MODELING OF DAMAGE PROGRESSION OF RUBBLE MOUND REVETMENT AND APPLICATION TO PERFORMANCE EVALUATION
No. 33 (2012), Coastal Structures
No. 33 (2012)

MODELING OF DAMAGE PROGRESSION OF RUBBLE MOUND REVETMENT AND APPLICATION TO PERFORMANCE EVALUATION

Coastal Structures
https://doi.org/10.9753/icce.v33.structures.50
Published 2012-12-14
Takao Ota
Tottori University
Yoshiharu Matsumi
Nobuaki Kato
Ken-ichi Ohno
ICCE 2012 Cover Image
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Keywords

rubble mound revetment
damage progression
performance evaluation
wave overtopping

How to Cite

Ota, T., Matsumi, Y., Kato, N., & Ohno, K.- ichi. (2012). MODELING OF DAMAGE PROGRESSION OF RUBBLE MOUND REVETMENT AND APPLICATION TO PERFORMANCE EVALUATION. Coastal Engineering Proceedings, 1(33), structures.50. https://doi.org/10.9753/icce.v33.structures.50
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Abstract

In this study, the modeling of damage progression of rubble mound revetment and the performance evaluation based on laboratory experiments and numerical computations are performed. The model profiles for the damaged revetment are made on the basis of the experiments to measure the profile change. The model profiles corresponding to the degree of damage are determined by using some empirical equations that are related to the deformation quantity of the revetment. To examine the change of performance due to damage progression, the model profiles are also used in other experiments and numerical computations. The reflection coefficient and overtopping rate are taken as performance indices. The measured reflection coefficient shows a tendency to decrease, while the overtopping rate increases more than twice as much as that of the initial profile with damage progression of the revetment. The computed reflection coefficient and overtopping rate agree reasonably well with the experimental data.
https://doi.org/10.9753/icce.v33.structures.50
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References

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Coastal Development Institute of Technology. 2008. CADMAS-SURF; Examples of practical calculation, 306pp. (in Japanese)

Kajima, R., T. Sakakiyama, M. Matsuyama, T. Sekimoto and O. Kyoya. 1993. Stability of armor layer of man-made island sea-wall and overtopping due to extremely large irregular waves, Proceedings of 40th Japanese Conference on Coastal Engineering, JSCE, 686-690. (in Japanese)

Kubota, S., M. Yamamoto, A. Matsumoto and M. Hanzawa. 2009. An experimental study on deformation of wave-dissipating concrete blocks covering caisson breakwaters, Journal of Coastal Engineering, JSCE, Vol. 56, 906-910. (in Japanese)

Ota, T., Y. Matsumi, T. Hirayama and A. Kimura. 2010. Proceedings of the International Conference on Coastal Engineering, No. 32(2010), Paper #: structures.38. Retrieved from http://journals.tdl.org/ICCE/

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