JKSCE
KSCE JOURNAL OF CIVIL AND
ENVIRONMENTAL ENGINEERING RESEARCH
KSCE
Contact
ISSN : 1015-6348 (Print)
ISSN : 2799-9629 (Online)
Mobile QR Code
Journal of the Korean Society of Civil Engineers
ISO Journal Title
KSCE J. Civ. Environ. Eng. Res.
Open Access, Bi-monthly
Main Menu
Main Menu
최근호
Current Issue
논문집
Journal Archive
저널소개
About Journal
편집위원회
Editorial Board
논문투고안내
For Authors and Reviewers
윤리규정
Publication Ethics
Principles of Transparency and Best Practice
Business Model
연락처
Contact Info
논문투고
E-submission
Journal Search
Home
All Issues
2022-08
(v.42 n.4)
10.12652/Ksce.2022.42.4.0469
Journal XML
XML
PDF
INFO
REF
References
1
Aniel-Quiroga í., Vidal C., Lara J. L., González M. (2019). "Pressures on a rubble-mound breakwater crown-wall for tsunami impact.", Coastal Engineering, Vol. 152, pp. 103522
2
Chen X., Hofland B., Altomare C., Suzuki T., Uijttewaal W. (2015). "Forces on a vertical wall on a dike crest due to overtopping flow.", Coastal Engineering, Vol. 95, pp. 94-104
3
Contestabile P., Iuppa C., Lauro E. D., Cavallaro L., Andersen T. L., Vicinanza D. (2017). "Wave loadings acting on innovative rubble mound breakwater for overtopping wave energy conversion.", Coastal Engineering, Vol. 122, pp. 60-74
4
Doorslaer K. V., Romano A., Rouck J. D., Kortemhaus A. (2017). "Impacts on a storm wall caused by non-breaking waves overtopping a smooth dike slope.", Coastal Engineering, Vol. 120, pp. 93-111
5
Formentin S. M., Palma G., Zanuttigh B. (2021). "Integrated assessment of the hydraulic and structural performance of crown walls on top of smooth berms.", Coastal Engineering, Vol. 168, pp. 103951
6
Goda Y. (1973). "A new method of wave pressure calculation for the design of composite breakwater", Report of the Port and Harbour Research Institute, Vol. 12, No. 3, Yokosuka, Japan (in Japanese).
7
Goda Y. (2010). "Random seas and design of maritime structures", World Scientific Singapore, ISBN 978-981-4282-39-0
8
Guanche R., Losada I. J., Lara J. L. (2009). "Numerical analysis of wave loads for coastal structure stability.", Coastal Engineering, Vol. 56, No. 5-6, pp. 543-558
9
Jacobsen N. G., van Gent M. R. A., Capel A., Borsboom M. (2018). "Numerical prediction of integrated wave loads on crest walls on top of rubble mound structures.", Coastal Engineering, Vol. 142, pp. 110-124
10
Lee J. I., Lee G. Y., Kim Y. T. (2021). "Horizontal wave pressures on the crown wall of rubble mound breakwater under non-breaking condition.", Journal of Korean Society of Coastal and Ocean Engineers, Vol. 33, No. 6, pp. 321-332 (in Korean)
11
Martin F. L., Losada M. A., Medina R. (1999). "Wave loads on rubble mound breakwater crown walls.", Coastal Engineering, Vol. 37, pp. 149-174
12
Molines J., Herrera M. P., Medina J. R. (2018). "Estimations of wave forces on crown walls based on wave overtopping rates.", Coastal Engineering, Vol. 132, pp. 50-62
13
Nørgaard J. Q. H., Andersen T. L., Burcharth H. F. (2013). "Wave loads on rubble mound breakwater crown walls in deep and shallow water wave conditions.", Coastal Engineering, Vol. 80, pp. 137-147
14
Pedersen J. (1996). "Wave forces and overtopping on crown walls of rubble mound breakwaters", Ph.D. thesis, Series paper 12, ISBN 0909-4296 Hydraulics & Coastal Engineering Lab., Dept. of Civil Engineering, Aalborg University, Denmark.
15
Takahashi S., Tanimoto K., Shimosako K. (1990). "Wave and block forces on a caisson covered with wave dissipating blocks", Report: Port and Harbour Research Institute, Yokosuka, Japan, pp. 3-34
16
van Gent M. R. A., ven der Werf I. (2019). "Influence of oblique wave attack on wave overtopping and forces on rubble mound breakwater crest walls.", Coastal Engineering, Vol. 151, pp. 78-96
