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The objective of this study was to evaluate the flood control capacity of the agricultural reservoir based on state-of-the-art climate change scenario –SSP (Shared Socioeconomic Pathways). 18 agricultural reservoirs were selected as the study sites, and future rainfall data based on SSP scenario provided by CMIP6 (Coupled Model Intercomparison Project 6) was applied to analyze the impact of climate change. The frequency analysis module, the rainfall-runoff module, the reservoir operation module, and their linkage system were built and applied to simulate probable rainfall, maximum inflow, maximum outflow, and maximum water level of the reservoirs. And the maximum values were compared with the design values, such as design flood of reservoirs,design flood of direct downstream, and top of dam elevation, respectively. According to whether or not the maximum values exceed each design value, cases were divided into eight categories; I-O-H, I-O, I-H, I, O-H, O, H, X. Probable rainfall (200-yr frequency, 12-h duration) for observed data(1973∼2020) was a maximum of 445.2 mm and increased to 619.1∼1,359.7 mm in the future (2011∼2100). For the present, 61.1% of the reservoirs corresponded to I-O, which means the reservoirs have sufficient capacity to discharge large inflow; however, there is a risk of overflowing downstream due to excessive outflow. For the future, six reservoirs (Idong, Baekgok, Yedang, Tapjung, Naju, Jangsung) were changed from I-O to I-O-H, which means inflow increases beyond the discharge capacity due to climate change, and there is a risk of collapse due to dam overflow.

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기사명 저자명 페이지 원문 목차
물수지 기반 지역별 토양수분을 활용한 밭가뭄 평가 = Assessment of upland drought using soil moisture based on the water balance analysis 전민기, 남원호, 양미혜, 문영식, 홍은미, 옥정훈, 황선아, 허승오 p. 1-11

AERMOD를 이용한 축산 미세먼지, 초미세먼지, 암모니아 배출의 대기확산 영향도 분석 = Atmospheric dispersion of particulate matters (PM10 and PM2.5) and ammonia emitted from livestock farms using AERMOD 이세연, 박진선, 정한나, 최락영, 홍세운 p. 13-25

소규모 저수지의 특성을 고려한 제체 안전진단의 정량적 상태평가 기준 개선 = Improvement of quantitative condition assessment criteria for reservoir embankment safety inspection considering characteristics of small reservoirs in Korea 전건영, 방돈석 p. 27-38

풍동실험에 의한 붐식 살포 농약의 노즐형태와 분사압력에 따른 비산 특성 분석 = Analyzing drift patterns of spray booms with different nozzle types and working pressures in wind tunnel 박진선, 이세연, 최락영, 정한나, 노현호, 유승화, 송호성, 홍세운 p. 39-47

SSP 기후변화 시나리오에 따른 농업용 저수지 홍수조절능력 분석 = Analysis of flood control capacity of agricultural reservoir based on SSP climate change scenario 김지혜, 곽지혜, 황순호, 전상민, 이성학, 이재남, 강문성 p. 49-62

풍동실험을 통한 방풍용 서양측백나무와 농업용방풍망의 공기역학계수 평가 = Wind tunnel evaluation of aerodynamic coefficients of Thuja occidentalis and mesh net 이소진, 하태환, 서시영, 송호성, 우샘이, 장유나, 정민웅, 조광곤, 한덕우, 황옥화 p. 63-71

경남지역 딸기, 토마토, 파프리카 양액재배에 따른 발생부하량 비교 = Comparison of generated loads by hydroponics of strawberry, tomato, and paprika in Gyeongsangnam-do 조현경, 김상민 p. 73-81

필터링 기법을 이용한 농업용저수지 수위자료의 품질관리 방안 = Quality control on water-level data in agricultural reservoirs considering filtering methods 김경환, 최규훈, 정형모, 주동혁, 나라, 최은혁, 권재환, 유승환 p. 83-93

가뭄사상 및 농업수리시설물이 쌀 생산량에 미치는 영향에 대한 상관 분석 = On the linkage between irrigation facilities and rice production under drought events 우승범, 남원호, 전민기, 윤동현, 김태곤, 성재훈, 김한중 p. 95-105

참고문헌 (29건) : 자료제공( 네이버학술정보 )

