Waste Materials in Construction :Science and Engineering of Recycling for Environmental Protection ( Volume 1 )

Publication subTitle :Science and Engineering of Recycling for Environmental Protection

Publication series :Volume 1

Author: Woolley   G. R.;Goumans   J. J. J. M.;Wainwright   P. J.  

Publisher: Elsevier Science‎

Publication year: 2000

E-ISBN: 9780080543659

P-ISBN(Paperback): 9780080437903

P-ISBN(Hardback):  9780080437903

Subject: X Environmental Science, Safety Science

Language: ENG

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Description

This volume presents the proceedings of the International Conference on The Science and Engineering of Recycling for Environmental Protection (WASCON 2000), of which a number of themes have been identified. All are inter-related and inter-dependent in so far as potential users of secondary, recovered or recycled material have to be assured that the material is environmentally safe and stable. It is the environmental challenge that forms a leading theme for the conference, and the themes of quality assurance and quality control support this aspect. In terms of use of 'recovered' materials, science and engineering play important and inter-dependent roles and this is reflected in themes which form the very core of the conference. Of no less importance is control of land contamination and how we propose to model for the long term impact of our aims. However dutiful and competent our ideas and studies, there has to be a measure of control and the role of legislation forms the final theme of WASCON 2000.

The breadth of studies being undertaken world-wide and the innovative ideas that are expressed in papers submitted are worthy of this important subject. It is also interesting to note that papers were offered from 30 countries, a sign of the increasing awareness of the need to preserve our natural resources and utilize to the full those with which we are more familiar. This book will contribute to the understanding of and solution of environmental problems concerning the

Chapter

Front Cover

pp.:  1 – 4

Waste Materials in Construction Wascon 2000

pp.:  4 – 5

Copyright Page

pp.:  5 – 8

Forword

pp.:  6 – 14

Table of contents

pp.:  8 – 6

Chapter 1. Calcium silicate products with crushed building and demolition waste

pp.:  14 – 25

Chapter 2. Predicting strength properties of fine cementless fly ash–furnace bottom ash concrete

pp.:  25 – 34

Chapter 3. Development of utilization technologies for Mt. Pinatubo ejecta as prime material for concrete: Part 1-Concrete material structure-property characterization

pp.:  34 – 49

Chapter 4. Development of utilization technologies for Mt. Pinatubo ejecta as prime material for concrete: Part 2-Testing the Structural Performance of Modular Panels

pp.:  49 – 58

Chapter 5. New technology approach to age-old waste material (natural fibers) for composites

pp.:  58 – 70

Chapter 6. Production of low-cost By-product fillers

pp.:  70 – 79

Chapter 7. Steel Fibers made from Steel Cans in Concrete engineering

pp.:  79 – 88

Chapter 8. Carbonation and leaching of Portland cement with various blending materials

pp.:  88 – 100

Chapter 9. Solidification of lead ions in Portland cement matrix

pp.:  100 – 111

Chapter 10. Recycling and up-grading utility arisings and quarry wastes for highway construction and maintenance

pp.:  111 – 120

Chapter 11. Progress towards achieving ecologically sustainable concrete and road pavements in Australia

pp.:  120 – 134

Chapter 12. The use of reclaimed asphalt pavement (RAP) aggregates in concrete

pp.:  134 – 142

Chapter 13. Preliminary laboratory investigation of thermally treated recycled concrete aggregate for general use in concrete

pp.:  142 – 153

Chapter 14. Evaluation of solid-stabilized products made from Cr(VI)-containing ferrochrome bag-filter dust

pp.:  153 – 164

Chapter 15. Durability study of a sewage sludge-cement-sand system and its environmental impact

pp.:  164 – 175

Chapter 16. Quality control and certification of waste materials in Rotterdam

pp.:  175 – 182

Chapter 17. Influence of the Cement type on the stabilisation of fly ashes from municipal solid waste incineration

pp.:  182 – 191

Chapter 18. Hydrothermal treatment of fly ash from municipal solid waste incineration

pp.:  191 – 199

Chapter 19. PVC and PET plastics taken from solid urban waste in bituminous concrete

pp.:  199 – 209

Chapter 20. Leaching standard for quality control of aggregates

pp.:  209 – 220

Chapter 21. Products of steel slags: An opportunity to save natural Resources

pp.:  220 – 234

Chapter 22. Accelerated ASR testing of recycled concrete

pp.:  234 – 247

Chapter 23. The use of fly ash as a substitute of cement in microsurfacing

pp.:  247 – 254

Chapter 24. Composition of organic matter in bottom ash from MSWI

pp.:  254 – 260

Chapter 25. Environmental impact of ferrochrome slag in road construction

pp.:  260 – 273

Chapter 26. Mineralogical, hydraulic and mechanical characterisation of solidified and stabilised MSWI Fly ash. Contribution of blast furnace slag

pp.:  273 – 282

Chapter 27. Lead, zinc and chromium (III) and (VI) speciation in hydrated cement phases.

