Enhanced Electrochemical Advanced Oxidation Processes for Wastewater Sludge Stabilization and Reuse

Gagik Badalians Gholikandi, Ph.D. (Editor)
Shahid Beheshti University, A.C., Tehran, Iran

Series: Waste and Waste Management
BISAC: TEC010020

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$192.00

Volume 10

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Special issue: Resilience in breaking the cycle of children’s environmental health disparities
Edited by I Leslie Rubin, Robert J Geller, Abby Mutic, Benjamin A Gitterman, Nathan Mutic, Wayne Garfinkel, Claire D Coles, Kurt Martinuzzi, and Joav Merrick

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The growing quantities of waste sludge generated in municipal and industrial wastewater treatment plants containing various organics and other contaminants require novel treatment technologies that are capable of achieving significant removal efficiencies and producing reusable sludge products.

As a response, a large variety of advanced oxidation processes (AOPs) have been investigated to remove the present contaminants from wastewaters and limited cases of waste sludge. Multidisciplinary researches have been carried out accordingly. In this regard, electrochemical advanced oxidation processes (EAOPs) have emerged as novel environmental-friendly and effective treatment technologies for the elimination of several organic contaminants. Considerable validation of these methods has been performed at both the bench-scale and pilot-scale. Although a promising new technology, the mechanisms involved in the oxidation of organic compounds during electrochemical advanced oxidation processes and the corresponding environmental impacts have not been completely addressed until now.

This book aims at the electrochemical advanced oxidation processes occurrence from different points of view, describing its related technologies, providing an assessment of the development and efficiency, and highlighting various aspects of waste activated sludge stabilization and reuse accordingly in five chapters. In the first chapter a brief review to waste sludge stabilization and reuse has been presented. The second chapter provides an overview to advanced oxidation processes. The third chapter describes the various electrochemical advanced oxidation methods. Chapter four presents and discusses the own experimental investigations results employing the Fered-Fenton EAOP. The modeling of the own experimental studies results by means of Taguchi method and artificial neural networks has been performed in the fifth chapter.

The main goal of this book is to gather different updated viewpoints according to the electrochemical advanced oxidation processes and to provide the own experimental studies results accordingly in order to present students, researchers, engineers and managers with useful knowledge in this regard. (Imprint: Nova)

Preface

Chapter 1 - Waste Sludge Stabilization and Reuse (pp. 1-30)
Gagik Badalians Gholikandi and Hamed Rasouli Sadabad (Faculty of Water Engineering and Environment, Shahid Beheshti University, A.C., Tehran, Iran)

Chapter 2 - Advanced Oxidation Processes (AOPs): An Overview (pp. 31-56)
Gagik Badalians Gholikandi and Mina Nili Ardakani (Faculty of Water Engineering and Environment, Shahid Beheshti University, A.C., Tehran, Iran)

Chapter 3 - Electrochemical Advanced Oxidation Processes Based on Fenton's Reaction (pp. 57-94)
Gagik Badalians Gholikandi and Hamidreza Masihi (Faculty of Water Engineering and Environment, Shahid Beheshti University, A.C., Tehran, Iran)

Chapter 4 - Waste Activated Sludge Stabilization and Reuse Employing Fered-Fenton Technology (pp. 95-124)
Gagik Badalians Gholikandi, Shafieh Karami, Mina Nili Ardakani and Hamidreza Masihi (Faculty of Water Engineering and Environment, Shahid Beheshti University, A.C., Tehran, Iran)

Chapter 5 - Sludge Stabilization and Reuse Employing Fered-Fenton Technology: An Investigative View to Applications of Artificial Neural Networks Modeling and Taguchi Method (pp. 125-160)
Gagik Badalians Gholikandi, Mohammad Azimipour and Hamidreza Masihi (Faculty of Water Engineering and Environment, Shahid Beheshti University, A.C., Tehran, Iran)

Index

Audience: University Professors, students, researchers, consulting engineers, politicians and wastewater professionals.

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