• Proceedings of the Korea Water Resources Association Conference
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• 2004.05b
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• pp.484-489
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• 2004

경사식 방파제에 대하여 수리모형실험을 통하여 방파제의 전사면과 저면에 작용하는 파압을 직접 측정하여 파압의 공간적 분포를 파악하여 보았다. 실험의 길과는 기존의 경사식 방파제에 대하여 파압에 대한 연구는 거의 없기 때문에 Goda(1989, 2002)가 제시한 전사면에 대한 이론식과 비교하여 보았다. 실험은 특정적으로 제시된 방파제 단면에 대한 실험이 아니고, 가상적인 단면을 선정한 후 파랑 및 수심 등의 제조건을 감안하여 파형경사를 산정하고, 이애 맞는 파고와 주기를 산정한 후 제반 해안수리학적 특성중 반사율과 처오름 높이, 사면 및 저면에 작용하는 파압을 직접 측정하여 보았다. 실험결과 전사면에서의 파압 분포는 Goda의 이론식과 경향은 비슷하나 크기는 차이가 나이에 대한 보정은 필요한 것으로 나타났으며, 저면에서의 파압도 측정이 되었지만 이것이 지반지지력에 어떠한 영향을 미치는지는 좀 더 많은 연구가 필요할 것으로 판단되었다.

• KSCE Journal of Civil and Environmental Engineering Research
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• v.35 no.1
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• pp.119-128
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• 2015

This study investigates the wave pressure characteristics of the pile-supported breakwater with single or double perforated walls through 2-D hydraulic experiments and the measured wave pressures are compared to those of wave pressures by Goda's formula. For single chamber, the measured wave pressures in the front wall and rear wall decreased to about 25% and 30%, respectively, compared to those of wave pressures by Goda's formula. Also, the decrease in the wave pressures for double chamber were about 27%, 53%, and 64% in the front wall, middle wall, and rear wall, respectively. It was found that the pile-supported breakwater with double perforated walls was more efficient than the single chamber due to wave dissipation effects of double slit walls with horizontal slits.

• KSCE Journal of Civil and Environmental Engineering Research
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• v.42 no.4
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• pp.469-480
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• 2022

To design the crown wall of rubble-mound breakwaters, the horizontal wave load should be available, but determining this load remains difficult. Lee et al. proposed modification factors for Goda's formula for the horizontal wave pressures on acrown wall. The empirical formula by Lee et al. was based on a two-dimensional model test with a relatively narrow armour crest width in front of the crown wall. In this study, a series of experiments at the same facility were conducted on the horizontal wave pressures on the crown wall of a rubble-mound breakwater with a wide armour crest width. As a result, the pressures of the unprotected part of the crown wall were nearly identical to the narrow crest width. However, the pressures of the protected part tended to decrease with a change in the armour crest width. From the experimental results, the horizontal pressure modification factors of Goda's formula including the armour crest width effect are suggested here and are likely applicable to practical designs of the crown walls of rubble-mound breakwaters covered with tetrapods.

• 한국방재학회:학술대회논문집
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• 2010.02a
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• pp.64.1-64.1
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• 2010

국내 지진해일에 관한 연구 중, 구조물에 직접적인 영향을 미치는 파력에 대한 연구가 현재 미미한 실정이다. 본 연구에서는 파고와 입사각, 그리고 유의주기를 기지값으로 하여 파압을 계산하는 Goda(1974)가 제안한 파압공식을 이용하여 파압을 산정하였다. 파고는 Cho(1995) 모델로 산정하였으며 이를 임원항구의 방파제에 적용하였다.

• KSCE Journal of Civil and Environmental Engineering Research
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• v.31 no.6A
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• pp.425-433
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• 2011

In this study, in order to investigate the wave-induced buoyancy effects, experimental studies were conducted on pontoon-type floating structures. A series of small-scale tests with various wave cases were performed on the pontoon models. A total of four small-scale pontoon models with different lateral shapes and bottom details were fabricated and tested under the five different wave cases. Six hydraulic pressure gauges were attached to the bottom surfaces of the pontoon models and the wave-induced hydraulic pressure was measured during the tests. Finally, hydraulic pressures subjected to the bottoms of the pontoon models were compared with each other. As the results of this study, it was found that whereas the waffled bottom shape hardly influenced the wave-induced hydraulic pressure, the hybrid lateral shape significantly influenced the wave-induced hydraulic pressure subjected on the bottoms of floating structures. The air gap effects of the hybrid shape contribute to decreasing the wave-induced hydraulic pressure due to absorption of wave impact energy. Compared with box type, the hydraulic pressures of the hybrid type were about 83% at the bow, 74% at the middle, and 53% at the stern.

