태풍 기인 연안침식 예측의 불확실성 분석: 사례연구-일산해변 KCI

Title
태풍 기인 연안침식 예측의 불확실성 분석: 사례연구-일산해변
Alternative Title
Sensitivity Analysis in the Prediction of Coastal Erosion due to Storm Events: case study-Ilsan beach
Author(s)
손동휘; 유제선; 신현화
KIOST Author(s)
Son, Donghwi(손동휘)Yoo, Jeseon(유제선)
Publication Year
2019-07
Abstract
In coastal morphological modelling, there are a number of input factors: wave height, water depth, sand particle size, bed friction coefficients, coastal structures and so forth. Measurements or estimates of these input data may include uncertainties due to errors by the measurement or hind-casting methods. Therefore, it is necessary to consider the uncertainty of each input data and the range of the uncertainty during the evaluation of numerical results. In this study, three uncertainty factors are considered with regard to the prediction of coastal erosion in Ilsan beach located in Ilsan-dong, Ulsan metropolitan city. Those are wave diffraction effect of XBeach model, wave input scenario and the specification of the coastal structure. For this purpose, the values of mean wave direction, significant wave height and the height of the submerged breakwater were adjusted respectively and the followed numerical results of morphological changes are analyzed. There were erosion dominant patterns as the wave direction is perpendicular to Ilsan beach, the higher significant wave height, and the lower height of the submerged breakwater. Furthermore, the rate of uncertainty impacts among mean wave direction, significant wave height and the height of the submerged breakwater are compared. In the study area, the uncertainty influence by the wave input scenario was the largest, followed by the height of the submerged breakwater and the mean wave direction.
ISSN
2288-7903
URI
https://sciwatch.kiost.ac.kr/handle/2020.kiost/585
Bibliographic Citation
한국연안방재학회지, v.6, no.3, pp.111 - 120, 2019
Publisher
(사)한국연안방재학회
Keywords
Sensitivity analysis; Coastal morphological changes; Beach erosion; Numerical modelling; Ilsan beach
Type
Article
Language
Korean
Publisher
(사)한국연안방재학회
Related Researcher
Research Interests

Coastal disaster,Coastal numerical modeling,Coastal remote sensing,연안재해,수치모델링,연안 원격탐사

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