• 통합자연과학논문집
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• 제1권2호
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• pp.89-114
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• 2008

Interrelationship between heavy rainfalls and related with low-level jets(LLJ) is analyzed by using fifty cases of heavy rainfall events occurred over the Korean peninsula from 1992 to 2001. Those cases are classified with four synoptical features. There are 32% chances that the low pressure exist in heavy rainfall over than 150 mm per day case by case. Secondly Changma front and front zone account for 28% of all cases. The ratio of marine tropical boundary type and trough type record 22% and 18% respectively. The moist and warm south-westerly winds associated with low-level jets have been induced convective instability and baroclinic instability. Therefore, heavy rainfall due to the approach of a low pressure occurred at September and before Changma. During the period of Changma, this type has been happened heavy rainfall when low pressure and stationary front has vibrated south and north. Changma type has longer the duration time of precipitation than other types. Third type, located with marine Tropical boundary, have mainly rained in August and September. The last trough case locally downpoured in short time with developing cell. The occurrence low-level jets related to heavy rainfall has increased over 12.5 m/s wind speed. The result is that 43 heavy rainfalls out of 50 cases reach peak at the time of maximum precipitation intensity. Also, the variation of wet number and K-index corresponded with the variation of wind speed. It is found that the number of frequency of low-level jets with southwestward direction has been increased and these jets are mainly passed from the southwest toward to the northeast of the Korean peninsula in that time.

• International Union of Geodesy and Geophysics Korean Journal of Geophysical Research
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• 제26권1호
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• pp.15-29
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• 1998

The numerical simulation of heavy precipitation event occurred in the central Korean Peninsula on July 26-28, 1996 was performed using the fine mesh model. ARPS (Advanced Regional Prediction System) developed by the CAPS (Center for Analysis and Prediction of Storms). Usually, the heavy rainfalls occurred at late July in the Korean Peninsula were difficult to predict, and showed very strong rainfall intensity. As results, they caused a great loss of life and property. As it usual, this case was unsuccessful to predict the location of rain band and the precipitation intensity with the coarse-mesh model. The same case was, however, simulated well with fine-mesh storm-scale model, ARPS. Moisture band at 850 hPa appeared along the Changma Front in the area of China through central Korea passed Yellow Sea. Also the low-level jet at 700 hPa existed in the Yellow Sea through central Korea and they together offered favorable condition to induce heavy rainfall in that area. The convective activities developed to a meso-scale convective system were observed at near the Yangtze River and moved to the central Korean Peninsula. Furthermore, the intrusion of warm and moist air, origninated from typhoon, into the Asia Continent might result in heavy rainfall formation through redistribution of moisture and heat. In the vertical circulation, the heavy rainfall was formed between the upper- and low-level jets, especially, the entrance region of the upper-level jet above the exit the region of the low-level jet. The low level convergence, the upper level divergence and the strong vertical wind were organized to the very north of the low level jet and concentrated on tens to hundreds km horizontal distance. These result represent the upper- and low-level jets are one of the most important reasons on the formation of heavy precipitation.

• 한국환경과학회지
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• 제29권9호
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• pp.871-883
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• 2020

Due to recent heavy rain events, there are increasing demands for adapting infrastructure design, including drainage facilities in urban basins. Therefore, a clear definition of urban rainfall must be provided; however, currently, such a definition is unavailable. In this study, urban rainfall is defined as a rainfall event that has the potential to cause water-related disasters such as floods and landslides in urban areas. Moreover, based on design rainfall, these disasters are defined as those that causes excess design flooding due to certain rainfall events. These heavy rain scenarios require that the design of various urban rainfall facilities consider design rainfall in the target years of their life cycle, for disaster prevention. The average frequency of heavy rain in each region, inland and coastal areas, was analyzed through a frequency analysis of the highest annual rainfall in the past year. The potential change in future rainfall intensity changes the service level of the infrastructure related to hand-to-hand construction; therefore, the target year and design rainfall considering the climate change premium were presented. Finally, the change in dimensional safety according to the RCP8.5 climate change scenario was predicted.

