Environmental Aspects of Construction with Waste Materials : Proceedings of the Second International Conference on Environmental Implications of Construction Materials and Technology Developments, WASCON 94, Maastricht, The Netherlands, 1-3 June 1994
, by Goumans, J. J. J. M.; Sloot, H. A. Van Der; Aalber, Th. G.Note: Supplemental materials are not guaranteed with Rental or Used book purchases.
- ISBN: 9780444818539 | 0444818537
- Cover: Hardcover
- Copyright: 5/1/1994
The concept of Sustainable Development, implicating the protection of soil and groundwater, the limitation of waste production and the re-use of soild waste materials is still the leading theme of WASCON '94. Although it is clearly recognized in most countries that products derived from solid waste materials can be applied as construction materials, research is still needed to assess various environmental problems.
Preface | |
The International Ash Working Group: A Treatise on Residues from MSW Incinerators | p. 3 |
International Progress in Solid Waste Management | p. 7 |
Life Cycle Analyses: Results of Some Case Studies | p. 17 |
Chemical Processes Controlling the Mobility of Waste Material Contaminants in Soils | p. 31 |
Leaching of Slags and Ashes - Controlling Factors in Field Experiments versus Laboratory Tests | p. 39 |
Validation of Leaching Model on Actual Structures | p. 55 |
Intercomparison of Leaching Tests for Stabilized Waste | p. 63 |
Immobilisation Potential of Cementitious Materials | p. 77 |
Coal Fly Ash Leaching Behaviour and Solubility Controlling Solids | p. 87 |
Modelling Ca-Solubility in MSWI Bottom Ash Leachates | p. 103 |
Particle Petrogenesis and Speciation of Elements in MSW Incineration Bottom Ashes | p. 111 |
An Approach to the Assessment of the Environment Impacts of Marine Applications of Municipal Solid Waste Combustion Residues | p. 137 |
Quality Assessment of Granular Combustion Residues by a Standard Column Test: Prediction versus Reality | p. 161 |
Geochemical Factors Controlling the Mobilization of Major Elements during Weathering of MSWI Bottom Ash | p. 179 |
Leaching Behaviour of Building Materials with Byproducts under Practical Conditions | p. 195 |
FGD Gypsum Definitions and Legislation in the European Communities in the OECD and in Germany | p. 205 |
In-situ Utilization of Waste Bentonite Slurry | p. 217 |
The use of MWI Fly Ash in Asphalt for Road Construction | p. 227 |
Enhanced Natural Stabilization of MSW Bottom Ash: A Method for Minimization of Leaching | p. 233 |
Immobilization of Slag Material by Foam Bitumen | p. 239 |
Immobilisation of Phenol and PAH by Special Hydraulic Binders | p. 247 |
Leaching of Organic Contaminants from Contaminated Soils and Waste Materials | p. 257 |
Investigating a Leaching Test for PCBs and Organochlorine Pesticides in Waste and Building Materials | p. 271 |
French Qualification Procedure for Solidification Processes | p. 281 |
Utilization Status, Issues and Criteria Development for Municipal Waste Combustor Residues in the United States | p. 293 |
Validation of Dutch Standard Leaching Tests Using NEN-ISO 5725 | p. 305 |
The Laconia, New Hampshire Bottom Ash Paving Project | p. 315 |
Application of Fly Ash and other Waste Materials for the Construction of an Off-Shore Island Opposite the Coast of Tel-Aviv | p. 329 |
Fly Ash Utilisation in Civil Engineering | p. 345 |
High Pressure Mixing: A New Technology to Re-use Waste Materials Containing CaO and/or MgO | p. 357 |
Environmental Compatibility of Cement and Concrete | p. 369 |
Leaching Properties of Cement-bound Materials | p. 387 |
European Standardization of Additions for Concrete | p. 397 |
State of the Art of Waste Characterization on European Level | p. 409 |
Leaching Behavior Assessment of Wastes Solidified with Hydraulic Binders: Critical Study of Diffusional Approach | p. 421 |
Burning of Hazardous Wastes as Co-Fuel in a Cement Kiln Does it Affect the Environmental Quality of Cement? | p. 433 |
Approach towards International Standardization: A Concise Scheme for Testing of Granular Waste Leachability | p. 453 |
Speciation of As and Se during Leaching of Fly Ash | p. 467 |
Measurement of Redox Potential During Standardized Column Tests | p. 477 |
The Influence of Reducing Properties on Leaching of Elements from Waste Materials and Construction Materials | p. 481 |