참고문헌 목록에 대한 테이블로 번호, 참고문헌, 국회도서관 소장유무로 구성되어 있습니다.
번호 참고문헌 국회도서관 소장유무
1 Cho, J. P., 2013. Impact assessment of climate change for agricultural reservoirs considering uncertainty. Research Report 2013-05. APEC Climate Center (in Korean). 미소장
2 Garijo, C., and L. Mediero, 2018. Influence of climate change on flood magnitude and seasonality in the Arga River catchment in Spain. Acta Geophysica 66(4): 769-790. doi:10.1007/s11600-018-0143-0. 미소장
3 Hwang, S., J. Cho, and K. S. Yoon, 2018. Assessing the skills of CMIP5 GCMs in reproducing spatial climatology of precipitation over the coastal area in East Asia. Journal of Korea Water Resources Association 51(8): 629-642 (in Korean). doi:10.3741/JKWRA.2018.51.8.629. 미소장
4 Hwang, S. H., 2012. Impacts of reservoir dam heightening on downstream flood alleviation. Master diss., Seoul National University (in Korean). 미소장
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6 Intergovernmental Panel on Climate Change, 2021. Climate Change 2021: The Physical Science Basis. Contribution of Working Group I to the Sixth Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge University Press. 미소장
7 Jun, S. M., M. S. Kang, I. Song, S. H. Hwang, K. Kim, and J. Park, 2013. Effects of agricultural reservoir rehabilitation on their flood control capacities. Journal of the Korean Society of Agricultural Engineers 55(6): 57-68(in Korean). doi:10.5389/KSAE.2013.55.6.057. 미소장
8 Jun, S. M., S. Hwang, J. Kim, J. Kwak, K. Kim, H. J. Lee, and M. S. Kang, 2020. Future inundation risk evaluation of farmland in the Moohan stream watershed based on CMIP5 and CMIP6 GCMs. Journal of The Korean Society of Agricultural Engineers 62(6): 131-142 (in Korean). doi:10.5389/KSAE.2020.62.6.131. 미소장
9 Jung, I., H. I. Eum, E. J. Lee, J. Park, and J. Cho, 2018. Development of representative GCMs selection technique for uncertainty in climate change scenario. Journal of the Korean Society of Agricultural Engineers 60(5): 149-162(in Korean). doi:10.5389/KSAE.2018.60.5.149. 미소장
10 Kim, J., J. Park, J. H. Song, S. M. Jun, and M. S. Kang, 2016. Design flood estimation in the Hwangguji river watershed under climate and land use changes scenario. Journal of the Korean Society of Agricultural Engineers 58(1): 39-51 (in Korean). doi:10.5389/KSAE.2016.58.1.039. 미소장
11 Kim, J. H., J. H. Gwak, S. M. Jeon, S. H. Lee, J. N. Lee, and M. S. Kang, 2021. Development of linkage methods for flood and inundation simulation of agricultural hydraulic structures. Magazine of the Korean Society of Agricultural Engineers 63(2): 44-56 (in Korean). 미소장
12 Korea Rural Community Corporation, 2020. Implementation of flood capacity expansion project in small and mediumsized reservoirs (Press Release). Released 19 Jan. 2020 (in Korean). 미소장
13 Korea Water Resources Association and Korea River Association, 2019. Explanation of national river design criteria (in Korean). 미소장
14 Kwak, J., J. Kim, S. M. Jun, S. Hwang, S. Lee, J. N. Lee, and M. S. Kang, 2020. Assessment of future flood according to climate change, rainfall distribution and CN. Journal of The Korean Society of Agricultural Engineers 62(6): 85-95 (in Korean). doi:10.5389/KSAE.2020.62.6.085. 미소장
15 Ministry of Construction and Transportation, 2004. Renewable report of PMP map in Korea (in Korean). 미소장
16 Ministry of Environment, 2019. Standard guidelines for flood estimation (in Korean). 미소장
17 Ministry of Environment, 2020. Master plan of national water management I (in Korean). 미소장
18 Ministry of Land, Transport and Maritime Affairs, 2009. Analysis of the trend of extreme flood events (in Korean). 미소장
19 Ministry of Land, Transport and Maritime Affairs, 2011. Improvement and supplement of probability rainfall in South Korea (in Korean). 미소장
20 Miotto, F., P. Claps, F. Laio, and D. Poggi, 2007. An analytical index for flood attenuation due to reservoirs. In 32nd Congress of IAHR, Venice, Italy. 미소장
21 Montaldo, N., M. Mancini, and R. Rosso, 2004. Flood hydrograph attenuation induced by a reservoir system:analysis with a distributed rainfall‐runoff model. Hydrological processes 18(3): 545-563. doi:10.1002/hyp.1337. 미소장
22 O’Neill, B. C., C. Tebaldi, D. P. V. Vuuren, V. Eyring, P. Friedlingstein, G. Hurtt, and B. M. Sanderson, 2016. The scenario model intercomparison project (ScenarioMIP) for CMIP6. Geoscientific Model Development 9(9): 3461-3482. doi:10.5194/gmd-9-3461-2016. 미소장
23 Park, J., 2016. Reliability-based flood risk assessment methodology and its application to climate change for agricultural reservoirs. Ph.D. diss., Seoul National University (in Korean). 미소장
24 Riahi, K., D. P. van Vuuren, E. Kriegler, J. Edmonds, B. C. O’neill, S. Fujimori, and M. Tavoni, 2017. The shared socioeconomic pathways and their energy, land use, and greenhouse gas emissions implications: An overview. Global environmental change 42: 153-168. doi:10.1016/j.gloenvcha. 2016.05.009. 미소장
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26 Shrestha, S., and W. Lohpaisankrit, 2017. Flood hazard assessment under climate change scenarios in the Yang River Basin, Thailand. International Journal of Sustainable Built Environment 6(2): 285-298. doi:10.1016/j.ijsbe.2016. 09.006. 미소장
27 U.S. Army Corps of Engineers, 1998. HEC-5 simulation of flood control and conservation systems - User’s manual, version 8.0. 미소장
28 Volpi, E., M. Di Lazzaro, M. Bertola, A. Viglione, and A. Fiori, 2018. Reservoir effects on flood peak discharge at the catchment scale. Water Resources Research 54(11): 9623-9636. doi:10.1029/2018WR023866. 미소장
29 Zhang, X., L. Alexander, G. C. Hegerl, P. Jones, A. K. Tank, T. C. Peterson, B. Trewin, and F. W. Zwiers, 2011. Indices for monitoring changes in extremes based on daily temperature and precipitation data. Wiley Interdisciplinary Reviews: Climate Change 2(6): 851-870. doi:10.1002/wcc. 147. 미소장

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