pp.:  282 – 294

Chapter 28. Thermal treatment of iron oxide stabilized APC residues from waste incineration and the effect on heavy metal binding

pp.:  294 – 300

Chapter 29. On-site treatment and landfilling of MSWI air pollution control residues

pp.:  300 – 310

Chapter 30. Stabilization of waste incinerator APC-residues with FeSO4

pp.:  310 – 319

Chapter 31. Environmental management in tanneries–waste minimisation opportunities

pp.:  319 – 331

Chapter 32. Prediction of inorganic pollutant release from various cement based materials in disposal/utilisation scenario based on the application of a multi-parameter leaching tool box

pp.:  331 – 338

Chapter 33. Recycling options for gypsum from construction and demolition waste

pp.:  338 – 345

Chapter 34. Analysis of literature data from 3,000 cement/waste products

pp.:  345 – 357

Chapter 35. High-performance concrete for sustainable constructions

pp.:  357 – 368

Chapter 36. Significance in the results of total composition and potential leachability of screened MSWI BA from different plants and sampling periods

pp.:  368 – 384

Chapter 37. Effect of mineral admixtures on some properties of sand-lime bricks

pp.:  384 – 396

Chapter 38. Recycling of partially hydrated concrete

pp.:  396 – 405

Chapter 39. Leaching behaviour of a chromium smelter waste heap

pp.:  405 – 415

Chapter 40. Use of sulphate containing sieve sands in building materials

pp.:  415 – 424

Chapter 41. Observations of leaching of low concentration contaminants from alternative aggregates in road constructions

pp.:  424 – 435

Chapter 42. The use of MSWI (Municipal Solid Waste Incineration) bottom ash as aggregates in hydraulic concrete

pp.:  435 – 451

Chapter 43. Life-cycle impacts of the use of industrial by-products in road and earth construction

pp.:  451 – 462

Chapter 44. Assessment of environmental impacts of foundry waste in utilisation and disposal

pp.:  462 – 475

Chapter 45. Leaching of PCBs and Chlorophenols from contaminated soil and waste - Influence of leaching test characteristics

pp.:  475 – 488

Chapter 46. Forecasting the long-term behaviour of municipal solid waste incineration bottom ash: rapid combined tests

pp.:  488 – 496

Chapter 47. Developments in electroremediation and phytoremediation for the treatment of metal contaminated soils

pp.:  496 – 506

Chapter 48. Studies on crystalline rice husk ashes and the activation of their pozzolanic properties

pp.:  506 – 517

Chapter 49. Assessment of the Ecocompatibility of waste disposal or waste use scenarios : towards the elaboration and implementation of a comprehensive methodology

pp.:  517 – 526

Chapter 50. Research & development methodology for recycling residues as building materials – A proposal

pp.:  526 – 538

Chapter 51. A laboratory experimental set-up for the study of organic compounds transport through unsaturated soils

pp.:  538 – 546

Chapter 52. Sustainable ash pond development in India –a resource for forestry and agriculture-

pp.:  546 – 554

Chapter 53. Behaviour of cement-treated MSWI bottom ash

pp.:  554 – 561

Chapter 54. The re-utilisation of discarded building materials in cement-stabilised layers of road and airfield pavements

pp.:  561 – 580

Chapter 55. Variation in mechanical properties of MSW incinerator bottom ash: Results from triaxial tests

pp.:  580 – 592

Chapter 56. Self-cementing properties of crushed demolishing concrete in unbound layers: Results from triaxial tests and field tests

pp.:  592 – 601

Chapter 57. The mechanism of lead (Pb) leaching from incinerator fly ash in monodisposal landfill

pp.:  601 – 608

Chapter 58. Heavy metal elution characteristics from municipal solid waste scrubber residue by a centrifugation method

pp.:  608 – 617

Chapter 59. Requirements for a realistic estimate of the source term for heavy metal elution from mineral wastes

pp.:  617 – 630

Chapter 60. Disposal options for spent potlining

pp.:  630 – 646

Chapter 61. Speciation of metals in soil solutions – the concept of forced–shift– equilibrium: quantification of the complexing ability o f soil solutions

