5159_C004
CHAPTER 4 : Mathematical Modeling of Electro-Coagulation Process
4.1 Introduction
4.2 Critical Factors to be Considered in Electro-Coagulation Modeling
4.3 Different Modeling Techniques Available for Electro-Coagulation
4.4 Mathematical Modeling of Electro-Coagulation Using Artificial Neural Networks
4.5 Important Elements of Electro-Coagulation Modeling by Artificial Neural Network
4.5.1 Topology of Artificial Neural Networks
4.5.2 Learning Process of a Model
4.5.3 Training Algorithm
4.5.4 Optimization of Neural Network Model
4.6 Essential Elements of Statistical Modeling by Response Surface Methodology
Book_5159_C000
Half Title
Title Page
Copyright Page
Contents
Preface
Contributing Authors
Book_5159_C001
Chapter 1 : Introduction
1.1 Principle and Definition of Electro-Coagulation
1.2 Electro-Coagulation Process: Emerging Technology for Water and Wastewater Treatment
1.3 Electro-Coagulation Process: Green and Clean Electrochemical Technology
1.4 Integration into Water/Wastewater Treatment Plants or Application for Decentralized Sanitation
1.4.1 Electro-Coagulation Used as Primary Physicochemical Treatment
1.4.2 Electro-Coagulation Used as Secondary Treatment
1.4.3 Electro-Coagulation Used as Tertiary Treatment
1.5 Principle and Definition of Electro-Oxidation
1.5.1 Direct Effect of Electro-Oxidation
1.5.2 Indirect Effect of Electro-Oxidation
1.6 Integration of Electro-Oxidation into Water/Wastewater Treatment Plants or Application for Decentralized Sanitation
1.6.1 Electro-Oxidation Used as Pretreatment
1.6.2 Electro-Oxidation Used as Tertiary Treatment
1.7 Summary
References
Book_5159_C002
Chapter 2 : Electro-Coagulation Process: Origins and Principles
2.1 Introduction
2.2 Fundamentals of Electro-Coagulation for Water and Wastewater Treatment
2.2.1 Reactor Design
2.2.2 Monopolar and Bipolar Configurations
2.2.3 Production of Coagulation Agents
2.3 Experimental Features
2.3.1 Current Density and Energetic Parameters
2.3.2 Power Supply Type
2.3.3 Effect of Anodic and Cathode Materials
2.3.4 Influence of Operation Parameters
2.4 Advantages and Disadvantages of Electro-Coagulation
2.4.1 Advantages
2.4.2 Disadvantages
2.5 Future Research Work
2.6 Summary
References
Book_5159_C003
CHAPTER 3 : Electro-Oxidation Process: Origins and Principles
3.1 Introduction
3.2 Fundamentals of Electro-Oxidation for Water and Wastewater Treatment
3.2.1 Electrochemical Reactor Principle and Reaction Mechanism
3.2.2 Poisoning Effect
3.2.3 By-Products
3.3 Direct Anodic Oxidation
3.4 Indirect Electrochemical Oxidation
3.5 Challenges and Future Research Work
3.6 Summary
References
Book_5159_C004
CHAPTER 4 : Mathematical Modeling of Electro-Coagulation Process
4.1 Introduction
4.2 Critical Factors to be Considered in Electro-Coagulation Modeling
4.3 Different Modeling Techniques Available for Electro-Coagulation
4.4 Mathematical Modeling of Electro-Coagulation Using Artificial Neural Networks
4.5 Important Elements of Electro-Coagulation Modeling by Artificial Neural Network
4.5.1 Topology of Artificial Neural Networks
4.5.2 Learning Process of a Model
4.5.3 Training Algorithm
4.5.4 Optimization of Neural Network Model
4.6 Essential Elements of Statistical Modeling by Response Surface Methodology