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Eco-Efficient Construction and Building Materials: Life Cycle Assessment

Eco-Efficient Construction and Building Materials: Life Cycle Assessment (Lca), Eco-Labelling and Case Studies (Paperback)

Luisa F. Cabeza, Fernando Pacheco-torgal, Joao Labrincha (지은이)
Woodhead Publishing
400,500원

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Eco-Efficient Construction and Building Materials: Life Cycle Assessment
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· 제목 : Eco-Efficient Construction and Building Materials: Life Cycle Assessment (Lca), Eco-Labelling and Case Studies (Paperback) 
· 분류 : 외국도서 > 기술공학 > 기술공학 > 구조
· ISBN : 9780081013502
· 쪽수 : 624쪽
· 출판일 : 2018-11-13

목차

  • Contributor contact details
  • Woodhead Publishing Series in Civil and Structural Engineering
  • 1: Introduction to the environmental impact of construction and building materials
    • Abstract
    • 1.1 Introduction
    • 1.2 Environmental impact assessment
    • 1.3 The European Construction Products Regulation (CPR)
    • 1.4 Outline of the book
  • Part I: Life cycle assessment (LCA), eco-labelling and procurement
    • 2: Mineral resource depletion assessment
      • Abstract
      • 2.1 Introduction
      • 2.2 Definition and classification of mineral resources
      • 2.3 Trends in mineral use and depletion
      • 2.4 Dynamic analysis of mineral resource use and depletion: the Hubbert peak model
      • 2.5 From grave to cradle: A new approach to assess and account for mineral depletion
      • 2.6 Conclusions
    • 3: Life cycle assessment (LCA) of sustainable building materials: an overview
      • Abstract
      • 3.1 Introduction
      • 3.2 The environmental impact of building materials
      • 3.3 Life cycle assessment (LCA) and sustainable building materials
      • 3.4 Conclusions
    • 4: Life cycle assessment (LCA) of the building sector: strengths and weaknesses
      • Abstract
      • 4.1 Introduction
      • 4.2 The overall strengths and limitations of life cycle assessment (LCA)
      • 4.3 Strengths and weaknesses within LCA methodology
      • 4.4 Conclusions
    • 5: Using life cycle assessment (LCA) methodology to develop eco-labels for construction and building materials
      • Abstract
      • 5.1 Introduction: life cycle thinking and eco-labels
      • 5.2 Life cycle assessment (LCA)
      • 5.3 Types of eco-labels and their relation to LCA
      • 5.4 Environmental certification programmes for buildings
      • 5.5 Future trends
      • 5.6 Sources of further information and advice
    • 6: The EU Ecolabel scheme and its application to construction and building materials
      • Abstract
      • 6.1 Introduction
      • 6.2 The EU Ecolabel and the European Commission policy for sustainability
      • 6.3 History and goals of the EU Ecolabel scheme
      • 6.4 EU Ecolabel establishment procedures and criteria
      • 6.5 EU Ecolabel and green public procurement (GPP)
      • 6.6 EU Ecolabel and national ecolabelling schemes
      • 6.7 EU Ecolabel for eco-efficient construction and building materials
      • 6.8 Future trends
      • 6.9 Sources of further information and advice
      • 6.11 Appendix: abbreviations
    • 7: Environmental product declaration (EPD) labelling of construction and building materials
      • Abstract
      • 7.1 Introduction
      • 7.2 Regulatory framework
      • 7.3 Objectives and general principles
      • 7.4 Environmental product declaration (EPD) methodology
      • 7.5 EPD programmes around the world
      • 7.6 Product category rules (PCR) for construction and building materials
      • 7.7 Case studies: EPD for construction and building materials
      • 7.8 Conclusions
    • 8: Shortcomings of eco-labelling of construction and building materials
      • Abstract
      • 8.1 Introduction
      • 8.2 Typical shortcomings of eco-labels
      • 8.3 Building materials
      • 8.4 Eco-labelling of buildings
      • 8.5 Conclusions
    • 9: Green public procurement (GPP) of construction and building materials
      • Abstract
      • 9.1 Introduction
      • 9.2 Green public procurement (GPP) and sustainable public procurement (SPP) as policy instruments
      • 9.3 Policy context in the EU
      • 9.4 Policy context in selected countries
      • 9.5 The need for a paradigm shift
      • 9.6 Implementing GPP/SPP in the construction sector
      • 9.7 Key concerns for progress towards SPP
  • Part II: Assessing the environmental impact of construction and building materials
    • 10: Assessing the environmental impact of conventional and ‘green’ cement production
      • Abstract
      • 10.1 Introduction
      • 10.2 Environmental impact of ordinary Portland cement
      • 10.3 Supplementary cementitious materials (SCMs)
      • 10.4 Alternative binders
      • 10.5 Balancing function and environmental impact
      • 10.6 Conclusions and future trends
    • 11: Life cycle assessment (LCA) of concrete made using recycled concrete or natural aggregates
      • Abstract
      • 11.1 Introduction
      • 11.2 Life cycle assessment (LCA) of recycled aggregate concrete (RAC)
      • 11.3 Influence of different phases in the production process for natural and recycled concrete
      • 11.4 Research on the use of natural and recycled aggregates in concrete
      • 11.5 Analysis of the influence of the transport phase
      • 11.6 Analysis of the influence of CO2 uptake during the life cycle of concrete
      • 11.7 Conclusions and future trends
      • 11.8 Acknowledgement
