• Title/Summary/Keyword: Nakdong watershed

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Vulnerability Analysis in the Nakdong River Basin for the Utilization of Flood Risk Mapping (홍수위험지도 활용을 위한 낙동강 유역에서의 홍수취약도 분석)

  • Kim, Tae-Hyung;Han, Kun-Yeun;Cho, Wan-Hee
    • Journal of the Korean Association of Geographic Information Studies
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    • v.14 no.3
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    • pp.203-222
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    • 2011
  • The characteristics of flood damages have been increasingly strengthened and take the form of unpredictable and unusual weather phenomena caused by climate change and climate anomalies. To prevent inundation damage caused by breach of hydraulic structure such as dam or levee, and trouble of drainage of inner basin, the prediction necessity of flood inundation area, flood risk analysis, and drawing flood risk maps have been on the rise, and the national flood risk maps have been produced. In this study, the quantitative flood vulnerability analysis was performed, which represents population living within flood-affected areas, types of economic activities, facilities affected by flood, in order to extend flood risk mapping from simple hazard concept into risk based idea. By applying it to Nakdong River basin, the flood vulnerability indices were estimated to draw flood risk maps subdivided into administrative districts. The result of this study can be applied to establish the disaster prevention measures and priority decision of disaster prevention project.

Spatial analysis of water shortage areas in South Korea considering spatial clustering characteristics (공간군집특성을 고려한 우리나라 물부족 핫스팟 지역 분석)

  • Lee, Dong Jin;Kim, Tae-Woong
    • Journal of Korea Water Resources Association
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    • v.57 no.2
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    • pp.87-97
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    • 2024
  • This study analyzed the water shortage hotspot areas in South Korea using spatial clustering analysis for water shortage estimates in 2030 of the Master Plans for National Water Management. To identify the water shortage cluster areas, we used water shortage data from the past maximum drought (about 50-year return period) and performed spatial clustering analysis using Local Moran's I and Getis-Ord Gi*. The areas subject to spatial clusters of water shortage were selected using the cluster map, and the spatial characteristics of water shortage areas were verified based on the p-value and the Moran scatter plot. The results indicated that one cluster (lower Imjin River (#1023) and neighbor) in the Han River basin and two clusters (Daejeongcheon (#2403) and neighbor, Gahwacheon (#2501) and neighbor) in the Nakdong River basin were found to be the hotspot for water shortage, whereas one cluster (lower Namhan River (#1007) and neighbor) in the Han River Basin and one cluster (Byeongseongcheon (#2006) and neighbor) in the Nakdong River basin were found to be the HL area, which means the specific area have high water shortage and neighbor have low water shortage. When analyzing spatial clustering by standard watershed unit, the entire spatial clustering area satisfied 100% of the statistical criteria leading to statistically significant results. The overall results indicated that spatial clustering analysis performed using standard watersheds can resolve the variable spatial unit problem to some extent, which results in the relatively increased accuracy of spatial analysis.

SWAT model calibration/validation using SWAT-CUP I: analysis for uncertainties of objective functions (SWAT-CUP을 이용한 SWAT 모형 검·보정 I: 목적함수에 따른 불확실성 분석)

  • Yu, Jisoo;Noh, Joonwoo;Cho, Younghyun
    • Journal of Korea Water Resources Association
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    • v.53 no.1
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    • pp.45-56
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    • 2020
  • This study aims to quantify the uncertainty that can be induced by the objective function when calibrating SWAT parameters using SWAT-CUP. SWAT model was constructed to estimate runoff in Naesenong-cheon, which is the one of mid-watershed in Nakdong River basin, and then automatic calibration was performed using eight objective functions (R2, bR2, NS, MNS, KGE, PBIAS, RSR, and SSQR). The optimum parameter sets obtained from each objective function showed different ranges, and thus the corresponding hydrologic characteristics of simulated data were also derived differently. This is because each objective function is sensitive to specific hydrologic signatures and evaluates model performance in an unique way. In other words, one objective function might be sensitive to the residual of the extreme value, so that well produce the peak value, whereas ignores the average or low flow residuals. Therefore, the hydrological similarity between the simulated and measured values was evaluated in order to select the optimum objective function. The hydrologic signatures, which include not only the magnitude, but also the ratio of the inclining and declining time in hydrograph, were defined to consider the timing of the flow occurrence, the response of watershed, and the increasing and decreasing trend. The results of evaluation were quantified by scoring method, and hence the optimal objective functions for SWAT parameter calibration were determined as MNS (342.48) and SSQR (346.45) with the highest total scores.

