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Design Concept for a Greened Timber Truss Bridge in City Area

Author

Listed:
  • Benjamin Kromoser

    (Institute of Structural Engineering, University of Natural Resources and Life Sciences, Vienna, Peter-Jordan-Straße 82, 1190 Vienna, Austria)

  • Martin Ritt

    (designkollektiv GmbH, Rochusgasse 6/1, 1030 Wien, Austria)

  • Alexandra Spitzer

    (designkollektiv GmbH, Rochusgasse 6/1, 1030 Wien, Austria)

  • Rosemarie Stangl

    (Institute of Soil Bioengineering and Landscape Construction, Peter-Jordanstraße 82/III, 1190 Vienna, Austria)

  • Friedrich Idam

    (HTBLA Hallstatt, Abteilung für Holz- und Restauriertechnik, Lahnstraße 69, 4830 Hallstatt, Austria)

Abstract

Properly designed wooden truss bridges are environmentally compatible construction systems. The sharp decline in the erection of such structures in the past decades can be led back to the great effort needed for design and production. Digital parametric design and automated prefabrication approaches allow for a substantial improvement of the efficiency of design and manufacturing processes. Thus, if combined with a constructive wood protection following traditional building techniques, highly efficient sustainable structures are the result. The present paper describes the conceptual design for a wooden truss bridge drawn up for the overpass of a two-lane street crossing the university campus of one of Vienna’s main universities. The concept includes the greening of the structure as a shading design element. After an introduction, two Austrian traditional wooden bridges representing a good and a bad example for constructive wood protection are presented, and a state of the art of the production of timber trusses and greening building structures is given as well. The third part consists of the explanation of the boundary conditions for the project. Subsequently, in the fourth part, the conceptual design, including the design concept, the digital parametric design, the optimization, and the automated prefabrication concept, as well as the potential greening concept are discussed, followed by a summary and outlook on future research.

Suggested Citation

  • Benjamin Kromoser & Martin Ritt & Alexandra Spitzer & Rosemarie Stangl & Friedrich Idam, 2020. "Design Concept for a Greened Timber Truss Bridge in City Area," Sustainability, MDPI, vol. 12(8), pages 1-21, April.
    • Handle: RePEc:gam:jsusta:v:12:y:2020:i:8:p:3218-:d:346290
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    References listed on IDEAS

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    2. Manso, Maria & Castro-Gomes, João, 2015. "Green wall systems: A review of their characteristics," Renewable and Sustainable Energy Reviews, Elsevier, vol. 41(C), pages 863-871.
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    Cited by:

    1. Michael Gräf & Markus Immitzer & Peter Hietz & Rosemarie Stangl, 2021. "Water-Stressed Plants Do Not Cool: Leaf Surface Temperature of Living Wall Plants under Drought Stress," Sustainability, MDPI, vol. 13(7), pages 1-11, April.
    2. Madeleine Hoeft & Marianne Pieper & Kent Eriksson & Hans-Joachim Bargstädt, 2021. "Toward Life Cycle Sustainability in Infrastructure: The Role of Automation and Robotics in PPP Projects," Sustainability, MDPI, vol. 13(7), pages 1-23, March.
    3. Xingwei Xiang & Xiaolong Yang & Jixi Chen & Renzhong Tang & Luoke Hu, 2020. "A Comprehensive Model of Teaching Digital Design in Architecture that Incorporates Sustainability," Sustainability, MDPI, vol. 12(20), pages 1-29, October.
    4. Xingwei Xiang & Qian Wu & Ye Zhang & Bifeng Zhu & Xiaoji Wang & Anping Wan & Tongle Huang & Luoke Hu, 2021. "A Pedagogical Approach to Incorporating the Concept of Sustainability into Design-to-Physical-Construction Teaching in Introductory Architectural Design Courses: A Case Study on a Bamboo Construction ," Sustainability, MDPI, vol. 13(14), pages 1-29, July.

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