UID:
almafu_9960073846902883
Umfang:
1 online resource (xix, 126 pages) :
,
illustrations (some color)
Ausgabe:
2nd ed.
ISBN:
9780124200500
,
0124200508
Serie:
Gale eBooks
Inhalt:
Combustion Ash and Residue Management gives engineers in both Coal-Fired and Waste-to-Energy Plants the information they need to use the residues from the combustion process for beneficial purposes, or dispose of it safely. This unique book is an essential reference for anybody responsible for disposal and/or utilization of combustion residues. It reflects over thirty years of engineering practice, applying the principles of concrete chemistry and Civil Engineering/Soil Mechanics as confirmed by field data. Dr. Richard Goodwin assesses the composition and environmental impact of comb
Anmerkung:
Description based upon print version of record.
,
Front Cover; Combustion Ash Residue Management: An Engineering Perspective; Copyright; Dedication; Contents; About the Author; Preface; Notice; Chapter 1 - Fundamental Concepts; 1.1. INTRODUCTION; 1.2. TYPES OF ASHES; 1.3. EFFECT OF AIR POLLUTION CONTROL UPON RESIDUE GENERATION RATES; 1.4. IN-PLANT ASH HANDLING; REFERENCES; FURTHER READING; Chapter 2 - Governmental Regulations; 2.1. INTRODUCTION; 2.2. PRIOR PROPOSED LEGISLATION; 2.3. CURRENT FEDERAL REGULATION OF MUNICIPAL WASTE COMBUSTION RESIDUES; 2.4. STATE REGULATION OF MUNICIPAL WASTE COMBUSTION RESIDUES
,
2.5. STATE REGULATION OF COAL COMBUSTION RESIDUES2.6. REGULATORY PROSPECT FOR BENEFICIAL USE; REFERENCES; Chapter 3 - Regulatory Testing; 3.1. INTRODUCTION; 3.2. REGULATORY HEAVY METAL LABORATORY LEACHATE TEST RESULTS (OLDER SYSTEMS); 3.3. POZZOLANIC CHARACTERISTIC ANALOGIES-CHEMICAL COMPOSITION; 3.4. POZZOLANIC EFFECT-OPERATING RESULTS; 3.5. SAMPLE PREPARATION REFLECTING INHERENT POZZOLANIC BEHAVIOR; REFERENCES; Chapter 4 - Disposal Considerations; 4.1. INTRODUCTION; 4.2. OPTIMAL DISPOSAL SITE MANAGEMENT FOR MWC RESIDUES; 4.3. COMPACTION REDUCES ASH DISPOSAL REQUIREMENTS
,
4.4. ATTAINING LINER-LIKE PERMEABILITIES4.5. HEAVY METAL REDUCTION DUE TO POZZOLANIC ENCAPSULATION; 4.6. FIELD MONITORING; 4.7. INCREASED STRENGTH AND REDUCED HEAVY METAL LAB LEACHATE; REFERENCES; Chapter 5 - Operating Disposal Project Results; 5.1. INTRODUCTION; 5.2. SITE DESCRIPTION; 5.3. UPSET INCIDENT; 5.4. TENNESSEE VALLEY AUTHORITY COAL COMBUSTION RESIDUE DIKE FAILURE; 5.5. TVA IMPLEMENTED LEAST COST RETROFIT TO DIKE-LEADING TO ITS ULTIMATE FAILURE; 5.6. MEDIA AND PUBLIC FUROR; 5.7. IMPLICATIONS-MORE STRINGENT REGULATORY CONTROL; 5.8. DISCUSSION; REFERENCES; FURTHER READING
,
Chapter 6 - Utilization Methodology-MWC Residues6.1. INTRODUCTION; 6.2. GENERAL ECONOMICS-DISPOSAL VS BENEFICIAL USE; 6.3. GENERAL UTILIZATION APPROACH; 6.4. ANALOGOUS CHEMICAL COMPARISON; 6.5. PRIORITIZATION OF POTENTIAL UTILIZATION MODES; 6.6. SPECIFIC UTILIZATION MODES; 6.7. BY-PRODUCT UTILIZATION CONCEPT-ECONOMICS; 6.8. IMPLEMENTATION OF MWC ASH BENEFICIAL USE; REFERENCES; FURTHER READING; Chapter 7 - Combustion Residue Reuse Concepts and Projects; 7.1. USING POWER PLANT WASTE TO SOLVE THEIR DISPOSAL PROBLEMS
,
7.2. PHYSICAL PROPERTIES OF FGD RESIDUE AND FLY ASH-RETROFITTING SURFACE IMPOUNDMENTS AS GROUT TO STRENGTHEN DIKE WALLS7.3. RESIDUE MANAGEMENT-PLACEMENT-LANDFILL METHODOLOGY; 7.4. DEMONSTRATION PROGRAM-LANDFILL AND SURFACE IMPOUNDMENT EMBANKMENTS; 7.5. BENEFICIAL USE OF COMBUSTION RESIDUE ENHANCES SITING OF POWER PLANTS; 7.6. BENEFICIAL USE OF DREDGED SOLIDS-STRUCTURAL FILL BROWNFIELDS; 7.7. BENEFICIAL USE OF COMBUSTION RESIDUE-MINE RECLAMATION; FURTHER READING; Chapter 8 - Coal Combustion Residue Disposal Options; 8.1. PREFACE-ENGINEERING APPROACH; 8.2. COMPOSITION-POZZOLANIC CHEMISTRY
,
8.3. BLENDING OF FGD RESIDUE WITH FLY ASH-USE AS LINER AND EMBANKMENT
,
English
Weitere Ausg.:
ISBN 9780124200388
Weitere Ausg.:
ISBN 0124200389
Sprache:
Englisch
Bookmarklink
