• Proceedings of the Korea Water Resources Association Conference
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• 2021.06a
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• pp.5-5
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• 2021

최근 기후변화로 인해 예측이 어려운 국지성 호우가 빈번하게 발생하고 있다. 국지성 호우는 대량의 홍수를 일으키고 산사태와 유송잡물을 동반한 흐름을 야기할 수 있으며 이로 말미암아 인근의 초목과 식생들로부터 유목(driftwood)이 발생하기도 한다. 유목이 흐름과 함께 떠내려 오게 되면 그로 인한 운동에너지가 크게 발생하게 되며, 수공구조물과 주택가옥 등에 충돌시, 순수한 수류의 충돌보다 훨씬 큰 손상을 주기도 한다. 또한 유목이 수공구조물 인근 하상에 군집하면 통수능을 저하시키기도 하며 식생효과와 마찬가지로 유목주변으로 유속이 증가하면서 세굴현상이 발생하게 되는데, 이는 하상저하를 일으키며 수공구조물의 안정성에 지속적으로 피해를 줄 수 있다. 특히 군집된 유목들이 교각에 충격을 주면 흐름방향으로 교각에 작용하는 외력을 증가시키게 되고 군집된 유목들이 다른 유목들을 연쇄적으로 포착하는 동시에 흐름을 지속적으로 방해하여 수위상승을 야기하게 된다. 이는 유목주변으로 세굴을 발생시켜 교량의 붕괴를 촉진시킬 수 있다. 일본의 경우에는 대부분의 하천유역의 경사가 매우 급하기 때문에 홍수발생시 산사태와 유송잡물들이 빈번하게 발생하고 있다. 그에 따라 대량의 유목들이 하천으로 유입되어 하천의 수공구조물과 주거지역에 심각한 피해를 주는 경우도 많다. 따라서 유목의 거동과 군집현상을 이해하여 사전에 유목거동의 예측과 유목과 하상변동의 상호작용 분석을 통해 유목에 의한 수리구조물 피해를 예측하는 연구들이 필요할 것으로 판단된다. 본 연구는 유목의 거동과 군집양상을 예측분석하기 위해 유목과 흐름의 이동상 실내실험과 수치해석을 수행하여 유목유입량에 따른 하상변동과 유목의 하상퇴적양상 및 다양한 거동을 관측분석 하였다. 특히, 유목간의 상호충돌과 측벽충돌을 고려하는 수치모듈을 유목동역학모형에 적용하여 수치해석을 수행하였다. 이를 통해 이동상 하상에서의 유목의 군집과정을 분석하고 수치해석의 한계와 개선사항들을 논의하였다.

• Journal of Korea Water Resources Association
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• v.54 no.6
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• pp.407-418
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• 2021

In this study, the two-dimensional flow model, Nays2DH, and driftwood dynamics model were combined to analyze the flow and driftwood behavior depending on the characteristics of the inflow of driftwood and the length of the driftwood stem. In particular, the Dashpot-spring model was added to the driftwood dynamics model to simulate the collision motion of the driftwood, and the wood jam characteristics by the collision of the driftwood were compared. As a result of the simulation, the pass rate of the obstacle section, the travel distance of wood jam, and the mean position of the wood pieces were respondent sensitively by the length of the driftwood stem, but the cohort size of the driftwood supply was insignificant excepting for the pass rate. Through this study, we could understand the interaction between hydraulic structures and driftwood, and through this, it is believed that it will be helpful in establishing a durable maintenance plan for hydraulic structures by predicting the transport and jam formation phenomena of driftwood in advance.

