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The integration of biomimicry into a built environment design process model: An alternative approach to hydro-infrastructure.

机译:将仿生技术集成到构建的环境设计过程模型中:水工基础设施的另一种方法。

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摘要

Current methods and processes that support the planning, design and construction of a sustainable built environment include ambiguous principles (Roseland 2000), lack feedback loops (Van Bueren and Jong 2007) and lack a common language between disciplines (Brandon et al 1997). As a result of 3.8 billion years of "research and development" (evolution), nature provides a set of design blueprints that may be used to guide us to create elegant, sustainable, and innovative designs for human technologies (Benyus 1997). The field of biomimicry analyzes nature's best ideas and adapts them for human use (Benyus 1997). The built environment could benefit from the integration of a discipline such as biomimicry into the design process.;One example within the built environment where the field of biomimicry might offer sustainable practices is that of human hydro-infrastructure, since many systems are approaching the end of their useful life (Mays 2002, AWWA 2001). Hydro-infrastructure includes the management of water systems in order to support human civilization. This thesis integrates the field of biomimicry into a design process model that supports the built environment. The design process model proposed in this paper allows a further distillation of components (functions) in order to seek organism strategies that accomplish the same function. These strategies are then translated into conceptual design options applicable to various scales within human hydro-infrastructure. Integrating biomimicry's "Life's Principles" into a built environment process model, will make biomimicry more accessible and thus more widely accepted throughout the industry, and the sustainability of all species will benefit.
机译:当前支持可持续建筑环境规划,设计和建设的方法和过程包括模棱两可的原则(Roseland 2000),缺乏反馈回路(Van Bueren和Jong 2007)以及各学科之间缺乏通用语言(Brandon等1997)。作为38亿年“研发”(演变)的结果,自然提供了一套设计蓝图,可用来指导我们为人类技术创造优雅,可持续和创新的设计(Benyus,1997年)。仿生学领域分析了自然界中最好的想法,并将其应用于人类(Benyus,1997)。建筑环境可以通过将仿生学等学科整合到设计过程中而受益。;在仿生领域可能提供可持续实践的建筑环境中,一个例子是人类水力基础设施,因为许多系统都快要结束了的使用寿命(Mays 2002,AWWA 2001)。水利基础设施包括水系统的管理,以支持人类文明。本文将仿生学领域整合到支持构建环境的设计过程模型中。本文提出的设计过程模型允许进一步蒸馏组分(功能),以寻求实现相同功能的生物策略。然后将这些策略转换为适用于人类水利基础设施内各种规模的概念设计方案。将仿生学的“生命原则”整合到构建的环境过程模型中,将使仿生学更容易获得,从而在整个行业中得到更广泛的接受,并且所有物种的可持续性都将受益。

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  • 作者

    Albertson, Timothy Lee.;

  • 作者单位

    University of Nevada, Las Vegas.;

  • 授予单位 University of Nevada, Las Vegas.;
  • 学科 Design and Decorative Arts.;Architecture.;Water Resource Management.
  • 学位 M.Arch.
  • 年度 2010
  • 页码 90 p.
  • 总页数 90
  • 原文格式 PDF
  • 正文语种 eng
  • 中图分类
  • 关键词

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