This book covers the fundamentals, current assessment, and future directions of electrochemical remediation, a volume in high demand from researchers and practitioners alike. It provides an overview of available electrochemical remediation technologies, modeling, regulatory considerations, and field studies. Case studies highlight the field equipment, their installation procedures, and performance monitoring requirements. This title serves as a valuable resource to all environmental engineers, scientists, regulators and policy makers to consider electrochemical technologies as potential candidate technologies to remediate contaminated sites.

Krishna R. Reddy is Professor of Civil and Environmental Engineering at the University of Illinois at Chicago (UIC). Dr. Reddy received his PhD in Civil Engineering from the Illinois Institute of Technology, Chicago. He received gold medals for being first in his class of BS (Civil Engineering) at Osmania University and MS (Civil Engineering) at the Indian Institute of Technology, Roorkee. His teaching and research expertise includes remediation of contaminated sites, waste containment systems, and beneficial reuse of waste/recycled materials. His research contributed to the understanding of fundamental geochemical processes and development of integrated electrochemical technologies to remediate contaminant mixtures. He is the coauthor of Geoenvironmental Engineering: Site Remediation, Waste Containment, and Emerging Waste Management Technologies, also published by Wiley.

Claudio Cameselle is Associate Professor in the Department of Chemical Engineering at the University of Vigo, Spain. He received his undergraduate degree and his PhD in chemistry at the University of Santiago de Compostela, Spain. He then moved to the University of Vigo, where he has been working as a faculty member for the last fourteen years. He spent a sabbatical year as visiting professor at the University of Illinois at Chicago in 2008. His teaching activities are in the areas of chemical engineering and environmental engineering. In recent years, his research activity has focused on the development of electrokinetic remediation for the treatment of soils and sludges polluted with heavy metals and organics.

PREFACE.
CONTRIBUTORS.
PART I Introduction and Basic Principles.
1 Overview of Electrochemical Remediation Technologies (Krishna R. Reddy and Claudio Cameselle).
References.
2 Electrochemical Transport and Transformations (Sibel Pamukcu).
References.
3 Geochemical Processes Affecting Electrochemical Remediation (Albert T. Yeung).
References.
PART II Remediation of Heavy Metals and Other Inorganic Pollutants.
4 Electrokinetic Removal of Heavy Metals (Lisbeth M. Ottosen, Henrik K. Hansen, and Pernille E. Jensen).
References.
5 Electrokinetic Removal of Radionuclides (Vladimir A. Korolev).
References.
6 Electrokinetic Removal of Nitrate and Fluoride (Kitae Baek and Jung-Seok Yang).
References.
7 Electrokinetic Treatment of Contaminated Marine Sediments (Giorgia De Gioannis, Aldo Muntoni, Alessandra Polettini, and Raffaella Pomi).
References.
8 Electrokinetic Stabilization of Chromium (VI)-Contaminated Soils (Laurence Hopkinson, Andrew Cundy, David Faulkner, Anne Hansen, and Ross Pollock).
Acknowledgments.
References.
PART III Remediation of Organic Pollutants.
9 Electrokinetic Removal of PAHs (Ji-Won Yang and You-Jin Lee).
References.
10 Electrokinetic Removal of Chlorinated Organic Compounds (Xiaohua Lu and Songhu Yuan).
References.
11 Electrokinetic Transport of Chlorinated Organic Pesticides (Ahmet Karagunduz).
References.
12 Electrokinetic Removal of Herbicides from Soils (Alexandra B. Ribeiro and Eduardo P. Mateus).
Acknowledgments.
References.
13 Electrokinetic Removal of Energetic Compounds (David A. Kessler, Charles P. Marsh and Sean Morefield).
References.
PART IV Remediation of Mixed Contaminants.
14 Electrokinetic Remediation of Mixed Metal Contaminants (Kyoung-Woong Kim, Keun-Young Lee and Soon-Oh Kim).
References.
15 Electrokinetic Remediation of Mixed Metals and Organic Contaminants (Maria Elektorowicz).
References.
PART V Electrokinetic Barriers.
16 Electrokinetic Barriers for Preventing Groundwater Pollution (Rod Lynch).
Acknowledgments.
References.
17 Electrokinetic Biofences (Reinout Lageman and Wiebe Pool).
Reference.
PART VI Integrated (Coupled) Technologies.
18 Coupling Electrokinetics to the Bioremediation of Organic Contaminants: Principles and Fundamental Interactions (Lukas Y. Wick).
Acknowledgments.
References.
19 Coupled Electrokinetic-Bioremediation: Applied Aspects (Svenja T. Lohner, Andreas Tiehm, Simon A. Jackman, and Penny Carter).
Processes.
Acknowledgments.
References.
20 Influence of Coupled Electrokinetic-Phytoremediation on Soil Remediation.
M.C. Lobo Bedmar, A. Pérez-Sanz, M.J. Martínez-Iñigo, and A. Plaza Benito.
References.
21 Electrokinetic-Chemical Oxidation/Reduction (Gordon C. C. Yang).
References.
22 Electrosynthesis of Oxidants and Their Electrokinetic Distribution (W. Wesner, Andrea Diamant, B. Schrammel, and M. Unterberger).
References.
23 Coupled Electrokinetic-Permeable Reactive Barriers (Chih-Huang Weng).
References.
24 Coupled Electrokinetic-Thermal Desorption (Gregory J. Smith).
References.
PART VII Mathematical Modeling.
25 Electrokinetic Modeling of Heavy Metals (José Miguel Rodríguez-Maroto and Carlos Vereda-Alonso).
Notation.
References.
26 Electrokinetic Barriers: Modeling and Validation (R. Sri Ranjan).
Acknowledgments.
References.
PART VIII Economic and Regulatory Considerations.
27 Cost Estimates for Electrokinetic Remediation (Christopher J. Athmer).
References.
28 Regulatory Aspects of Implementing Electrokinetic Remediation (Randy A. Parker).
References.
PART IX Field Applications and Performance Assessment.
29 Field Applications of Electrokinetic Remediation of Soils Contaminated with Heavy Metals (Anshy Oonnittan, Mika Sillanpaa, Claudio Cameselle, and Krishna R. Reddy).
References.
30 Field Studies: Organic-Contaminated Soil Remediation with Lasagna Technology (Christopher J. Athmer and Sa V. Ho).
References.
31 Coupled Electrokinetic PRB for Remediation of Metals in Groundwater (Ha Ik Chung and MyungHo Lee).
References.
32 Field Studies on Sediment Remediation (J. Kenneth Wittle, Sibel Pamukcu, Dave Bowman, Lawrence M. Zanko and Falk Doering).
Reference.
33 Experiences With Field Applications of Electrokinetic Remediation (Reinout Lageman and Wiebe Pool).
INDEX.