• 한국수자원학회논문집
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• 제56권11호
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• pp.751-764
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• 2023

강원특별자치도는 태백산맥을 중심으로 지방에 따라 기후 특성이 매우 다르며, 국지성 호우가 빈번하게 발생하는 지역이다. 호우재해는 발생 시간이 짧고, 시공간적 변동성이 매우 커 많은 인명 및 재산피해를 유발한다. 최근 10년(2012~2021)간 강원지역 호우피해 발생 횟수는 28건이고, 평균 발생 피해액은 456억 원가량으로 집계되었다. 호우재해를 저감하기 위해선 지역단위의 재난관리 방안을 수립해야 한다. 특히나 현재 운영 중인 호우특보 기준은 획일화되어 지역 특성을 고려하지 못하는 한계가 있다. 이에 본 연구는 강원특별자치도에 위치한 특보구역을 대상으로 침수유발 강우량을 고려한 호우특보 기준을 제안하고자 한다. 특보구역별 침수유발 강우량 대푯값 분석 결과 평균값이 호우특보 발령 기준과 유사했고, 이를 본 연구의 호우특보 기준으로 선정하였다. 호우특보 기준 검토를 위한 강우사상으로 2019년 태풍 미탁, 2020년 태풍 마이삭과 하이선, 2023년 태풍 카눈 강우사상을 적용했고, Hit Rate 정확도 검증 결과 강릉평지 72%, 원주 98%로 본 연구는 실제 특보를 잘 반영함을 확인했다. 본 연구의 호우특보 기준은 위기경보 단계(관심, 주의, 경계, 심각)와 위계가 동일하여 선제적 호우재해 대응이 가능할 것으로 판단된다. 본 연구 결과는 향후 호우재해 대응의 획일적 의사결정 시스템을 보완하고, 이를 토대로 지역별 재해위험성을 고려한 호우특보 기준으로 활용될 수 있을 것으로 사료된다.

• 한국산림과학회지
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• 제101권1호
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• pp.28-35
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• 2012

강우는 산사태를 야기하는 주된 요인으로 최근 우리나라에서 대부분의 산사태는 단기간의 집중호우로 인해 발생하고 있으나, 강우특성과 산사태 발생간의 관계는 아직 명확히 규명되지 못하고 있는 실정이다. 이 논문에서는 2011년 6월 7월에 남부지방과 중부지방에서 집중호우로 야기된 18개의 산사태를 대상으로 연속강우 개시 이후의 누적강우량(mm)과 강우강도(mm/hr) 및 선행강우량(mm)을 해석하여 산사태 발생과의 관계를 분석하였다. 그 결과, 산사태는 모두 연속강우 개시 이후 1~3일간의 집중호우에 의해 강우강도가 30 mm/hr이상, 혹은 누적강우량이 200 mm이상인 경우에 발생한 것으로 나타났다. 이는 산림청의 산사태 경보발령 기준을 상회하는 범위에서 발생한 것으로 나타났으며, 경상남도에서 보고된 산사태 발생영역과도 일치하였다. 또한, 강우개시 이후 산사태 발생까지의 소요시간(T)은 평균 강우강도(ARI)가 증가할수록 점차 단축되는 것으로 나타났으며, 이들 사이의 관계는 지수함수식 "T = $94.569{\cdot}exp$($-0.068{\cdot}ARI$)($R^2$=0.64, p<0.001)"로 도출되었다. 이러한 결과는 산림청의 산사태 주의보 경보발령 기준에 있어 중요한 근거가 될 수 있으며, 토사재해에 대한 경계피난체계 등의 비구조물 대책의 수립에도 기초자료를 제공할 수 있을 것으로 기대된다.

• 지질공학
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• 제16권2호
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• pp.201-214
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• 2006

이 연구는 1998년 여름철에 지질조건이 서로 다른 경기도 장흥, 경북 상주 및 포항지역에서 산사태가 많이 발생된 곳의 강우자료와 산사태들을 조사하여 강우조건에 따른 산사태의 특성을 분석하였다. 연구지역들에서는 $2{\sim}4$일간에 걸친 집중호우로 인해 많은 산사태들이 발생되었다. 강우자료는 지역별로 산사태밀집지역을 중심으로 반경 약 50 km 내에 위치 한 관측소들에서의 기록을 기초로 하였으며, 산사태자료는 현장조사를 통하여 직접 확인된 산사태만을 대상으로 하였다. 산사태를 유발하는 강우조건은 크게 누적강우량과 강우강도로 구분하고 산사태는 지질조건을 고려한 지역별 발생빈도 등으로 구별하여 이들의 관계를 통계적으로 분석하였다. 산사태들은 집중호우에 의해 발생되었고 국지적으로 밀집되는 양상을 보이는 등 강우와 산사태는 매우 밀접한 연관성을 보였다. 강우를 지배하는 여러 요소 즉, 누적강우량, 강우강도 및 강우지속시간 등이 지역별로 다른 양상을 보였으며, 그에 따른 산사태의 양상이나 발생빈도 또한 각기 다른 것으로 분석되었다. 누적강우량이 많은 지역에서만 산사태가 집중적으로 발생하였고 그 지역을 벗어난 바로 인근지역에서는 산사태가 거의 발생되지 않음으로써 강우가 산사태를 유발하는 매우 중요한 외적 요인으로 간주되고, 누적강우량과 산사태빈도는 서로 상관관계를 갖는 것으로 분석되었다.

