The paper aims to identify a set of systemic measures that, through the temporary use of devices, space configurators, and installations, is capable of responding promptly to the vulnerability factors of a given outdoor space, flanking adaptation plans which require time to be assimilated into ordinary territory management tools. Based on the INTERREG Italy-Croatia Joint_SECAP project data of 9 target areas located on the two sides of the Adriatic Sea the document refers to a reference framework on risks and vulnerabilities of urban coastal areas and recurring climatic events. From a case studies analysis, built on climate hazards and on outdoor space configurations, the paper extracts replicability features and attempts to propose feasible models based on reversible and reconfigurable matrices that can be exported into contexts with similar characteristics. It follows that a technological design sensitivity capable of enhancing elastic spatial set-ups must be consolidated in order to address the needs of a specific outdoor space, during a climatic, or non-climatic event, assuming that the city is a continuously evolving organism, with an in-grown ability to accommodate the variability of events.

Temporary Climate Change Adaptation: 5 Measures for Outdoor Spaces of the Mid-Adriatic City

TIMOTHY DANIEL Brownlee
Primo
2023-01-01

Abstract

The paper aims to identify a set of systemic measures that, through the temporary use of devices, space configurators, and installations, is capable of responding promptly to the vulnerability factors of a given outdoor space, flanking adaptation plans which require time to be assimilated into ordinary territory management tools. Based on the INTERREG Italy-Croatia Joint_SECAP project data of 9 target areas located on the two sides of the Adriatic Sea the document refers to a reference framework on risks and vulnerabilities of urban coastal areas and recurring climatic events. From a case studies analysis, built on climate hazards and on outdoor space configurations, the paper extracts replicability features and attempts to propose feasible models based on reversible and reconfigurable matrices that can be exported into contexts with similar characteristics. It follows that a technological design sensitivity capable of enhancing elastic spatial set-ups must be consolidated in order to address the needs of a specific outdoor space, during a climatic, or non-climatic event, assuming that the city is a continuously evolving organism, with an in-grown ability to accommodate the variability of events.
2023
978-3-031-25794-0
268
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11581/472843
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