INVESTIGATING DEBRIS TRANSPORT DURING EXTREME COASTAL EVENTS

Gizem Ezgi Cinar; Patrick Lynett

doi:10.9753/icce.v37.structures.101

Núm. 37 (2022), Coastal Structures

Núm. 37 (2022)

INVESTIGATING DEBRIS TRANSPORT DURING EXTREME COASTAL EVENTS

Coastal Structures

Publicado 2023-09-01

Gizem Ezgi Cinar
Patrick Lynett

Gizem Ezgi Cinar

Patrick Lynett

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INVESTIGATING DEBRIS TRANSPORT DURING EXTREME COASTAL EVENTS. (2023). Coastal Engineering Proceedings, 37, structures.101. https://doi.org/10.9753/icce.v37.structures.101

Resumen

Past extreme coastal events such as the 2004 Indian Ocean Tsunami, the 2011 Tohoku Tsunami and the 2018 Hurricane Michael demonstrated the significance of understanding the debris generation and its transport and impacts during coastal disasters. Although there are many studies on debris loading and impact for damage assessments, very few studies focus on predicting the motion of debris. Nearly all experimental debris motion studies consider tsunami-like flows for the hydrodynamic conditions. Therefore, we still have a major gap in the literature for debris transport under the combined effect of currents and wind waves. Physical model experiments attempted to recreate the dispersion of pier debris to better understand the transport of debris during extreme wave and current events. Visual analysis of spatial and temporal displacement of floating debris was studied performing object detection and tracking by using OpenCV and MATLAB routines.

DOC (Inglés)

Referencias

Cinar, Gizem Ezgi, Adam Keen, and Patrick Lynett. "Motion of a Debris Line Source Under Currents and Waves: Experimental Study." Journal of Waterway, Port, Coastal, and Ocean Engineering 149, no. 2 (2023): 04022033.

Kim, Dae-Hong, Patrick J. Lynett, and Scott A. Socolofsky. "A depth-integrated model for weakly dispersive, turbulent, and rotational fluid flows." Ocean Modelling 27, no. 3-4 (2009): 198-214.

Lynett, Patrick J., Kara Gately, Rick Wilson, Luis Montoya, Diego Arcas, Betul Aytore, Yefei Bai et al. "Inter-model analysis of tsunami-induced coastal currents." Ocean Modelling 114 (2017): 14-32.

Lynett, Patrick, Maile McCann, Zili Zhou, Willington Renteria, Jose Borrero, Dougal Greer, Ofa Fa’anunu et al. "Diverse Tsunamigenesis Triggered by the Hunga Tonga-Hunga Ha’apai Eruption." Nature (2022): 1-2.

Son, Sangyoung, Patrick J. Lynett, and Dae-Hong Kim. "Nested and multi-physics modeling of tsunami evolution from generation to inundation." Ocean Modelling 38, no. 1-2 (2011): 96-113.

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

Derechos de autor 2023 Gizem Ezgi Cinar, Patrick Lynett

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INVESTIGATING DEBRIS TRANSPORT DURING EXTREME COASTAL EVENTS

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