| Description |
1 online resource |
| Series |
Waste and waste management |
| Contents |
ENHANCED ELECTROCHEMICAL ADVANCED OXIDATION PROCESSES FOR WASTEWATER SLUDGE STABILIZATION AND REUSE; ENHANCED ELECTROCHEMICAL ADVANCED OXIDATION PROCESSES FOR WASTEWATER SLUDGE STABILIZATION AND REUSE; Library of Congress Cataloging-in-Publication Data; Contents; Preface; Chapter 1: Waste Sludge Stabilization and Reuse; Introduction; Water Content (Moisture); Metals; Organic Substances; Nutrients; Biological Community; Waste sludge Stabilization Methods; Aerobic Digestion; Lime Stabilization; Composting; Thermal Processes; Sludge Reuse and Disposal Methods |
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Waste Sludge As a Source of Advantageous MaterialsWastewater Sludge As a Source of Energy; References; Chapter 2: Advanced Oxidation Processes (AOPs): An Overview; Faculty of Water Engineering and Environment, Shahid Beheshti University, A.C., Tehran, Iran; Introduction; Fenton Processes; Photo-assisted Fenton (Photo-Fenton) Processes; Photo Ferrioxalate/H2O2 (Fe3+-chelate/H2O2); Activated Persulfate Oxidation; Semiconductor Photocatalysis; Ozonation (pH>8); O3/H2O2 (Peroxone Process); UV/H2O2 (H2O2 Photolysis); O3/UV (Photolytic Ozonation); O3/H2O2/UV; References |
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Chapter 3: Electrochemical Advanced Oxidation Processes Based on Fenton's ReactionIntroduction; 1. Instantaneous Current Efficiency (ICE); 2. Electrochemical Oxidation Index (EOI); 3. Electrochemical Oxygen Demand (EOD); 4. General Current Efficiency (GCE); 5. Space -- Time Yield (YST); 6. Energy-related Parameters; Various Electrochemical Advanced Oxidation Processes; 1. Electro-Fenton (EF) Process; 2. Fered -- Fenton Process; 3. Electrochemical Peroxidation Process (ECP); 4. Plasma Assisted Fenton Process; References |
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Chapter 4: Waste Activated Sludge Stabilization and Reuse Employing Fered-Fenton TechnologyIntroduction; Experimental Investigations; 1. First Experimental Stage; The Comparison between Fenton and Fered-Fenton Process; 2. Second Experimental Stage; The Trend of the Electrical Energy Consumption; 3. Third Experimental Stage; References; Chapter 5: Sludge Stabilization and Reuse Employing Fered-Fenton Technology: An Investigative View to Applications of Artificial Neural Networks Modeling and Taguchi Method |
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Faculty of Water Engineering and Environment, Shahid Beheshti University, A.C., Tehran, IranIntroduction; Artificial Neural Network (ANN); Taguchi Method; Applications of the Modeling Relating to Wastewater Treatment and Waste Sludge Stabilization; Results of the Fered-Fenton Experiments Modeling; Artificial Neural Networks Modeling MLP; Artificial Neural Networks Model KSOFM; Taguchi Method; [Fe]/[H2O2]; pH Value; H2O2 Concentration; Current Density; ANOVA Analysis; A Comparison of the Investigated Modeling Approaches |
| Summary |
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 |
| Notes |
Includes index |
|
Description based on print version record |
| Subject |
Sewage -- Purification -- Ion exchange process.
|
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Electrolytic oxidation -- Industrial applications
|
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Electrochemistry, Industrial.
|
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Sewage sludge -- Recycling
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TECHNOLOGY & ENGINEERING -- Environmental -- General.
|
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Electrochemistry, Industrial
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Sewage -- Purification -- Ion exchange process
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Sewage sludge -- Recycling
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| Form |
Electronic book
|
| Author |
Gholikandi, Gagik Badalians
|
| LC no. |
2019713674 |
| ISBN |
9781634820905 |
|
1634820908 |
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