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Potential of Activated Sludge Utilization.

By: Material type: TextTextSeries: Environmental Science, Engineering and TechnologyPublisher: Hauppauge : Nova Science Publishers, Incorporated, 2009Copyright date: ©2010Edition: 1st edDescription: 1 online resource (64 pages)Content type:
  • text
Media type:
  • computer
Carrier type:
  • online resource
ISBN:
  • 9781617287770
Subject(s): Genre/Form: Additional physical formats: Print version:: Potential of Activated Sludge UtilizationDDC classification:
  • 628.3/54
LOC classification:
  • TD769.4 -- .Y36 2010eb
Online resources:
Contents:
Intro -- POTENTIAL OF ACTIVATEDSLUDGE UTILIZATION -- POTENTIAL OF ACTIVATED SLUDGE UTILIZATION -- CONTENTS -- PREFACE -- 1. INTRODUCTION -- 1.1. DISPOSAL REQUIREMENTS -- 1.2. RECENT SLUDGE DISPOSAL -- 1.3. PROGRESS IN THE RESEARCH OF MUNICIPAL WASTESLUDGE MANAGEMENT -- 1.3.1. Rational Application and Science Strategy -- Perfecting and Executing Standard of Pollutants Control -- Removal Heavy Metals -- 1.3.2. Reducing Sludge Output -- REFERENCES -- 2. POTENTIAL OF ANAEROBICSLUDGE DIGESTION -- 2.1. EFFECTS OF SLUDGE CHARACTERISTICS ON ANAEROBICDIGESTION -- 2.1.1. Nutrient Contents -- 2.1.2. Inhibition Contents -- 1. Heavy Metals -- 2. Sulphide -- 2.2. PRETREATMENT FOR ENHANCED ANAEROBICDIGESTION -- 2.2.1. Mechanical Pretreatment -- 2.2.2. Chemical Pretreatment -- 2.2.3. Thermal Pretreatment -- 2.2.4. Ultrasound Pretreatment -- 2.2.5. Advanced Oxidation Pretreatment -- 2.3. THERMAL PRETREATMENT KINETICS -- 2.3.1. Kinetic Model -- 2.3.2. The Two-stage First-order Reaction Kinetic Model -- 2.3.3. Generalized Kinetic Model -- 2.4. ENERGY OUTPUT POTENTIAL -- ABBREVIATIONS -- REFERENCES -- 3. POTENTIAL OF SLUDGE PYROLYSIS -- 3.1. PRINCIPLES -- 3.2. AFFECTING PARAMETERS -- 3.2.1. Temperature -- 3.2.2. Gas Residence Time -- 3.2.3. Heating Rate and Feed Size -- 3.2.4. Sludge Type -- 3.3. PYROLYSIS PRODUCTS -- 3.3.1. Oil -- 3.3.2. Char -- 3.3.3. Non-condensable Gas -- 3.4. PRETREATMENT FOR SLUDGE PYROLYSIS -- 3.4.1. Acid and Base Pre-treatment -- 3.4.2. Catalyst -- 3.5. SLUDGE PYROLYSIS KINETICS -- 3.5.1. Overview -- 3.5.2. Thermal Decomposition Behavior of Sewage Sludge -- 3.5.3. Pyrolysis Kinetics Model -- 1. Traditional Pyrolysis Model -- 2. Lorentz Fitting-multi-heating Method Model -- REFERENCES -- INDEX.
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Intro -- POTENTIAL OF ACTIVATEDSLUDGE UTILIZATION -- POTENTIAL OF ACTIVATED SLUDGE UTILIZATION -- CONTENTS -- PREFACE -- 1. INTRODUCTION -- 1.1. DISPOSAL REQUIREMENTS -- 1.2. RECENT SLUDGE DISPOSAL -- 1.3. PROGRESS IN THE RESEARCH OF MUNICIPAL WASTESLUDGE MANAGEMENT -- 1.3.1. Rational Application and Science Strategy -- Perfecting and Executing Standard of Pollutants Control -- Removal Heavy Metals -- 1.3.2. Reducing Sludge Output -- REFERENCES -- 2. POTENTIAL OF ANAEROBICSLUDGE DIGESTION -- 2.1. EFFECTS OF SLUDGE CHARACTERISTICS ON ANAEROBICDIGESTION -- 2.1.1. Nutrient Contents -- 2.1.2. Inhibition Contents -- 1. Heavy Metals -- 2. Sulphide -- 2.2. PRETREATMENT FOR ENHANCED ANAEROBICDIGESTION -- 2.2.1. Mechanical Pretreatment -- 2.2.2. Chemical Pretreatment -- 2.2.3. Thermal Pretreatment -- 2.2.4. Ultrasound Pretreatment -- 2.2.5. Advanced Oxidation Pretreatment -- 2.3. THERMAL PRETREATMENT KINETICS -- 2.3.1. Kinetic Model -- 2.3.2. The Two-stage First-order Reaction Kinetic Model -- 2.3.3. Generalized Kinetic Model -- 2.4. ENERGY OUTPUT POTENTIAL -- ABBREVIATIONS -- REFERENCES -- 3. POTENTIAL OF SLUDGE PYROLYSIS -- 3.1. PRINCIPLES -- 3.2. AFFECTING PARAMETERS -- 3.2.1. Temperature -- 3.2.2. Gas Residence Time -- 3.2.3. Heating Rate and Feed Size -- 3.2.4. Sludge Type -- 3.3. PYROLYSIS PRODUCTS -- 3.3.1. Oil -- 3.3.2. Char -- 3.3.3. Non-condensable Gas -- 3.4. PRETREATMENT FOR SLUDGE PYROLYSIS -- 3.4.1. Acid and Base Pre-treatment -- 3.4.2. Catalyst -- 3.5. SLUDGE PYROLYSIS KINETICS -- 3.5.1. Overview -- 3.5.2. Thermal Decomposition Behavior of Sewage Sludge -- 3.5.3. Pyrolysis Kinetics Model -- 1. Traditional Pyrolysis Model -- 2. Lorentz Fitting-multi-heating Method Model -- REFERENCES -- INDEX.

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Electronic reproduction. Ann Arbor, Michigan : ProQuest Ebook Central, 2024. Available via World Wide Web. Access may be limited to ProQuest Ebook Central affiliated libraries.

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