• Journal of Korean Society of Coastal and Ocean Engineers
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• v.34 no.3
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• pp.82-92
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• 2022

In recent years, coastal and port structures have attempted to prevent wave-overtopping or provide waterfront areas by installing superstructures on the structural crowns. In general, in the design stage, the Goda formula acting on the front the structure is applied to calculate the wave pressure acting on the superstructure in consideration of the wave-runup of the design wave. However, the wave pressure exceeding the Goda wave pressure could generate depending on the installation location of the superstructure where the wave-overtopping occurs. This study analyzed the applicability of the Goda formula to the wave pressure calculation for the superstructure of the vertical structures through hydraulic model experiments and numerical simulations. Furthermore, this study investigated the magnitude of the wave pressure acting on the superstructure based on detailed numerical results. As a result, the wave pressure acting on the superstructure was up to 120% higher than the maximum wave pressure on the still water surface. In addition, the wave pressure increases exponentially with the Froude number computed by the overtopping water depth at the crown of the structure, and we proposed an empirical formula for predicting the wave pressure based on the Froude number.

• Proceedings of the Computational Structural Engineering Institute Conference
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• 2011.04a
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• pp.187-190
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• 2011

방파제 설계시 고려되는 파랑하중에 대한 설계 방법으로 기존 설계는 정수압만을 고려한 정적해석을 실시하였으며 최근 설계에서는 정정해석과 동적해석을 동시에 실시하고 있다. 하지만 이때의 동적해석 방법은 파랑하중에 의한 파압을 구조물내의 임의의 지점에서만 산정하여 등가파압으로 적용하여 해석을 하고 있다. 본 연구에서는 방파제의 경사면뿐만 아니라 해저지반에서의 파압을 추가적으로 고려함과 동시에 등 가파압이 아닌 모든 절점에서의 파압을 산정하여 파압을 적용하였다. 그 결과 현재의 설계법과 본연구의 설계법으로 구한 침하량의 값이 상당한 차이를 나타내고 있다.

• Journal of the Korean Geotechnical Society
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• v.27 no.12
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• pp.85-96
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• 2011

A breakwater is a important structure for both calmness of harbor and protection of the port facilities from waves generated from typhoons or wind. This study adopted the rubble mound breakwater, which is one of the most popular type of breakwaters in Korea. Rubble mound breakwater had been designed by considering only static condition previously. Recently, a dynamic wave-load due to waves has been also considered in designing breakwater. In design, the wave-load is assumed as an uniform load which only acts in the front slope of the breakwater. However, the assumption is not applicable in reality. In this study, therefore, a real-time wave-load acting on the breakwater instead of the uniform load is considered, and it is assumed to be acting on the seabed too. Based on the numerical analysis, it is found that there is a significant difference in the maximum settlement compared with the result predicted by the existing design method.

• Journal of Korean Society of Coastal and Ocean Engineers
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• v.25 no.6
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• pp.422-432
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• 2013

A System Identification method to develop parametric models linking free surface elevation and wave pressure is presented and two models are built allowing for either wave pressure or free surface elevation simulation. Linear, time invariant model structures with static nonlinearities are assumed and solutions are sought in a form of autoregressive model with extra input (ARX). An arbitrary chosen free-surface elevation and wave pressure dataset is used for estimation of the models, which are subsequently verified against datasets with similar pressure gauge depth but different free-surface elevation spectra due to different meteorological conditions. It is shown that free-surface simulation using System Identification methods can perform better than traditional linear transfer function derived from linear wave theory (LTF), while wave pressure simulation quality using presented methods is generally similar to that obtained with corrected LTF.

• Journal of Korean Society of Coastal and Ocean Engineers
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• v.33 no.6
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• pp.321-332
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• 2021

The crown wall with parapet on top of the rubble mound breakwater represents a relatively economic and efficient solution to reduce the wave overtopping discharge. However, the inclusion of parapet leads to increased wave pressure on the crown wall. The wave pressure on the crown wall is investigated by physical model test. To design the crown wall the wave loads should be available, and the horizontal wave pressure is still unclear. Regarding to the horizontal wave pressure on the crown wall, a series of experiments were conducted by changing the rubble mound type structure and the wave conditions. Based on these results, pressure modification factors of Goda's (1974, 2010) formula have been suggested, which can be applicable for the practical design of the crown wall of the rubble-mound breakwater covered by tetrapods.