2020
DOI: 10.3390/su12125130
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Managing Choice Uncertainties in Life-Cycle Assessment as a Decision-Support Tool for Building Design: A Case Study on Building Framework

Abstract: To establish a circular economy in society, it is crucial to incorporate life-cycle studies, such as life-cycle assessment (LCA), in the design process of products in order to mitigate the well-recognized problem of the design paradox. The aim of the study was to provide means in a structured way to highlight choice uncertainty present in LCA when used as decision support, as well as to mitigate subjective interpretations of the numerical results leading to arbitrary decisions. The study focused on choices ava… Show more

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Cited by 19 publications
(8 citation statements)
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“…In earlier design phases, it is easy to make changes, but less information is available, whereas late in the process there is more information, but it is difficult to make meaningful changes. This knowledge trade-off is especially apparent in the application of LCA [56].…”
Section: Discussionmentioning
confidence: 99%
“…In earlier design phases, it is easy to make changes, but less information is available, whereas late in the process there is more information, but it is difficult to make meaningful changes. This knowledge trade-off is especially apparent in the application of LCA [56].…”
Section: Discussionmentioning
confidence: 99%
“…Not only was MCS used in conjunction with other uncertainty analysis methods, but it was also used as a secondary method to handle the main methods such as global sensitivity analysis and decision choice procedure (DCP), etc. [43,57,103,108]. Table 6 provides the uncertainty analysis methods and software in the selected studies.…”
Section: Uncertainty Analysis Methodsmentioning
confidence: 99%
“…[107] "Choice uncertainty present in LCA when used as decision support, as well as to mitigate subjective interpretations of the numerical results leading to arbitrary decisions". [108] Wood materials volumetrically change, and the volumetric percentage of each major building material. [75] Variation in the input parameters in the life cycle inventory (LCI) analysis and the priority weights for the AHP method concerning the overall environmental impact score.…”
Section: Uncertainty Sources Refmentioning
confidence: 99%
“…uncertainties in quantities or physical properties of building materials or systems, or in the service lifetime). As pointed out by several authors, the potential environmental gains are the largest in early design phase, but uncertainties are also higher in this phase as many decisions have yet to be made [36][37][38][39]13].…”
Section: Uncertainties In the Complca Of Building Alternativesmentioning
confidence: 99%
“…The seven studies considering dependent samplings used DA or similar methods in order to compare alternatives, which were visually compared by plotting DA results in graphs [55] or in matrices [36]. Another option was to plot the distribution of impact ratios [56,57], or the distribution of impact differences [39,58,59] between pairs of alternatives. This is in line with the recommendations of Marsh et al [13] to use dependent sampling, and DA or HSM.…”
Section: Uncertainties In the Complca Of Building Alternativesmentioning
confidence: 99%