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Innovative Construction Materials: their contribution to sustainable development

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Waste and pollution created during construction, maintenance and decommissioning ... Aluminium produces 8.5 (1.7) tonnes CO2. Glass produces 0.77 tonnes CO2 ... – PowerPoint PPT presentation

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Title: Innovative Construction Materials: their contribution to sustainable development


1
Innovative Construction Materials their
contribution to sustainable development
  • Pete Walker
  • BRE Centre for Innovative Construction Materials
  • Dept. Architecture Civil Engineering
  • University of Bath

2
Climate change
  • Impact of infrastructure development
  • Waste and pollution created during construction,
    maintenance and decommissioning
  • Energy (carbon) consumed in use
  • Land use
  • Embodied carbon from production of materials

3
Improvements
  • Building Regulations
  • Higher specifications for new buildings
  • Code for Sustainable Homes
  • By 2016 90 reduction in in-use energy for all
    new homes
  • Renewable energy
  • Waste reduction (recycling)
  • Societal recognition/demands

4
Carbon footprint of construction materials
  • Embodied carbon (ICE Inventory V1.5b) 1 tonne
    of
  • Cement produces 0.8 tonnes CO2
  • Fired clay brick produces 0.2 tonnes CO2
  • Steel produces 2.8 (0.45) tonnes CO2
  • Aluminium produces 8.5 (1.7) tonnes CO2
  • Glass produces 0.77 tonnes CO2
  • Timber produces 0.5 tonnes CO2

5
Significance of embodied carbon
  • Cement production contributes around 5 man-made
    CO2 emissions (around 1.3bn tonnes p.a.). By 2050
    cement based CO2 emissions projected to rise to
    2.5-5bn tonnes p.a..
  • Ratio in-use/embodied carbon (60 yr life span)
  • 2006 levels (8515)
  • 90 in-use reduction (3366)

6
Environmental Impact of Materials
  • Climate change
  • Stratospheric ozone depletion
  • Eutrophication (ecosystems damage)
  • Acidification (acid rain)
  • Photochemical ozone creation (summer smog)
  • Human toxicity
  • Ecotoxicity to water and land
  • Fossil fuel depletion
  • Waste disposal
  • Water extraction
  • Mineral resource depletion
  • Nuclear waste

7
BRE Centre for Innovative Construction Materials
  • Partnership with Building Research Establishment
    Ltd
  • Research and development in range of materials to
    improve performance and environmental impact of
    infrastructure
  • Advanced fibre composites
  • Low carbon cements and concretes
  • Concrete, Masonry, Steel and Timber structures
    and materials
  • Low carbon materials

8
Low carbon alternative materials
  • Earth building
  • Unfired clay bricks
  • Rammed earth, cob
  • Renewable crop based materials
  • Timber and wood based products
  • Straw
  • Hemp, flax
  • Sheeps wool
  • Natural stone

9
Benefits
  • Low embodied carbon (minimal processing)
  • Renewable
  • reducing resource depletion
  • carbon sequestration
  • new agricultural markets
  • Reduced waste and pollution
  • Healthier
  • low toxicity
  • passive environmental regulation

10
Rammed earth and chalk
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Unfired clay masonry
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24
Straw bale
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Hemp-lime construction
31
Haverhill Houses
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Drivers for increased uptake
  • Climate change
  • Legislation (CSH)
  • Energy costs
  • New markets (agriculture)
  • Corporate image
  • Client/societal demand
  • Improved material performance

34
Hygroscopic materials
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37
Challenges to mainstream uptake
  • Modern methods of construction (skills and
    training)
  • Cost
  • Understanding of materials
  • Lack of technical data specifications design
    guidance and details precedence
  • Reluctance of construction industry
  • Supply chain
  • Confidence to use demonstration of performance
  • Awareness

38
Modern moderns of construction
  • Many low carbon materials and techniques rely on
    on-site skilled labour
  • Innovations
  • Prefabricated straw bale panels (ModCell)
  • Sprayed hemp-lime
  • Masonry blocks (clay, hemp-lime)

39
ModCell
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Sprayed Hemcrete
49
Hemcrete blocks
50
Costs
  • Through innovation costs are increasingly
    competitive.
  • Unfired clay bricks are cheaper than fired!
  • Sprayed hemp-lime costs (150-200 /m2)
  • Improved performance

51
Understanding materials
52
York Eco-Depot
53
To conclude
  • Embodied carbon and other impacts of materials
    increasingly important to environmental footprint
    of infrastructure
  • Step change in construction materials use
    required to tackle climate change
  • Increasing range of innovative low carbon
    materials are well placed for mainstream uptake,
    but must deliver on
  • Cost
  • Performance
  • Supply
  • Many research development opportunities

54
Acknowledgements
  • Colleagues in BRE CICM
  • BRE BRE Trust
  • Industry partners
  • Funders

55
  • Thank you!
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