pp.:  646 – 658

Chapter 62. Seven years of experiences with lysimeter leaching of pulverised fuel ash

pp.:  658 – 669

Chapter 63. Utilization of wastes in ground improvement works

pp.:  669 – 675

Chapter 64. Leaching processes in cement-stabilised municipal incinerator air pollution control residues

pp.:  675 – 684

Chapter 65. Using rice husk ash as a cement replacement material in concrete

pp.:  684 – 698

Chapter 66. Modelling the effects of waste components on cement hydration

pp.:  698 – 708

Chapter 67. Leaching behaviour of synthetic aggregates

pp.:  708 – 720

Chapter 68. Leaching of heavy metals from soils– an analysis

pp.:  720 – 730

Chapter 69. The development of a code of practice for the environmental sound use of PFA as a fill

pp.:  730 – 739

Chapter 70. Leaching behaviours of heavy metals from MSWI residues and Pb adsorption onto the residues under alkaline condition

pp.:  739 – 746

Chapter 71. Assessment of the leaching due to degradation factors o f stabilised/solidified waste materials

pp.:  746 – 754

Chapter 72. Reuse of secondary lead smelter slag in the manufacture of concrete blocks

pp.:  754 – 763

Chapter 73. Calcium sulphoaluminate cements made from fluidized bed combustion wastes

pp.:  763 – 772

Chapter 74. Synthetic aggregates from combustion ashes using an innovative rotary kiln.

pp.:  772 – 782

Chapter 75. The properties of recycled precast concrete hollow core slabs for use as replacement aggregate in concrete

pp.:  782 – 804

Chapter 76. Physical Properties and Acid Neutralisation Capacity of Incinerator Bottom Ash- Portland Cement Mixtures

pp.:  804 – 816

Chapter 77. Synthesis of solidification experience for synthetic wastes

pp.:  816 – 827

Chapter 78. Re-use of abandoned coal mining waste deposits for the production of construction materials: a case of innovative tendering

pp.:  827 – 838

Chapter 79. Construction waste characterisation for production of recycled aggregate-salvador/Brazil

pp.:  838 – 849

Chapter 80. Solid urban wastes minimization and energy conservation– A challenge for the 21 st century in brazil

pp.:  849 – 861

Chapter 81. Use of waste generated by shoe counter scrap pieces in plaster of Paris composites

pp.:  861 – 870

Chapter 82. Testing of soil and inorganic residues prior to utilisation: Development of rational limit values and adaptation of test methods

pp.:  870 – 885

Chapter 83. Further development of a process for treatment of APC residues from MSW incinerators

pp.:  885 – 897

Chapter 84. Recycled aggregate concrete sound barriers for urban freeways

pp.:  897 – 906

Chapter 85. Substance flow analysis of persistent toxic substances in the recycling process of municipal solid waste incineration residues

pp.:  906 – 917

Chapter 86. New trends on EAF slags management in the Basque Country

pp.:  917 – 929

Chapter 87. The environmental quality of fly ashes from co-combustion

pp.:  929 – 940

Chapter 88. A dynamic approach to the assessment of leaching behavior

pp.:  940 – 953

Chapter 89. An initial investigation of the use of a rubber waste (EPDM) in asphalt concrete mixtures

pp.:  953 – 966

Chapter 90. Immobilisation of PAH in waste materials

pp.:  966 – 976

Chapter 91. The Building Materials Decree: an example of a Dutch regulation based on the potential impact of materials on the environment

pp.:  976 – 988

Chapter 92. Chemical-mineralogical valuation of the leachate potential of municipal solid waste incineration (MSWI) bottom ashes

pp.:  988 – 997

Chapter 93. Fine cementless concretes from industrial by - products for various uses

pp.:  997 – 1009

Chapter 94. Use of crushed waste aggregates for DBM road bases

pp.:  1009 – 1021

Chapter 95. The Recycled Materials Resource Center: a new partnership promoting the wise use of recycled materials in the highway environment

pp.:  1021 – 1027

Chapter 96. Characterization of lagoon sediments and their pollutant charge proposals for reusing

pp.:  1027 – 1035

Chapter 97. A proposed methodology for in-situ treatment of MSW leachate

pp.:  1035 – 1043

Chapter 98. Re-use of arisings and waste materials for reinstatements

pp.:  1043 – 1050

Chapter 99. Cold in-situ recycling of structural pavement layers

pp.:  1050 – 1057

Chapter 100. A preliminary investigation of the removal of heavy metal species from aqueous media using crushed concrete fines

pp.:  1057 – 1064

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