Progress of Recycling in the Built Environment

1.INTRODUCTION AND ACTIVITIES.-  1.1. OBJECTIVES OF THE BOOK.-  1.2. ABSTRACT OF THE TC’S ACTIVITIES (MEETINGS, METHODOLOGY, SYMPOSIA).-  References.-  2. CONSTRUCTION AND DEMOLITION WASTE RECYCLING IN A BROADER ENVIRONMENTAL PERSPECTIVE.-  2.1. Sustainability and recycling construction waste.-  2.1.1. Introduction.-  2.1.2. Defining and measuring sustainability.-  2.1.1. Environmental drivers for recycling - closing the materials flow cycle.-  2.1.1. The flow of mineral construction materials and construction waste.-  2.1.2.          Informal production of aggregates.-  2.1.3. Economical drivers for recycled aggregates.-  2.1.4. Social drivers.-  2.1.5. Assessing sustainability of recycled aggregates.-  2.1.1. The need for further developments.-  References.-  2.2. Global impact assessment of urban renewal based on sustainable recycling strategies for Construction and Demolition Waste.-  2.2.1. Why sustainable urban renewal is necessary.-  2.2.2.            How recycling strategies in urban renewal are applied.-  2.2.3. How modelling supports the decision-making process.-  2.2.4.  Why european urban renewal projects are involved.-  2.2.5. How recycling reduces CO2 emission.-  2.2.6. How recycling signifies savings in primary resources.-  2.2.7.   How recycling contributes to diminishing the global impact of urban renewal in both developed and developing countries.-  2.2.8.            Appendix 1: Calculation NATO Headquarters case.-  2.2.9. Appendix 2: Calculation City Harbour Rotterdam.-  References.-  3. OVERVIEW REGARDING CONSTRUCTION AND DEMOLITION WASTE IN SEVERAL COUNTRIES.-  3.1. Recycling in Belgium: An overview of the present situation in Belgium from the recycling industry and research about CDW.-  3.1.1. Current market situation.-  3.1.2. Standards and recommendations for application.-  3.1.3. Principal problems related to standards and applications.-  3.1.4. New applications and research.-  3.2. Recycling in Brazil: An overview of the present situation of CDW in managing and recycling.-  3.2.1. CDW generation and composition.-  3.2.2. CDW management and recycling.-  References.-  3.3. Recycling in North America: State-of-the art of RCA-concrete in North America.-  3.3.1. Introduction.-  3.3.2. Development of a New Mixture Proportioning Method for RCA-concrete.-  3.3.3. Structural Behaviour and Strength of RCA-concrete Members.-  3.3.4. Bond and Development Length.-  3.3.5. Durability and Long-term Performance.-  3.3.6. Research on RCA in Pavement Concrete.-  References.-  3.4. Recycling in China: An overview of study on recycled aggregate concrete.-  3.4.1. Introduction.-  3.4.2. Mechanical properties of recycled concrete: Strength.-  3.4.3. Behaviour of concrete under various stress stages.-  3.4.4.Deformation characteristics.-  3.4.5. Stress–Strain relationship.-  3.4.6. Durability.-  3.4.7. Carbonization.-  3.4.8. Chloride Penetration.-  3.4.9. Freeze and Thaw.-  3.4.10. Abrasion.-  3.4.11. Structural performance of recycled concrete.-  3.4.12. Reinforced RAC elements under monotonic loadings.-  3.4.13. Reinforced RAC structures under cyclic loadings.-  3.4.14. Shaking table tests on RAC structures.-  3.4.15. Conclusions and recommendations.-  Acknowledgements.-  References.-  3.5. Recycling in Germany: Overview regarding CDW in germany.-  3.5.1. Amounts of Construction and Demolition Waste and fields of utilization.-  3.5.2. Standards and recommendations.-  3.5.3.New realizations and projects.-  References.-  3.6. Recycling in Italy: Overview regarding construction and demolition waste.-  3.6.1. Preliminary remarks about the method.-  3.6.2. The production of recycled aggregates in Italy: Qualitative aspects.-  3.6.3. Quantitative aspects.-  3.6.4. Normative aspects.-  3.6.5. A comparison with European data.-  3.6.6.Characteristics of plants – Tecnology.-  3.6.7. The administrative procedure to install a recycling plant and the complementary activities.-  3.6.8. Work modalities.-  3.6.9. The recycled aggregat