SPH AND ANALYTICAL MODELING OF AN URBAN FLOATING STRUCTURE FOR COASTAL EXPANSION
ICCE 2022
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Cómo citar

SPH AND ANALYTICAL MODELING OF AN URBAN FLOATING STRUCTURE FOR COASTAL EXPANSION. (2023). Coastal Engineering Proceedings, 37, structures.12. https://doi.org/10.9753/icce.v37.structures.12

Resumen

The development of large-scale floating structures is recognized by the American Society of Civil Engineers as a critical step towards resilient coastal cities for climate change adaptation (ASCE, 2019). Yet, a lack of design guidelines acts to limit their development at the community scale. In response, we demonstrate and validate the applicability of a simplified analytical procedure against numerical solutions to elucidate the dynamics of a freely-floating pontoon-building system. This effectively presents a pathway towards the evaluation of structural requirements for the realization of floating cities as a sustainable alternative to traditional land reclamation.
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Referencias

ASCE (2019): Future World Vision: Infrastructure Reimagined, AMERICAN SOCIETY OF CIVIL ENGINEERS, Reston, VA 20191

Kraskowski (2010): Simulating hull dynamics in waves using a RANSE code, Ship Technology Research, TAYLOR & FRANCIS, vol. 57, pp. 120-127

Wang, Drimer, Goldfeld (2020): Modular floating structures (MFS) for offshore dwelling: a hydrodynamic analysis in the frequency domain, Ocean Engineering, ELSEVIER, vol. 216, pp. 107996

Creative Commons License

Esta obra está bajo una licencia internacional Creative Commons Atribución 4.0.

Derechos de autor 2023 Shengzhe Wang