| Description |
1 online resource (315 pages) |
| Contents |
Cover; Half Title; Title Page; Copyright Page; Contents; Preface; Author; 1: Conventional Waste Activated Sludge Process; 1.1 DESCRIPTION OF MAIN UNITS IN THE PROCESS; 1.2 RATIONALE FOR ADVANCED SLUDGE TREATMENT; 1.3 BASIC PRINCIPLES OF ANAEROBIC DIGESTION; 1.3.1 Hydrolytic Bacteria; 1.3.2 Fermentative Bacteria; 1.3.3 Acetogenic Bacteria; 1.3.3.1 Hydrogen-Producing Acetogenic Bacteria; 1.3.3.2 Hydrogen-Consuming Acetogenic Bacteria; 1.3.4 Methanogens; 1.3.5 Protein Degradation; 1.4 THEORETICAL ENERGY ASPECTS OF PRE-TREATMENT; 2: Biological Treatment of Sludge |
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2.1 INTRODUCTION TO THE AB PROCESS FOR MUNICIPAL WASTEWATER2.2 THE HIGH-RATE CONTACT STABILIZATION PROCESS FOR MUNICIPAL WASTEWATER; 2.3 PROCESS CONFIGURATION AND OPERATING CONDITIONS OF A PILOT-SCALE AB PROCESS; 2.4 PERFORMANCE OF THE AB PROCESS; 2.5 PHYSICOCHEMICAL CHARACTERISTICS OF A-STAGE AND B-STAGE SLUDGES; 2.6 BIOCHEMICAL METHANE POTENTIAL OF A-STAGE AND B-STAGE SLUDGES; 2.7 BIOMASS ACTIVITY; 2.8 PHYSICAL PROPERTIES OF SLUDGE BEFORE AND AFTER ANAEROBIC DIGESTION; 2.9 HIGH-RATE ACTIVATED SLUDGE FOLLOWED BY AUTOTROPHIC NITROGEN REMOVAL |
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2.10 ANAEROBIC MEMBRANE BIOREACTOR FOLLOWED BY AUTOTROPHIC NITROGEN REMOVAL2.11 PREDATION OF PROTOZOA AND METAZOA; 2.12 CANNIBAL PROCESS; 3: Biological Treatment of Sludge; 3.1 INTRODUCTION; 3.2 PROCESS CONFIGURATION AND OPERATING CONDITIONS; 3.3 PERFORMANCE OF THE A-STAGE; 3.4 EFFECT OF DISSOLVED OXYGEN ON THE PERFORMANCE OF THE A-STAGE; 3.5 EFFECT OF FE3+ DOSAGE ON THE PERFORMANCE OF THE A-STAGE; 3.6 METHANE POTENTIAL AND CALORIFIC VALUE OF THE A-STAGE SLUDGE; 3.7 ELECTRICITY CONSUMPTION; 3.8 CONCLUSIONS; 4: Thermal/Biological Treatment of Sludge |
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4.1 THERMAL/BIOLOGICAL TREATMENT IN THE RETURN ACTIVATED SLUDGE (RAS) LINE4.2 THERMAL/BIOLOGICAL PRE-TREATMENT BELOW 100°C; 4.3 THERMAL TREATMENT ABOVE 100°C; 4.3.1 Introduction; 4.3.2 Effects of Thermal Treatment on Sludge Solubilization; 4.3.3 Effect of Thermal Treatment on Anaerobic Biodegradability; 4.3.4 Effect of Thermal Treatment on Viscosity, Dewaterability and Foam Control; 4.3.5 Mass Balance of Thermal Hydrolysis; 4.3.6 Energy Balance of Thermal Hydrolysis; 5: Mechanical Treatment of Sludge; 5.1 INTRODUCTION; 5.2 STIRRED BALL MILLING; 5.3 LYSIS-THICKENING CENTRIFUGE |
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5.4 HIGH-PRESSURE HOMOGENIZER5.5 ELECTROKINETIC DISINTEGRATION; 6: Chemical Treatment of Sludge; 6.1 INTRODUCTION; 6.2 ALKALINE PRE-TREATMENT; 6.3 ALKALINE/MECHANICAL PRE-TREATMENT OF SLUDGE; 6.4 ACID PRE-TREATMENT; 6.5 FENTON OXIDATION PRE-TREATMENT; 6.6 OZONE PRE-TREATMENT; 6.6.1 Introduction; 6.6.2 Quantification Units; 6.6.3 Laboratory Set-Up and Conditions; 6.6.3.1 Effective Ozone Dosage; 6.6.3.2 Actual Ozone Dosage; 6.6.4 Effect of Ozone Pre-Treatment on Sludge Solubilization; 6.6.5 Effect of Ozone Pre-Treatment on Anaerobic Biodegradability |
| Notes |
6.6.6 Full-Scale Application of Ozone for Sludge Treatment |
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Print version record |
| Form |
Electronic book
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| ISBN |
9780429795626 |
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0429795629 |
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