Abstract
Regenerative sustainability is gaining great attention as an essential concept for a transformative process, a re-designed mindset shifting from the narrowed focus of considering particular aspects such as energy efficiency, renewable materials, or sustainable technology towards the creation of a self-regenerating social and ecological system. Apart from being a vision of the future, regenerative sustainability has already been implemented successfully in individual projects, plans, and extensive strategies. The goals of this research are (1) to set up the conceptual framework for regenerative sustainability principles in the built environment; (2) to investigate and identify the drivers and barriers faced during the implementation of regenerative principles in the built environment; and (3) to identify gaps in the paradigm shift towards regenerative districts and macro-level projects. A multi-stage methodology was implemented. First, an in-depth literature review was conducted aiming to understand regenerative sustainability state of the art and define the key principles. Then, quantitative data analysis was conducted aiming to identify drivers and barriers of regenerative implementation in buildings following by semi-structured interviews with the representatives of regenerative buildings or districts. The step-by-step methodology resulted in the identified drivers of applying the regenerative principles, which are available financial incentives; marketing and sales benefits; improved companies/investors market image and competitive market advantage; reduced building lifecycle costs/effective use of energy and resources; enhancement buildings’ users’ well-being; and receiving building certification. The main barriers identified were lack of knowledge and experience working with regenerative materials and technologies by employees, consultants, and construction companies and usage of the available tools that enable such constructions; overall stakeholders’ culture and their resistance to changing their mindset toward a regenerative approach; inadequacy of national and international standards and legislation to address regenerative policies; and increased construction cost and time and lack of financial incentives. Ultimately, during the broad examination of the case studies, regenerative qualities served as a valuable insight to understand barriers and drivers at neighborhood and macro levels.
Highlights
Ambitious global climate protection targets were agreed on for the first time in 2015 with the Paris Agreement
Since there are no clearly defined criteria for a regenerative design of the built environment so far, we derived them from the available literature, i.e., [7,52,53], based on
“regenerative standards” [5], and based on the 17 UN’s sustainability goals, following the twelve principles as the basis for our concept of regenerative sustainability. These twelve principles reflect the original idea of John Tillmann Lyle [7], according to which sustainable development is based on a model of circular processes of the ecosystem, with the aim of mutually beneficial coevolution of the social and ecological system
Summary
Ambitious global climate protection targets were agreed on for the first time in 2015 with the Paris Agreement. The construction sector is responsible for a third of greenhouse gas emissions worldwide [1]. This means that in the construction industry, urgent decarbonization measures are required to contribute to achieving the climate goals by significantly reducing emissions. To meet these challenges, a rethinking from a narrow focus on the consideration of individual aspects such as energy efficiency, renewable materials, or sustainable technology toward the creation of a self-regenerating social and ecological system is required [2,3,4]
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