Characterising the transdisciplinary challenge in the development of Sustainable Plus Energy Neighbourhoods – what do emerging innovations tell us?

C Cheng, A Ekambaram
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Abstract

Accelerating decarbonization in the built environment is imperative for a sustainable future. Innovative building concepts on a neighbourhood scale present promising potential to revolutionise how buildings can be designed, built and operated in different climate zones that can bring about a significant decarbonization in the built environment. However, this potential can only be unleashed if a broad range of knowledge and understandings – both technical and non-technical – can be skilfully combined. Yet, such projects are often confronted with a transdisciplinary challenge that is inevitable and inherent. This paper characterises the transdisciplinary challenge in the development of four proofs-of-concept of Sustainable Plus Energy Neighbourhoods (SPENs) in four European countries. It adopts the qualitative research method capturing emerging innovations as practices to position the empirical lens close to what actors do to address the transdisciplinary challenge. The contribution of this paper is to better understand the transdisciplinary challenge that can slow down the uptake of the SPEN concept in the built environment. The paper ends with some suggestions for overcoming the transdisciplinary challenge in the development of neighbourhood scale building projects to unlock its positive effects.
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描述可持续加能源街区发展中的跨学科挑战--新出现的创新告诉我们什么?
要实现可持续发展的未来,就必须加快建筑环境的脱碳进程。街区规模的创新性建筑概念具有巨大的潜力,可以彻底改变不同气候区的建筑设计、建造和运营方式,从而显著降低建筑环境的碳排放。然而,只有将广泛的知识和理解(包括技术和非技术知识)巧妙地结合起来,才能释放这种潜力。然而,此类项目往往面临着不可避免且固有的跨学科挑战。本文介绍了四个欧洲国家在开发四个可持续加能源街区(SPENs)概念验证过程中面临的跨学科挑战。本文采用定性研究方法,将新兴创新作为实践来捕捉,从而将实证镜头对准参与者为应对跨学科挑战而采取的行动。本文的贡献在于更好地理解了跨学科挑战,这种挑战可能会延缓 SPEN 概念在建筑环境中的应用。本文最后提出了一些建议,以便在开发街区规模的建筑项目时克服跨学科挑战,释放其积极效应。
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