A new empirical distribution for the design wave heights under the impact of typhoons

•Build "Extreme Value-Pareto" model, which can fit the data of "sharp peak and thick tail".•The formulas of design wave heights are given, in which typhoon factor is added.•The formulas focuse more on the elastic requirements of tail data modeling. In the South China Sea, where s...

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Bibliographic Details
Published in:Applied ocean research 2021-06, Vol.111, p.102679, Article 102679
Main Authors: Liu, Guilin, Cui, Ke, Jiang, Song, Kou, Yi, You, Zaijin, Yu, Pubing
Format: Article
Language:English
Subjects:
Design wave heights
Storm surge
Thick tail data
Threshold value
Typhoon
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Summary:•Build "Extreme Value-Pareto" model, which can fit the data of "sharp peak and thick tail".•The formulas of design wave heights are given, in which typhoon factor is added.•The formulas focuse more on the elastic requirements of tail data modeling. In the South China Sea, where storm surges are frequent, accurate calculation of the design wave heights is crucial to the coastal structures and subsequent disaster prevention and relief. The data sampling methods have developed from annual extreme value sampling to over threshold value sampling to use the precious observed wave heights more effectively. However, the problems still exist, resulting in "sharp peak" and "thick tail" for the over threshold data. And traditional design wave heights estimation models cannot fully fit the tail of the data. The strong typhoon also makes the variation patterns of associated wave height factors highly uncertain. To address these issues, this study proposes a Poisson—Gumbel-Pareto distribution model based on the cumulative distribution functions and the combined extreme value distribution theory. The new model not only takes the impacts of typhoon frequency on wave heights into consideration when the wave heights are over the threshold, it can better represent the peak of the data, and also makes the tail of the probability density function curves gradually descend, that is, the tail data can be fully utilized and fitted using this new method. Taking the measured wave and typhoon data from the Naozhou Ocean Observatory in the South China Sea from 1990 to 2016, the design wave heights in the western Guangdong waters have been calculated on the level of once-in-many-years, the design wave heights for 100-year and 200-year are 9.51m and 10.11m respectively. The analysis shows that the new empirical distribution improves the previous extreme value models' disadvantages, with reasonable and stable projections in the high return periods, which is especially favorable when dealing with extreme sea conditions.
ISSN:0141-1187
1879-1549
DOI:10.1016/j.apor.2021.102679