Abstract
Investment decisions for buildings made today largely determine their environmental impacts over many future decades due to their long lifetimes. Such decisions involve a trade-off between additional investments today and potential savings during use and at end of life - in terms of economic costs, primary energy consumption, greenhouse gas emissions and other environmental impacts. Life cycle assessment (LCA) is suited to identify measures and action to increase the resource efficiency and the environmental performance of buildings and construction. This paper gives an overview of an ongoing international research project within the IEA EBC with the overall aim to harmonise LCA approaches on buildings and foster life cycle thinking in the real estate and construction sectors. The objectives of the project are i) to establish a common methodology guideline to assess the life cycle based environmental impacts caused by buildings, ii) to establish methods for the development of specific environmental benchmarks for different types of buildings, iii) to derive regionally differentiated guidelines and tools for the use of LCA in building design and tools such as BIM, and iv) to improve data availability by developing national or regional databases with regionally differentiated LCA data tailored to the construction sector. To ensure practical solutions a number of case studies will be used to test and illustrate the consensus approaches and research issues.
Highlights
In response to concerns about climate change, energy security and social equity, countries around the world are either planning to substantially reduce energy demand and greenhouse gas emissions or in the case of emerging economies to develop in less energy intensive ways
Investment decisions for buildings made today largely determine their environmental impacts over many future decades due to their long lifetimes
Such decisions involve a trade-off between additional investments today and potential savings during use and at end of life - in terms of economic costs, primary energy consumption, greenhouse gas emissions and other environmental impacts
Summary
In response to concerns about climate change, energy security and social equity, countries around the world are either planning to substantially reduce energy demand and greenhouse gas emissions or in the case of emerging economies to develop in less energy intensive ways. Investment decisions on buildings today determine by and large the environmental impacts during several future decades Such decisions can involve a trade-off between additional investments today and potential savings during use and end of life The use and end of life phases are economically less important This situation gives rise to the following questions: Where is the environmental optimum between gross zero operational energy buildings on one hand and minimised embodied impacts buildings on the other? Develop national/regional databases with regionally differentiated life cycle assessment data tailored to the construction sector, covering material production, building technology manufacture, energy supply, transport services and waste management services; share experiences with the setup and update of such databases
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