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100   $a20090720d2010      uy         0
101 0 $aeng
135   $aur|n|---|||||
181   $ctxt
182   $cc
183   $acr
200 10$aPotential of activated sludge utilization /$fXiaoyi Yang
205   $a1st ed.
210   $aNew York $cNova Science Publishers$dc2010
215   $a1 online resource (64 p.)
225 1 $aEnvironmental science, engineering and technology series
300   $aDescription based upon print version of record.
311 08$a1-60876-019-7 
320   $aIncludes bibliographical references and index.
327   $aIntro -- 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.
330   $aAs the lack of fossil fuel is increasing, sludge management is not only to satisfy the disposal criteria but also to obtain energy and resources. This book explains biogas outputs in waste sludge treatment.
410  0$aEnvironmental science, engineering and technology series.
606   $aDigester gas
606   $aGas as fuel
606   $aSewage sludge fuel
606   $aSewage$xPurification$xAnaerobic treatment
615  0$aDigester gas.
615  0$aGas as fuel.
615  0$aSewage sludge fuel.
615  0$aSewage$xPurification$xAnaerobic treatment.
676   $a628.3/54
700   $aYang$b Xiaoyi$01868097
801  0$bMiAaPQ
801  1$bMiAaPQ
801  2$bMiAaPQ
906   $aBOOK
912   $a9910958583603321
996   $aPotential of activated sludge utilization$94475923
997   $aUNINA