Description |
1 online resource : illustrations |
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text txt rdacontent |
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computer c rdamedia |
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online resource cr rdacarrier |
Bibliography |
Includes bibliographical references and index. |
Note |
Online resource; title from PDF title page (EBSCO, viewed June 11, 2018). |
Contents |
Intro; Title page; Table of Contents; Copyright; Contributors; Preface; Editors Biography; I: Historical Developments and Fundamentals; Chapter 1: Electroreduction; Abstract; Introduction; Materials; Reactors and Reaction Schemes; Conclusions and Perspectives; Chapter 2: Electrochemical Conversion of CO2 to Value-Added Products; Abstract; Introduction; Electrochemical CO2 Reduction to Formate/Formic Acid; Electrochemical CO2 Reduction to Methanol; Conclusions; Chapter 3: Electrocoagulation: Fundamentals and Prospectives; Abstract; Coagulation Versus Electrocoagulation. |
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Electrocoagulation FundamentalsThe Faraday Law and Its Importance in Electrocoagulation; Superfaradic Efficiency; Predominant Chemical Species Distribution in Aqueous Solution During Electrocoagulation Process; Coupled Electrocoagulation-Ozone; Future Perspectives; Chapter 4: Electroflotation; Abstract; Introduction and Historical Background; Fundamentals; Engineering Aspects; Water and Wastewater Treatment by Electroflotation; Cost Analysis; Concluding Remarks and Perspectives; Chapter 5: Electrocatalysis in Wastewater Treatment; Abstract; Acknowledgments. |
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Fundamentals of the Electrochemical OxidationRecent Mechanism Advances; Mineralization of Organics by Molecular Oxygen; New Approaches for Electrochemical Oxidation; Advantages and Disadvantages of the EO Approach; Concluding Remarks; Chapter 6: Indirect Electrochemical Oxidation Using Hydroxyl Radical, Active Chlorine, and Peroxodisulfate; Abstract; Acknowledgments; Introduction; Reactive Oxygen Species; Ozone; Hydrogen Peroxide; Hydroxyl Radicals; Active Chlorine; Peroxo-Compounds; Conclusion; Chapter 7: Indirect Electrochemical Oxidation by Using Ozone, Hydrogen Peroxide, and Ferrate. |
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AbstractAcknowledgments; Production of Oxidants in the Anode During the Electrolysis of Water; Improvement of Treatment Efficiency With Cathodic Processes; Ozone Oxidation; Hydrogen Peroxide; Ferrates; New Applications of Oxidants Electrochemically Generated for Treating Wastewaters; Concluding Remarks; Chapter 8: Electro-Fenton Process: Background, New Developments, and Applications; Abstract; Introduction; Principles and Fundamentals of the EF Process; Effect of Operating Parameters; Application of EF Process to Removal of Organic Micropollutants; Recent Developments in EF Process. |
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Heterogeneous EFBioelectro-Fenton (Bio-EF); Concluding Remarks and Perspectives; Chapter 9: Photo and Solar Fenton Processes for Wastewater Treatment; Abstract; Acknowledgment; Introduction; Principles and fundamentals of the photoelectro-Fenton process; Conclusions; Chapter 10: Photo-Electrochemical Technologies for Removing Organic Compounds in Wastewater; Abstract; Introduction; Fundamentals of Photoelectrocatalysis; Photo-Anode Type; Photo-Assisted Electrochemical Treatments; Production of Oxidants by PEC; Effect of the Nature of the Cathode; Effect of pH. |
Subject |
Water -- Purification.
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Sewage -- Purification.
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Electrochemistry.
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Water Purification |
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Electrochemistry |
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Eau -- Épuration.
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Eaux usées -- Épuration.
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Électrochimie.
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TECHNOLOGY & ENGINEERING -- Environmental -- General.
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Electrochemistry
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Sewage -- Purification
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Water -- Purification
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Added Author |
Martínez-Huitle, Carlos A., editor.
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Rodrigo, Manuel A., editor.
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Scialdone, Onofrio, editor.
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Other Form: |
Print version: Electrochemical water and wastewater treatment. Oxford : Butterworth-Heinemann, an imprint of Elsevier, [2018] 0128131608 9780128131602 (OCoLC)1011518187 |
ISBN |
9780128131619 (electronic bk.) |
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0128131616 (electronic bk.) |
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9780128131602 |
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0128131608 |
Standard No. |
AU@ 000063542282 |
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UKMGB 018870102 |
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