10.5281/zenodo.1574835
https://zenodo.org/records/1574835
oai:zenodo.org:1574835
Mendonça, A.C.
A.C.
Mendonça
0000-0002-4060-2650
LNEC
Lemos, R
R
Lemos
LNEC
Fortes, C.J.
C.J.
Fortes
0000-0002-5503-7527
LNEC
Reis, M.T
M.T
Reis
LNEC
Neves, M.G
M.G
Neves
0000-0001-9022-702X
LNEC
Capitão, R
R
Capitão
0000-0003-3915-9951
LNEC
Overtopping events in breakwaters under climate change scenarios [Dataset]. Zenodo
Zenodo
2018
breakwaters, overtopping, physical modeling
2018-11-27
eng
10.5281/zenodo.1574834
https://zenodo.org/communities/hydralab
Creative Commons Attribution 4.0 International
Reliable prediction of wave run-up/overtopping and structure damage is a key task in the design and safety assessment of coastal and harbor structures. Run-up/overtopping and damage must be below acceptable limits, both in extreme and in normal operating conditions, to guarantee the stability of the structure and the safety of people and assets on and behind the structure. The mean-sea-level rise caused by climate change and its effects on wave climate may increase the number and intensity of run-up/overtopping events and make the existing coastal/harbor structures more vulnerable to damage.
Accurate estimates, through physical modelling, of the statistics of overtopping waves for a set of climate change conditions, are needed. The research project HYDRALAB+ (H2020-INFRAIA-2014-2015) gathers an advanced network of environmental hydraulic institutes in Europe, which provides access to a suite of environmental hydraulic facilities. They play a vital role in the development of climate change adaptation strategies, by allowing the direct testing of adaptation measures and by providing data for numerical model calibration and validation. The use of physical (scale) models allows the simulation of extreme events as they are now, and as they are projected to be under different climate change scenarios.
The enclosed dataset refers to the experimental work developed at LNEC within HYDRALAB+ and considers 2D damage and overtopping tests for a rock armor slope, with four different approaches to represent storms. Data of free surface elevation, overtopping and damage is presented.
European Commission
10.13039/501100000780
654110
HYDRALAB+ Adapting to climate change