• 한국환경과학회지
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• 제24권5호
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• pp.601-613
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• 2015

On the study of the characteristics and life cycle of mesoscale convective band in type of airmass that occurred in the Honam area from June to September for only 4 years in the period of 2009~2012, 10 examples based on the amount of rainfall with AWS 24 hours/60 minutes rainfalls, Mt. Osung radar 1.5 km CAPPI/X-SECT images and KLAPS data for convective band with heavy rainfall event were selected. There were analyzed and classified by using the convective band with heavy rainfall occurred along the convergence line of sea wind in the form of individual multi-cellular cell and moving direction of convective band appeared in a variety of patterns; toward southwestern (2 cases), northeastern (4 cases), congesting (2 cases), and changing its moving direction (2 cases). The case study dated of the 17th Aug. 2012 was chosen and implemented by sequentially different evolution of its shape along the convergence line of sea wind cell and moving direction of convective band as equivalent potential temperatures at the lower layer have increased to the upper layer 500 hPa, that the individual cells were developed vertically and horizontally through their merger, but owing to divergence caused by weakened rainfall and descending air current, the growth of new cell was inhibited resulting in dissipation of convective cells.

• 한국환경과학회지
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• 제24권4호
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• pp.415-424
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• 2015

As global warming has accelerated to weather in recent years, and The frequent floods are creating heavy rains and typhoons followed by considerable damage in Jeju. This study estimated design flood discharges and flood stage in Jeju, considering climate change in connection with RCP scenario, the 5th IPCC Report recently published. It also analyzed the period which might be subject to the risk of flooding in downstream of Oedo Stream. As a result, it has analyzed that there might be a risk of flooding when there were 80 years or more rainfall events in 35 years that rainfall would have increased by 10%, 69 years that 100 years or more heavy rain and rainfall would have increased by 20%, and 104 years that 100 years or more heavy rain and rainfall would have increased by 20%. It is expected that this study results of rainfall increasing trend caused by climate change will be helpful to minimize the damage of floods which will secure the future of Jeju.

• 대한원격탐사학회:학술대회논문집
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• 대한원격탐사학회 2003년도 Proceedings of ACRS 2003 ISRS
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• pp.804-806
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• 2003

Probable Maximum Precipitation (PMP) is essential in the design of hydraulic structures such as dams, weirs and flood control structures. Up to the present, PMP has been derived from any proper single storm which can have a large error. PMP values should be evaluated from many historic heavy storm events from all over the country. Since this can be done at the spots of storm occurring and the calculated PMP from all spots in the country can be correlated. The objectives of this study are therefore to evaluate PMP from historic heavy storm data from 1972 to 2000 by using meteorological method, then to correlate and to present the results using GIS. The maximized rainfall depths can be calculate from depth of heavy rainfall and dew point temperature, and then can be analyzed for each rainfall duration to obtain spatial rainfall distribution by using GIS. The depth-area-duration relationship of maximized rainfall can be obtained and this helps to develop enveloped curves . The results from this study are a set of contour maps of PMP for each rainfall duration for all over the country and the depth-area-duration relationships for the area of 100 to 50,000 km.$^{2}$ at duration of 1, 2 and 3 days.

• 환경영향평가
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• 제22권1호
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• pp.39-50
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• 2013

Occurrence of landslides has been increasing due to extreme weather events(e.g. heavy rainfall, torrential rains) by climate change. Pyeongchang, Korea had seriously been damaged by landslides caused by a typhoon, Ewiniar in 2006. Moreover, the frequency and intensity of landslides are increasing in summer due to torrential rain. Therefore, risk assessment and adaptation measure is urgently needed to build resilience. To support landslide adaptation measures, this study predicted landslides occurrence using MaxEnt model and suggested susceptibility map of landslides. Precipitation data of RCP 8.5 Climate change scenarios were used to analyze an impact of increase in rainfall in the future. In 2050 and 2090, the probability of landslides occurrence was predicted to increase. These were due to an increase in heavy rainfall and cumulative rainfall. As a result of analysis, factors that has major impact on landslide appeared to be climate factors, prediction accuracy of the model was very high(92%). In the future Pyeongchang will have serious rainfall compare to 2006 and more intense landslides area expected to increase. This study will help to establish adaptation measure against landslides due to heavy rainfall.