• Proceedings of the Korea Water Resources Association Conference
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• 2021.06a
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• pp.66-66
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• 2021

2011년에 일본 도호쿠 지방 태평양 해역에서 규모 9.0의 지진이 발생하여 거대한 쓰나미가 일본 본토 해안을 침수시켰다. 이로 인해, 정확한 피해규모가 파악되기 어려울 정도로 막대한 인명과 재산피해를 입게 되었다. 센다이지역의 경우 쓰나미로 인해 해안에 위치한 약 3.8 평방킬로미터의 방풍림이 모두 전복되었고 일부는 유목이 되어 쓰나미와 함께 내륙으로 흘러들어가 곳곳에 퇴적되어 농지를 훼손하고 가옥에 피해를 주었다. 따라서, 본 연구는 유목의 발생과 흐름에 따른 거동을 수치적으로 분석하여, 폭우나 쓰나미와 같은 거대흐름과 산지와 방풍림 등에서 발생하는 유목의 발생과 거동과정을 예측하고, 흐름과 유목 거동에 따른 피해지역을 선별할 수 있는 방법을 구축하기 위한 초기단계로서, 이를 위해 유목의 발생과정의 역학적 모델링을 수치모듈에 적용하였고 이를 활용하여 수치모의를 수행하였다. 흐름분석을 위해 쓰인 모형은 홍수범람 모형인 Nays2D Flood 이며 천수방정식을 기본으로 한다. 쓰나미의 흐름은 해안가의 방풍림지역을 상류단 경계조건으로 하여 발생 당시 관측된 수심변화를 본 모형의 상류단 경계조건으로 입력하였다. 상류단 경계조건에서 쓰나미의 유속은 수심에 따른 파속으로 계산하였다. 본 연구에서는 또한 유목의 발생과 흐름거동을 기존에 개발된 입자법 기반의 유목동역학모형을 활용하여 수치적으로 모델링 하였다. 유목은 유연성이 없는 원주형 강체로 가정하였고 초기설정으로는, 방풍림지역에 30만개의 유목이 하상의 수직방향으로 배치되어있는 것으로 가정하였다. 여기서, 본 연구에서는 쓰나미가 발생하면 흐름에 따른 항력으로 인해 수직방향으로 배치된 유목이 부러지며, 흐름과 함께 흘러가는 현상을 모델링하였다. 본 연구는 폭우나 쓰나미와 같은 거대흐름으로 인해 발생할 수 있는 유송잡물과 유목의 거동을 예측분석하는 기초연구자료로 활용될 수 있으며, 더 나아가 유목의 발생과정까지 수치적으로 재현하는 모델링을 수행하였기 추후에, 산지와 하천에서 발생할 수 있는 유송잡물의 발생과 연행 과정을 보다 세부적으로 예측할 수 있는 기초방법론으로 쓰일 수 있을 것으로 판단된다.

• Journal of Korean Society of Forest Science
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• v.86 no.1
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• pp.69-79
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• 1997

The purpose of this study is to acquire essential data to reduce the amount of woody debris resulted from the debris flow. This research examined topographic characteristics of the channelbed affecting generation, movement and storage of woody debris and woody characteristics related to number, sizes, shapes, decay, storage direction to mountainous stream. 1. The number of woody debris had a tendency to increase in proportion to stream width, but it was hardly affected by longitudinal gradient of stream. Especially, the greater amount of woody debris was stored at wide section of the stream with compound channel, and it was found in deposits of channelbed rather than in the present channel. 2. Total woody debris over 10cm in diameter and over 2m in length was 402 units and storage number was 35.3 units per 100m of stream. Average diameter of breast height and length were 14cm and 4m, respectively. The woody debris appeared shorter in length and greater in diameter at down-stream than up-stream. 3. Since woody debris met sediments and bed-materials of great roughness in moving, the greater amount of woody debris without root was found in up-stream and down-stream, but deformed woody debris was discovered in upper stream. Decay of woody debris was more severe in down-stream and woody debris on rotting process was found down-stream. 4. Storage direction of woody debris was mainly parallel to center line of stream, and rate of parallel and perpendicularity was 276 and 126 units, respectively. But, as woody debris storing to the perpendicular direction was unstable, the traveling debris could easily be stored. Therefore, some counterplan was required to prevent the traveling woody debris. 5. Tree species of woody debris was mainly larch, which occupied about two third of total woody debris(256 units). The woody debris of larch is easy to move due to hitting of channelbed materials or lower channelbed fluctuation because the lower part of larch is weaker than its upper part. Therefore, the section of the tree species planting in the riparian vegetation needs much more carefulness.