Hydrology and Chemistry of Pulverized Fuel Ash in a Lysimeter or the Translation of the Results of the Dutch Column Leaching Test into Field Conditions | p. 491 |
Role of Facilitated Transport in the Emissions of Secondary Raw Materials | p. 507 |
Immobilization of Heavy Metal Ions by the Alkali Activated Slag Cementitious Materials | p. 519 |
Integrated Treatment of MSWI-residues: Treatment of Fly Ash in View of Metal Recovery | p. 525 |
Life Cycle Assessment of a Road Embankment in Phosphogypsum: Preliminary Results | p. 539 |
Co-combustion of Coal and Waste Wood, Consequences for the By-product Quality | p. 543 |
Use of Demolition Concrete to produce Durable Structural Concrete | p. 553 |
Improvement of Portland Cement/Fly Ash Mortar Strength using Classified Fly Ashes | p. 563 |
Ground Fly Ashes: Characteristics and their Influence on Fresh and Hardened Mortars | p. 571 |
Development of Cementitious Products using Industrial Process Wastes as Sources of Reactive Sulfate and Alumina | p. 579 |
Potentials for Utilisation of PFBC Ash | p. 589 |
Recycling of Magnesium Slags in Construction Block Form | p. 599 |
Improving the MSWI Bottom Ash Quality by Simple In-Plant Measures | p. 605 |
Potentials in Quality Improvement of Processed Building Rubble by Demolition and Treatment Technics | p. 621 |
Quantities and Qualities of Municipal Waste Incinerator Residues in the Netherlands | p. 633 |
Upgrading Techniques for the Quality Improvement of Municipal Waste Incineration Residues | p. 645 |
Re-use of Colliery Spoils in Construction Materials using Fluidized Bed Combustion | p. 655 |
Recovery of Raw Materials from Reclaimed Asphalt Pavement | p. 665 |
Applications for Coal-use Residues: An International Overview | p. 673 |
Specifications and the Use of Wastes in Construction in the United Kingdom | p. 687 |
Overview of Coal Ash Use in the USA | p. 699 |
Environmental Life Cycle Analysis of Construction Products with and without Recycling | p. 709 |
Assessment of the Environmental Compatibility of Industrial By-products and Recycled Materials | p. 719 |
Environmental Management in Large Construction Projects | p. 727 |
A Concept for the Environmental Evaluation of Waste Management Benefits | p. 737 |
Technological and Environmental Properties of Concretes with High PFA Content | p. 749 |
Towards Sustainability with Construction and Demolition Waste in Belgium? | p. 759 |
Disintegration of Fly Ashes in the Rotary vibration Mill | p. 775 |
Release of Heavy Metals from a Municipal Solid Waste Incineration Residue Stabilized in Non-traditional Matrices | p. 789 |
Applications of By-products from Coal Gasification Power Plants: Quality and Environment-Related Aspects | p. 801 |
Quality Improvement of MSW Fly Ash and APC Residue from MSW Incinerator Amsterdam-West using Different Immobilisation Processes | p. 811 |
Certification System for Aggregates Produced from Building Waste and Demolished Buildings | p. 821 |
Sampling and Sub-sampling of Primary and Secondary Building Materials: A Statistical Treatise | p. 835 |
Industrial Scale Application of the Alkali Activated Slag Cementitious Materials in the Injection Sealing Works | p. 841 |
The use of MSWI Bottom Ash in Asphalt Concrete | p. 851 |
How to Prevent Expansion of MSWI Bottom Ash in Road Constructions? | p. 863 |
Microstructure of Concretes Containing Artificial and Recycled Aggregates | p. 877 |
Frost Susceptibility of Recycled Aggregate | p. 889 |
Use of Crushed Tile and Concrete as Filling in Pipe Trenches | p. 897 |
Use of Ashes from MSW Incineration in Cementitious Building Materials | p. 905 |
Effect of Grain Size Composition of the Calcium-sulphate Fly Ashes on the Properties of Autoclaved Building Materials | p. 909 |
Sulphate and Acid Attack on Concrete in Ground and Landfill | p. 917 |
Contaminated Soil Cement Stabilizations for Application as a Construction Material | p. 925 |
The Assessment of a Pollutant Charge of Dredged Sediments as a Tool to Minimize Adverse Environmental Effects | p. 929 |
Minestone Substratum Behaviour under Loading | p. 939 |
Ecological and Energy-saving Advantages and Benefits of Building with Earth | p. 941 |
Fly Ash and Slag Reactivity in Cements - TEM Evidence and Application of Thermodynamic Modelling | p. 949 |
State of the Art Report: Use of Waste Materials in Construction Technological Development | p. 963 |
A Unified Approach to Leaching Behavior of Waste Materials | p. 979 |
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