    • 12: Life cycle assessment (LCA) of building thermal insulation materials
      • Abstract
      • 12.1 Introduction
      • 12.2 Thermal insulation materials and their properties
      • 12.3 Life cycle assessment (LCA) analysis of thermal insulation materials
      • 12.4 The ecological benefits of thermal insulation of external walls of buildings
      • 12.5 The economic benefits of thermal insulation
      • 12.6 Conclusions
    • 13: Life cycle assessment (LCA) of phase change materials (PCMs) used in buildings
      • Abstract
      • 13.1 Introduction to phase change materials (PCMs) and their use in buildings
      • 13.2 Investigating the use of PCMs in buildings
      • 13.3 Life cycle assessment (LCA) methodology
      • 13.4 PCM impact and selection
      • 13.5 LCA of buildings including PCMs: case studies
      • 13.6 Improvement in PCM use
      • 13.7 Problems in undertaking an LCA of buildings including PCMs
    • 14: Life cycle assessment (LCA) of wood-based building materials
      • Abstract
      • 14.1 Introduction
      • 14.2 Forestry and wood production
      • 14.3 Wood product manufacture
      • 14.4 Building with wood materials
      • 14.5 Integrated energy and material flows
      • 14.6 Wood products and climate change
      • 14.7 Wood building materials: past and future
      • 14.8 Sources of further information
      • 14.9 Acknowledgement
    • 15: The environmental impact of adhesives
      • Abstract
      • 15.1 Introduction: growth in the usage of adhesives
      • 15.2 Environmental implications of the growth in adhesive use
      • 15.3 Adhesives, adhesion and the environment
      • 15.4 Reduction of environmental impact
      • 15.5 A technical ‘fix’ for the environmental crisis
      • 15.6 Energy demand and supply
      • 15.7 The stationary state: limits to growth
      • 15.8 Conclusions and future trends
      • 15.9 Acknowledgement
    • 16: Life cycle assessment (LCA) of road pavement materials
      • Abstract
      • 16.1 Introduction
      • 16.2 Life cycle assessment (LCA) for roads
      • 16.3 LCA for motorway construction
      • 16.4 LCA for motorway use and maintenance
      • 16.5 LCA for the demolition/deconstruction of motorways
      • 16.6 Conclusions and future trends
      • 16.7 Acknowledgements
      • 16.9 Appendix: abbreviations
  • Part III: Assessing the environmental impact of particular types of structure
    • 17: Comparing the environmental impact of reinforced concrete and wooden structures
      • Abstract
      • 17.1 Introduction
      • 17.2 Environmental strengths and weaknesses of using wood and concrete in construction
      • 17.3 Life cycle assessment (LCA) for wood and concrete building design
      • 17.4 Using LCA to compare concrete and wood construction: a case study
      • 17.5 Selection and adaptation of LCA tools
      • 17.6 Life cycle impact assessment and interpretation
      • 17.7 Future trends
      • 17.8 Sources of further information and advice
    • 18: Assessing the sustainability of prefabricated buildings
      • Abstract
      • 18.1 Introduction
      • 18.2 A brief history of prefabricated buildings
      • 18.3 Types of prefabrication technologies
      • 18.4 Assessing prefabricated buildings
      • 18.5 Case study: sustainability assessment of prefabricated school buildings
      • 18.6 Conclusions, recommendations and future trends
      • 18.7 Sources of further information and advice
      • 18.8 Acknowledgments
    • 19: Life cycle assessment (LCA) of green facades and living wall systems
      • Abstract
      • 19.1 Introduction
      • 19.2 Life cycle assessment (LCA) methodology
      • 19.3 Interpretation and analysis of LCA results
      • 19.4 Interpretation of the LCA analysis
      • 19.5 Conclusions
      • 19.6 Acknowledgements
    • 20: Assessing the environmental and economic impacts of cladding systems for green buildings
      • Abstract
      • 20.1 Introduction
      • 20.2 The need for green buildings
      • 20.3 The role of cladding systems in making buildings green
      • 20.4 Implementation: assessing the eco-efficiency of cladding systems in Bahrain
      • 20.5 Interpretation and conclusions
    • 21: Life cycle assessment (LCA) of windows and window materials
      • Abstract
      • 21.1 Introduction
      • 21.2 Modern window construction
      • 21.3 The life cycle of a window
      • 21.4 Previous window life cycle assessment (LCA) studies
      • 21.5 The influence of timing on the results of window LCA
      • 21.6 Use of advanced technology
      • 21.7 Selection of environmentally friendly window materials
      • 21.8 Current developments and future trends
    • 22: Life cycle assessment (LCA) of ultra high performance concrete (UHPC) structures
      • Abstract
      • 22.1 Introduction
      • 22.2 Life cycle assessment (LCA) data and impact assessment method
      • 22.3 Impact assessment of raw materials used in ultra high performance concrete (UHPC)
      • 22.4 Impact assessment of UHPC at material level
      • 22.5 Impact assessment of structures made with UHPC
      • 22.6 Cost of UHPC
      • 22.7 Conclusions and future trends
    • 23: Life cycle assessment (LCA) of fibre reinforced polymer (FRP) composites in civil applications
      • Abstract
      • 23.1 Introduction
      • 23.2 Life cycle assessment (LCA) method
      • 23.3 LCA of fibre reinforced polymer (FRP) composites: case studies
      • Results and discussion
      • Results
      • 23.4 Summary and conclusions
  • Index

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