为南非可持续建筑环境探索蓝绿屋顶

IF 3.5 Q3 GREEN & SUSTAINABLE SCIENCE & TECHNOLOGY
D. Aghimien, John Aliu, C. Aigbavboa
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引用次数: 0

摘要

目的 当前气候条件的不利变化要求采用蓝绿屋顶等基于自然的创新解决方案,以确保建筑环境的可持续发展。在应对气候变化问题方面,蓝绿屋顶的使用不断增加,许多国家的研究都展示了蓝绿屋顶的好处。然而,目前还没有关于在南非使用这种方法的报告。因此,为了通过基于自然的解决方案确保可持续的建筑环境,本研究探讨了建筑环境专业人员对蓝绿屋顶的了解、使用蓝绿屋顶的障碍以及在南非更广泛使用蓝绿屋顶的动机。数据分析采用了 Cronbach alpha 检验、Kruskal-Wallis H 检验、探索性因素分析和模糊合成评价。研究结果研究结果表明,尽管蓝绿屋顶在国内的采用速度缓慢,但人们对蓝绿屋顶的认识却在不断提高。此外,还发现了影响蓝绿屋顶使用的五个关键障碍群。它们是对蓝绿屋顶概念的理解、技术、经济、法规和客户障碍。此外,适当管理雨水、适应气候变化和提供可持续建筑的能力是推动使用这种创新解决方案的关键因素。 这项研究为建筑环境专业人员和利益相关者提供了可操作的见解,以解决在南非使用蓝绿屋顶的障碍。改进教育、财政激励和政策制定等策略有助于克服一些明显的障碍,促进蓝绿屋顶的广泛采用。从理论上讲,作为南非探索蓝绿屋顶的最重要研究之一,研究结果为今后在南非进一步探索这种屋顶系统的研究奠定了基础。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Exploring blue-green roof for a sustainable built environment in South Africa
PurposeThe current adverse changes in climatic conditions have necessitated innovative nature-based solutions like blue-green roofs to ensure sustainable built environments. The use of blue-green roofs in combating climate change issues has continued to grow, and its benefits are showcased in many countries' studies. However, there is an absence of reports on the use of this approach in South Africa. Therefore, in ensuring a sustainable built environment through nature-based solutions, this study explored the built environment professional’s knowledge of blue-green roofs, the hindrances to their use and motivations for much wider use of blue-green roofs in the country.Design/methodology/approachBased on the nature of the study, a quantitative design was adopted and data were obtained from professionals within the built environment through a questionnaire. Data analyses were conducted using the Cronbach alpha test, Kruskal–Wallis H-Test, exploratory factor analysis and fuzzy synthetic evaluation.FindingsThe findings revealed a growing knowledge of blue-green roofs, albeit its slow adoption in the country. Also, five critical clusters of hindrances affecting the use of blue-green roofs were identified. These are understanding the blue-green roof concepts, technical, economic, regulation and client hindrances. Furthermore, the ability to manage stormwater properly, provide climate change adaptation and deliver sustainable buildings were the key motivating factors that could drive the use of this innovative solution.Practical implicationsThis study offers actionable insights for built environment professionals and stakeholders to address the hindrances to using blue-green roofs in South Africa. Strategies such as improved education, financial incentives and policy development can help overcome some notable hindrances and promote the widespread adoption of blue-green roofs.Originality/valueThe slow adoption of blue-green roofs and the scant nature of research within the built environment required adequate attention to which this current research contributes. Theoretically, being one of the foremost studies in South Africa to explore blue-green roofs, the findings offer a foundation for future studies seeking to explore this roofing system in the country further.
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来源期刊
Smart and Sustainable Built Environment
Smart and Sustainable Built Environment GREEN & SUSTAINABLE SCIENCE & TECHNOLOGY-
CiteScore
9.20
自引率
8.30%
发文量
53
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