• Ecology and Resilient Infrastructure
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• v.8 no.4
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• pp.165-178
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• 2021

We studied driftwood behaviors including generation and deposition in a tsunami using a numerical simulation. We used an integrated two-dimensional numerical model, which included a driftwood dynamics model. The study area was Sendai, Japan. Observation data collected by Inagaki et al. (2012) were used to verify the simulation results by comparing them with driftwood deposition patterns. A simplified model was developed to consider the threshold of driftwood generation by the drag force of water flows. To consider the volume of driftwood generated, we estimated the total wood number in the study area using Google Earth. Therefore, we simulated more than 13,000 pieces of driftwood that were generated and transported inland from approximately 300,000 trees that were growing in the forest. The final distribution of the driftwood was similar to the observation data. The reproducibility of the generation and deposition patterns of driftwood showed good agreement in terms of longitudinal deposition pattern. In the future, a sensitivity analysis on driftwood parameters, such as the size of the wood, boundary conditions, and grid size, will be implemented to predict the travel patterns of driftwood. Such modeling will be a useful methodology for disaster prediction based on water flow and driftwood.

• Ecology and Resilient Infrastructure
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• v.7 no.4
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• pp.336-344
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• 2020

The prediction and evaluation of driftwood accumulation around river-crossing structures are essential because driftwood accumulation increases during flood disasters. In this study, the driftwood accumulation and behavior around bridge piers were evaluated via a numerical model that could be employed to analyze three-dimensional turbulent flow and driftwood motion. The moving particle semi-implicit-based model for driftwood motion was sensitive to the number of spheres. The numerical results showed that the approach velocity and the ratio of driftwood length to pier width were the key factors influencing driftwood accumulation, whereas the driftwood density had only a minor influence. Overall, it is expected that this study will contribute to the development of improved risk evaluation indexes for assessing driftwood accumulation around river-crossing structures.

• Proceedings of the Korea Water Resources Association Conference
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• 2023.05a
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• pp.138-138
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• 2023

본 연구에서는 유목과 연행침식을 고려한 토석류 수치모형을 개발하여 2011년 발생한 우면산 산사태의 관측데이터를 기반으로 수치모의를 수행하였다. 토석류 모형개발을 위해 천수방정식 기반의 침수모형인 Nays2DFlood 모형에 혼합유사농도의 이송확산, 토석류 지면전단응력, 연행침식모듈을 추가하였으며 유목생성과 유목거동 모의를 위해 입자법 기반의 유목동력학 모형을 결합하였다. 개발된 모형을 검증하기 위해, 민감도분석을 수행하였으며, 모의결과, 우면산 산사태 당시 래미안 APT에 피해를 끼친 충격수심과 충격유속, 최종 토석류 체적을 양호하게 재현한 것으로 판단된다. 또한 토석류를 구성하는 토사입경이 작을수록 토사점성에 의한 전단응력의 증가로 토석류 유속과 수심이 감소했지만 연행침식량이 증가하였으며, 토사입경이 증가하면 유속과 수심이 증가하고 연행침식량은 감소한 것으로 나타났다. 또한 본 연구에서 개발된 토석류 거동모형은 토사입경, 침식 및 퇴적계수 등의 다양한 토석류 매개변수가 요구되기 때문에, 이러한 물성치 데이터가 현장 또는 실내실험에서 충분히 확보되어야 모형의 정확도가 향상될 것으로 판단된다. 따라서, 향후 연구에서는 본 연구에서 고찰된 모형의 적용성과 한계점을 고려하여 토석류 거동을 예측모의 한다면 보다 세부적으로 토석류와 유목거동을 예측분석해 볼 수 있을 것으로 사료된다. 또한 본 연구의 결과는 기후변화로 인한 강우발생의 불확실성과 이로 야기되는 토석류 발생을 사전에 예측하여 토석류 저감대응방안을 구축하는 일환으로 활용 될 수 있을 것으로 기대된다.

