resilient design, regenerative design, built environment, technological designAbstract
The paper explains critically principles, methodological approaches and strategic project actions for a greater resilience of the built environment. In particular, the concept of resilience is explored in relation to sustainability and Regenerative Design applied to the built environment. The theme of Regenerative Design is studied and promoted as an adaptive strategy in the planning phase, it requires, compared to Resilience’s theme, that nature strengthens its capacity for self-healing and its integrity, trying to give us back what the industrial development has taken away from the natural system, through the use of integrated regenerative methodologies. We examine in depth the case study of Palma di Montechiaro, that is the creation of Guidelines for the resilient regeneration of the Marina di Palma’s waterfront. The contribution is aimed at academics of architecture and technological design interested in examining in depth the principles and systems of resilient design and sustainable regeneration. These systems are absolutely innovative from a technological and morphological point of view also in the use of vertical gardens with particular local plant species.
Architecture | Essays & Viewpoint
Principles of resilience and regenerative design in coastal environment
Rosa Maria Vitrano
Rosa Maria Vitrano is an Associate Professor of Architectural Technology, Department of Architecture, University of Palermo (Italy). She carries out research activities on the themes of technological innovation, enhancement of the architectural heritage and environmental regeneration in a sustainable way, considering social inclusiveness as a tool for design choices.
Adger, W. N. (2000), “Social and ecological resilience: are they related?”, in Progress in Human Geography, vol. 24, n. 3, pp. 347-364. [Online] Available at: doi.org/10.1191/030913200701540465 [Accessed 10 November 2019].
Angelucci, F., Braz, R. A., Di Sivo, M. and Ladiana, D. (2015), The Technological Design of Resilient Landscape | Il progetto tecnologico del paesaggio resiliente, Franco Angeli, Milano.
De Carlo, G. (1978), “Editoriale”, in Spazio e Società, n. 1, gennaio 1978, p. 6.
Faroldi, E. (2018), “Equilibrio dinamico. Mutazioni e proiezioni della nuova architettura | Dynamic balance. Developments and predictions of a new architecture”, in Techne | Journal of Technology for Architecture and Environment, n. 15, pp. 9-15. [Online] Available at: doi.org/10.13128/Techne-22793 [Accessed 10 November 2019].
Folke, C., Carpenter, S., Elmqvist, T., Gunderson, L., Holling, C. S. and Walker, B. (2002), “Resilience and Sustainable Development: Building Adaptive Capacity, in World of Trasformations”, in Ambio, vol. 31, n. 5, pp. 437-440. [Online] Available at: citeseerx.ist.psu.edu/viewdoc/download?doi=10.1.1.629.3759&rep=rep1&type=pdf [Accessed 10 November 2019].
Francese, D. (2018), “Construction Process’ Compliance to Greenergy | La Conformità del Processo Costruttivo al Tema della Greenergy”, in SMC | Sustainable Mediterranean Construction, n. 6, pp. 3-16. [Online] Available at: www.sustainablemediterraneanconstruction.eu/SMC/The_Magazine_n.6_files/Smc%20N.6_01_view.pdf [Accessed 10 November 2019].
Lorenz, D. F. (2013), “The diversity of resilience: contributions from a social science perspective”, in Natural Hazards, vol. 67, pp. 7-24. [Online] Available at: doi.org/10.1007/s11069-010-9654-y [Accessed 10 November 2019].
Lucarelli, M. T., Mussinelli, E. and Daglio, L. (eds) (2018), Progettare resiliente, Maggioli Editore, Santarcangelo di Romagna. [Online] Available at: re.public.polimi.it/retrieve/handle/11311/1063448/310130/progettare%20resiliente.pdf [Accessed 10 November 2019].
The Rockefeller Foundation and Arup (2014), City Resilience framework, April 2014 (Updated December 2015). [Online] Available at: assets.rockefellerfoundation.org/app/uploads/20140410162455/City-Resilience-Framework-2015.pdf [Accessed 10 November 2019].