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Key Parameters Featuring BIM-LCA Integration in Buildings: A Practical Review of the Current Trends

Author

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  • Tiziano Dalla Mora

    (Department of Architecture and Arts, University IUAV of Venice, Dorsoduro 2206, 30123 Venezia, Italy)

  • Erika Bolzonello

    (Department of Architecture and Arts, University IUAV of Venice, Dorsoduro 2206, 30123 Venezia, Italy)

  • Carmine Cavalliere

    (Department of Civil, Environmental, Land, Building Engineering and Chemistry, Polytechnic University of Bari, Via Edoardo Orabona, 4, 70125 Bari, Italy)

  • Fabio Peron

    (Department of Architecture and Arts, University IUAV of Venice, Dorsoduro 2206, 30123 Venezia, Italy)

Abstract

The construction sector is responsible for 40% of carbon emissions, 14% of water consumption and 60% of waste production in the world, generating a state of unsustainability. In order to keep these values under control and make the most sustainable choices starting from the earliest stages of building design, a Life Cycle Assessment (LCA) can be used. This consists of an analysis of the environmental impacts of a product, activity or process throughout all phases of the life cycle. The fundamental problem of implementing this analysis process in the construction sector is the difficulty in managing the fragmented building information that covers all aspects of buildings life stages in an integrated way. The Building Information Modeling (BIM) approach offers the possibility of managing a complex information system in an integrated manner. The BIM-LCA integration solutions proposed in recent years made LCA analysis faster, cheaper and usable by more professionals. This paper proposes an analysis of the state of the art of the research published in the last ten years regarding the integration of BIM-LCA as a methodology whereby the BIM approach can support and simplify data management for LCA analysis. The aim was to present the work methodologies tested so far and to describe all the factors that were considered in applying the BIM-LCA integration. The novelty of this review consists of identifying a series of more recurrent parameters and measures used by most researchers deriving a trend of possible and consolidated workflows. The result is, therefore, to present evidence of a general heterogenous framework and to define the common and widespread approaches identifying the main features.

Suggested Citation

  • Tiziano Dalla Mora & Erika Bolzonello & Carmine Cavalliere & Fabio Peron, 2020. "Key Parameters Featuring BIM-LCA Integration in Buildings: A Practical Review of the Current Trends," Sustainability, MDPI, vol. 12(17), pages 1-33, September.
    • Handle: RePEc:gam:jsusta:v:12:y:2020:i:17:p:7182-:d:407948
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    References listed on IDEAS

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    1. Buyle, Matthias & Braet, Johan & Audenaert, Amaryllis, 2013. "Life cycle assessment in the construction sector: A review," Renewable and Sustainable Energy Reviews, Elsevier, vol. 26(C), pages 379-388.
    2. Soares, N. & Bastos, J. & Pereira, L. Dias & Soares, A. & Amaral, A.R. & Asadi, E. & Rodrigues, E. & Lamas, F.B. & Monteiro, H. & Lopes, M.A.R. & Gaspar, A.R., 2017. "A review on current advances in the energy and environmental performance of buildings towards a more sustainable built environment," Renewable and Sustainable Energy Reviews, Elsevier, vol. 77(C), pages 845-860.
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    4. Eleftheriadis, Stathis & Mumovic, Dejan & Greening, Paul, 2017. "Life cycle energy efficiency in building structures: A review of current developments and future outlooks based on BIM capabilities," Renewable and Sustainable Energy Reviews, Elsevier, vol. 67(C), pages 811-825.
    5. Anita Naneva & Marcella Bonanomi & Alexander Hollberg & Guillaume Habert & Daniel Hall, 2020. "Integrated BIM-Based LCA for the Entire Building Process Using an Existing Structure for Cost Estimation in the Swiss Context," Sustainability, MDPI, vol. 12(9), pages 1-17, May.
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    7. Kun Lu & Xiaoyan Jiang & Vivian W. Y. Tam & Mengyun Li & Hongyu Wang & Bo Xia & Qing Chen, 2019. "Development of a Carbon Emissions Analysis Framework Using Building Information Modeling and Life Cycle Assessment for the Construction of Hospital Projects," Sustainability, MDPI, vol. 11(22), pages 1-18, November.
    8. Sungwoo Lee & Sungho Tae & Seungjun Roh & Taehyung Kim, 2015. "Green Template for Life Cycle Assessment of Buildings Based on Building Information Modeling: Focus on Embodied Environmental Impact," Sustainability, MDPI, vol. 7(12), pages 1-15, December.
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    Cited by:

    1. Martin Nwodo & Chimay J. Anumba, 2021. "Exergy-Based Life Cycle Assessment of Buildings: Case Studies," Sustainability, MDPI, vol. 13(21), pages 1-15, October.
    2. Regitze Kjær Zimmermann & Simone Bruhn & Harpa Birgisdóttir, 2021. "BIM-Based Life Cycle Assessment of Buildings—An Investigation of Industry Practice and Needs," Sustainability, MDPI, vol. 13(10), pages 1-21, May.
    3. Kai Xue & Md. Uzzal Hossain & Meng Liu & Mingjun Ma & Yizhi Zhang & Mengqiang Hu & XiaoYi Chen & Guangyu Cao, 2021. "BIM Integrated LCA for Promoting Circular Economy towards Sustainable Construction: An Analytical Review," Sustainability, MDPI, vol. 13(3), pages 1-21, January.

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