Fieldson, Rosemary and Rai, Deepak and Sodagar, Behzad (2009) Towards a framework for early estimation of lifecycle carbon footprinting of buildings in the UK. Construction Information Quarterly, 11 (2). pp. 66-75. ISSN 1469-4891
Full content URL: http://www.atypon-link.com/CIB/doi/abs/10.5555/coi...
Towards_a_Framework_for_Early_estimation_of_lifecycle_carbon_footprinting_of_buildings_in_the_UK.pdf - Whole Document
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The construction industry has become increasingly concerned with
understanding the whole life impact of buildings as their customers shift
their focus towards declaration of the greenhouse gas (GHG ), carbon
footprint or business CO2 emissions. To maximise potential for reduction,
this whole life building carbon footprint should be considered at the outset
of the design process and requires constant revision with reflection on the
impact of design changes in later stages of the building life. A completed
building can be viewed as a product at the point of handover and it is
possible to calculate the content of materials and process required to
provide that product as an Environmental Product Declaration.
The procurement team has the challenge of providing an initial impact
assessment balanced with a working estimate of the energy use and
maintenance requirements across a building design life, and a strategy
for deconstruction at end of life. For this process to be effective, data
used for converting quantities of materials to CO2 emissions must be
appropriate to the specific products to be constructed in the building as
they are identified from generic databases. Benchmark data is entered
into a framework to calculate impacts from the complex supply chain
involved and the direct energy use from processes required to complete
the building as the design evolves.
This paper outlines a proposed assimilation framework with data, scope and boundary protocols to allow comparison of design scenarios within building type groups. It also supports the formulation of environmental impact reduction strategies throughout the design and construction of buildings and supports life cycle thinking in terms of design life, reuse and recycling necessary for optimising sustainability in the built environment. The protocol uses concepts already well established in estimating and engineering to maximise adaptability from existing documentation of project data. Abbreviated worked examples are also demonstrated.
The paper will be of interest to building procurement teams, their clients and supply chains.
|Keywords:||Construction, life cycle assessment, low carbon design, sustainable materials, bmjdoi|
|Subjects:||K Architecture, Building and Planning > K100 Architecture|
|Divisions:||College of Arts > School of Architecture & Design > School of Architecture & Design (Architecture)|
|Deposited On:||08 Feb 2011 20:17|
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