Preface | |
Contents | |
Incineration of Waste and the Environment | p. 1 |
Factors that Control the Quality of Municipals Solid Waste Incineration Residues | p. 19 |
Glass and Glass-Ceramics from Incinerator Fly Ash | p. 33 |
Reuse Perspectives of Incineration Flue Gas Residues Following NaHCO[subscript 3] or Ca(OH)[subscript 2] Injection | p. 45 |
Characterisation of Cr, Pb and Zn in Municipal Waste Incinerator Ashes by Microscopic and Spectroscopic Methods | p. 55 |
Physical Property and pH Dependency of Solubility Test about Plasma Molten Slag from Fly Ash | p. 67 |
A Geochemical Perspective on the Factors that Control Long-Term Emissions from Municipal Solid Waste Incinerator Residues | p. 77 |
The Use of Soluble Phosphates to Stabilize Heavy Metals in Fly Ash | p. 87 |
Gas Generation at a Municipal Waste Combustor Ash Monofill - Franklin, New Hampshire | p. 97 |
Pilot and Full Scale Washing of Incinerator Bottom Ash | p. 111 |
Valorisation of MSW Incineration Residues in Belgium: A Developing Market | p. 125 |
Mechanism and Kinetics of the Weathering of MSWI Bottom Ash Glass | p. 137 |
Municipal Solid Waste Incinerator Residues: Phase Composition and Distribution of Organic and Inorganic Pollutants Between the Output Streams | p. 147 |
InRcc[superscript plus] - The Next Step in Waste Incineration Ash Recycling | p. 159 |
Trapping of Chloride, Sulfate and Heavy Metals | p. 173 |
Treatment of APC Residues from MSW Incinerators | p. 185 |
Process Integrated Carbonation of Bottom Ashes | p. 195 |
Environmental Impacts of Waste Utilisation: Development of Risk-Related Limit Values for Leaching of Contaminants in Regulatory Testing | p. 205 |
A Physical Evaluation of Municipal Solid Waste Grate Ash as an Aggregate Substitute in Asphaltic Concrete | p. 215 |
MSW Bottom Ash - Experiences in The Netherlands | p. 227 |
Municipal Solid Waste Incineration (MSWI) Bottom Ash: Characteristics and the Use in Road Construction | p. 235 |
Volume Stability of Hydraulic Bound MSWI Ash | p. 247 |
MSWI Plants: Sustainable Quarries | p. 259 |
Unprocessed and Processed Incinerator Bottom Ash as a Cement Bound Material | p. 267 |
Closing the Loop | p. 279 |
Swelling Pressure Test of Cement-Treatment MSWI Bottom Ash in Triaxial Cell | p. 289 |
The Use of Incinerator Ash for Making Lightweight Bricks | p. 299 |
The Long-Term Performance of Untreated Bottom Ash, and the Production and Use of a Lightweight Synthetic Aggregate from the Bottom Ash Fine Fraction | p. 305 |
Ash Reutilization Research at the University of Connecticut | p. 317 |
MSW Combustor Ash Utilization in Marine and Terrestrial Systems | p. 331 |
Precast Concrete Products Produced using Incinerator Bottom Ash | p. 341 |
Resonant Shock Compaction: Ash-Based Construction Blocks | p. 355 |
Utilization of Municipal Solid Waste Fly Ash as Innovative Civil Engineering Materials | p. 369 |
Solidification/Stabilization of Textile Sludge with Portland Cement and Bottom Ash- | p. 381 |
The Science and Politics of Using Stabilised Waste Materials in the Marine Environment | p. 393 |
Properties of Calcined Paper Sludge | p. 405 |
Sustainable Waste Management - Studies on the Use of Sewage Sludge Ash in the Construction Industry as Concrete Material | p. 415 |
The use of the Statistical Entropy to Evaluate the Utilisation of Incinerator Ashes for the Production of Cement | p. 427 |
Reuse of Cement-Based S/S MSWI Fly Ash for Landfill Disposal: Modelling for Long Term Environmental Impact Prediction | p. 437 |
Use of Incinerator Fly Ash as a Pozzolanic Activator | p. 447 |
An Electrical Conductivity Method for Measuring Transport Properties of Stabilized Wastes | p. 457 |
Reuse of Incinerator Ash - Current and Future Trends | p. 467 |
Index of Authors | p. 479 |
Subject Index | p. 481 |
Table of Contents provided by Blackwell. All Rights Reserved. |