Future in process... Sustainability, participation and the building life cycle

Research output: ThesisMaster's ThesisResearch

Abstract

The architectural thesis presented can be understood as the report of an exploration of sustainability, participation and the building life cycle. Against the background of changing societies and our planet’s changing climate, the project presented deals with the various aspects of sustainability, and tries to envision a democratic and sustainable design process supported by technology. To identify the goal and purpose for the project, a participatory design process with a co-housing group in Austria was performed to detect the group’s common vision and requirements towards a residential building. Through several workshops aspects like spatial sufficiency, flexibility and adaptability as well as the integration of shared common spaces were elaborated and shaped into first conceptual designs. To assess and improve the environmental performance of these concepts and support fact-based design decisions, a variety of scenarios for building materialisation, energy standard and energy supply mix were compared using the method of Life Cycle Assessment (LCA). Working towards the integration of LCA into the architectural design and planning process, a prototypical workflow to combine LCA with the planning method of Building Information Modelling (BIM) was developed. Through the application of visual scripting, essential steps of LCA could be integrated into a BIM workflow and novel methods, of communicating assessment results using the digital building model, could be shown.
Original languageGerman
Publication statusPublished - 2016

Keywords

    Cite this

    Future in process... Sustainability, participation and the building life cycle. / Röck, Martin.

    2016.

    Research output: ThesisMaster's ThesisResearch

    @phdthesis{f4954347a8ed4c6ba155f2ea184237b1,
    title = "Future in process... Sustainability, participation and the building life cycle",
    abstract = "The architectural thesis presented can be understood as the report of an exploration of sustainability, participation and the building life cycle. Against the background of changing societies and our planet’s changing climate, the project presented deals with the various aspects of sustainability, and tries to envision a democratic and sustainable design process supported by technology. To identify the goal and purpose for the project, a participatory design process with a co-housing group in Austria was performed to detect the group’s common vision and requirements towards a residential building. Through several workshops aspects like spatial sufficiency, flexibility and adaptability as well as the integration of shared common spaces were elaborated and shaped into first conceptual designs. To assess and improve the environmental performance of these concepts and support fact-based design decisions, a variety of scenarios for building materialisation, energy standard and energy supply mix were compared using the method of Life Cycle Assessment (LCA). Working towards the integration of LCA into the architectural design and planning process, a prototypical workflow to combine LCA with the planning method of Building Information Modelling (BIM) was developed. Through the application of visual scripting, essential steps of LCA could be integrated into a BIM workflow and novel methods, of communicating assessment results using the digital building model, could be shown.",
    keywords = "BIM, ETH, LCA, R{\"o}ck, TU Graz, design process, participation",
    author = "Martin R{\"o}ck",
    year = "2016",
    language = "deutsch",

    }

    TY - THES

    T1 - Future in process... Sustainability, participation and the building life cycle

    AU - Röck, Martin

    PY - 2016

    Y1 - 2016

    N2 - The architectural thesis presented can be understood as the report of an exploration of sustainability, participation and the building life cycle. Against the background of changing societies and our planet’s changing climate, the project presented deals with the various aspects of sustainability, and tries to envision a democratic and sustainable design process supported by technology. To identify the goal and purpose for the project, a participatory design process with a co-housing group in Austria was performed to detect the group’s common vision and requirements towards a residential building. Through several workshops aspects like spatial sufficiency, flexibility and adaptability as well as the integration of shared common spaces were elaborated and shaped into first conceptual designs. To assess and improve the environmental performance of these concepts and support fact-based design decisions, a variety of scenarios for building materialisation, energy standard and energy supply mix were compared using the method of Life Cycle Assessment (LCA). Working towards the integration of LCA into the architectural design and planning process, a prototypical workflow to combine LCA with the planning method of Building Information Modelling (BIM) was developed. Through the application of visual scripting, essential steps of LCA could be integrated into a BIM workflow and novel methods, of communicating assessment results using the digital building model, could be shown.

    AB - The architectural thesis presented can be understood as the report of an exploration of sustainability, participation and the building life cycle. Against the background of changing societies and our planet’s changing climate, the project presented deals with the various aspects of sustainability, and tries to envision a democratic and sustainable design process supported by technology. To identify the goal and purpose for the project, a participatory design process with a co-housing group in Austria was performed to detect the group’s common vision and requirements towards a residential building. Through several workshops aspects like spatial sufficiency, flexibility and adaptability as well as the integration of shared common spaces were elaborated and shaped into first conceptual designs. To assess and improve the environmental performance of these concepts and support fact-based design decisions, a variety of scenarios for building materialisation, energy standard and energy supply mix were compared using the method of Life Cycle Assessment (LCA). Working towards the integration of LCA into the architectural design and planning process, a prototypical workflow to combine LCA with the planning method of Building Information Modelling (BIM) was developed. Through the application of visual scripting, essential steps of LCA could be integrated into a BIM workflow and novel methods, of communicating assessment results using the digital building model, could be shown.

    KW - BIM

    KW - ETH

    KW - LCA

    KW - Röck

    KW - TU Graz

    KW - design process

    KW - participation

    M3 - Masterarbeit

    ER -