• Journal of Korean Society of Forest Science
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• v.101 no.3
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• pp.333-343
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• 2012

In-stream large wood (LW) has a critical impact on the geomorphic characteristics relevant to ecosystem management and disaster prevention, yet relatively little is known about variations in its dynamics and subsequent export on the watershed-scale perspective in Korea. Here we review variations in the dynamics and subsequent export of LW as a function of stream size, which is appropriate for Korean mountain streams. In upstream channels with narrow bankfull widths and low stream discharges, a massive amount of LW, resulting from forest dynamics and hillslope processes, may persist for several decades on valley floor. These pieces, however, are eventually transported during infrequent debris flows from small tributaries, as well as peak hydrology in main-stem channels. During the transport, these pieces suffer fragmentation caused by frictions with boulders, and stream bank and bed. Although infrequent, these events can be dominant processes in the export of significant amounts of LW from upstream channel networks. In downstream channels with wide bankfull widths and high stream discharges, LW is dominantly recruited by forest dynamics and bank erosion only at locations where the channel is adjacent to mature riparian forests. With the LW pieces that are supplied from the upstream, these pieces are continuously transported downstream during rainfall events. This leads to further fragmentation of the LW pieces, which increases their transportability. With decreasing stream-bed slope, these floated LW pieces, however, can be stored and form logjams at various depositional sites, which were developed by interaction between channel forms and floodplains. These pieces may decay for decades and be subsequently transported as particulate or dissolved organic materials, resulting in the limitation of LW fluvial export from the systems. However, in Korea, such depositional sites were developed in the extremely limited streams with a large dimension and no flood history for decades, and thus it does not be expected that the reduction of LW export amount, which can be caused by the long-term storage. Our review presents a generalized view of LW processing and is relevant to ecosystem management and disaster prevention for Korean mountain streams.

• Ecology and Resilient Infrastructure
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• v.9 no.3
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• pp.141-153
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• 2022

In this study, a numerical model of debris flow considering driftwood and entrainment erosion is developed. Subsequently, numerical simulations based on the observation data of the 2011 Mt. Umyeon are performed. To develop the debris flow model, the Nays2DFlood model, which is a flooding model based on the shallow water equation, is coupled with the transport diffusion of mixed sediment concentration, debris flow bottom shear stress, and entrainment erosion modules. The simulation closely reproduced the depth, flow velocity, and debris flow volume of Mt. Umyeon. In addition, the reproducibility of the simulation result with driftwood is more accurate than that without driftwood. The results of this study can facilitate in establishing measures to reduce debris disasters, thus alleviating the current increase in debris damage due to climate change.

• Korean Journal of Cognitive Science
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• v.18 no.2
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• pp.193-221
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• 2007

This study explored the efficient hierarchical data structure of mobile interfaces. The first experiment demonstrated the effects of grouping(clear/unclear), depth level(2/3/5), and the number of items(32/64/128) on the search time and the number of errors. The results indicated that participants spent less time and made fewer errors to perform the task when the clear mobile interfaces, low depth level, and fewer items were provided. In addition, the results indicated that there were no effects of the depth level and the number of items on the search time and number of errors in clear mobile interfaces conditions. As depth level and the number of items changed, on the other hand, participants spent longer time to complete the task and made more mistakes in unclear mobile interfaces conditions. The second experiment investigated the effects of grouping(clear/unclear), the number of items(32/64/128), and spacial cues(colors/ windows/ number of cues) on search time and the number of errors in hierarchical data structures which had five depth levels. The results indicated that participants spent less time to complete the task and made less errors in a mobile interface when grouping is clear and the number of items are fewer. The results were identical with the first experiments. In addition, the main effect of spacial cues indicated that providing spacial cues via pictures and numbers can be helpful to reduce errors in search behaviors.