Status and plan of 'Operation rule improvement and ecological restoration plan of Nakdong estuary' ('낙동강하굿둑 운영개선 및 생태복원 방안 연구 용역' 추진현황 및 계획)

  • Noh, Hee Kyung;Ryu, Hyung Kwan;Ryu, Jong Hyun;Kim, Hwa Young;Chun, Ja Hoon
    • Proceedings of the Korea Water Resources Association Conference
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    • 2020.06a
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    • pp.21-22
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    • 2020
  • 낙동강 하굿둑(이하 하굿둑)은 1987년 부산 사하구와 강서구 사이에 건설되어 하류 지역의 바닷물 유입을 막아 부산, 울산, 경남 등에 안정적으로 생활·농업·공업 등의 분야에 용수를 공급하는 역할을 해왔다. 현재, 하굿둑의 수문은 낙동강 상류로부터 하류로 흘러내려오는 민물(담수)을 방류하기 위해서만 하굿둑 수문을 개방하고 있다. 하구는 하천의 담수와 바다의 염수가 서로 만나는 구역으로 바닷물과 염수의 밀도차에 의한 혼합으로 자연상태의 하구에서는 담수와 염수가 섞이는 기수역이 형성되며, 이러한 특성으로 하구 인근의 지역에서는 일반적인 하천 및 해양, 연안과는 분명히 구별되는 생태계가 조성된다. 하굿둑 건설이후 바닷물(해수)과 민물(담수)이 만나는 낙동강 어귀에 기수생태계가 사라지면서 바닷물이 유입될 수 있도록 하여 생태계를 복원해야 한다는 필요성이 제기되어 왔으며, 하굿둑이 지역에 기여해온 사실은 분명하나 하굿둑으로 인해 생태계 단절이 발생하고 기수생태계가 파괴되었기 때문에 이를 해결하기 위해서는 하굿둑을 개방하여 과거 기수생태계를 복원해야 한다는 목소리가 높아지고 있다. 이에 따라 정부에서는 하굿둑의 기수생태계 복원을 위해서 관계기관 합동으로 의사결정을 하고 효율적인 개방 방안을 모색하는 실무협의회를 구성하여 운영 중이고, 실무협의회 논의를 통해 5개 주요 관계기관(환경부, 국토부, 해양수산부, 부산광역시, K-water) 공동으로 "낙동강하굿둑 운영개선 및 생태복원 방안 연구용역"을 추진 중이다. 2018년 1단계 용역이 완료되었으며, 2019년부터 2단계 연구용역을 추진 중이고 하굿둑 개방의 수준별로 각종 영향을 검토한 후 대책을 마련하여 기수생태계 복원 방안을 수립하는데 그 목적이 있다. 2단계 연구용역에서는 과학적이고 합리적인 기수생태계 복원방안 마련을 위해서 실제로 해수를 유입시키는 3차례의 실증실험 및 수리모형실험 등을 추진한다. 기존 연구들에서도 수문개방에 따른 해수유입 영향에 대해 모델링을 통해서 분석했지만 이는 검증이 이루어지지 않은 결과로 이번 용역에서는 실제 해수를 유입시키고 염분의 침투 및 각종 수생태 영향을 모니터링 한 후 그 결과를 반영하여 모델링을 고도화하고 있다. 최종적으로 고도화된 모델링 결과를 기반으로 기수생태계 조성 방안별로 염분, 수질, 수생태, 침퇴적 등 각종 분야에 대한 정확한 영향을 분석하고 이에 대한 대책을 포함하여 최종적으로 바람직한 기수생태계 복원 방안을 제시할 계획이다. 기수생태계 복원 방안이 계획에만 그치지 않고 실행으로 연결시키기 위해서 필요성에 대한 이해를 바탕으로 공감대를 형성해 나아가고 있으며 지역주민, 전문가, 관계기관 등 민(民)·관(官)·학(學) 다양한 의견을 수렴하여 하구지역내 수량-수질-수생태를 종합적으로 고려하여 복원 방안을 마련 후 사회적인 합의를 추진하여 확정할 예정이며, 하구의 안정적인 관리를 위해 AI 등 4차 산업혁명기술을 적극 적용하는 스마트한 하구물관리(Smart Estuary Watershed Management)"를 활용한 "하구통합물관리" (Estuary Integrated Watershed Management) 등 과학적인 관리를 추진할 계획이다.

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General Trend of Bed Change in the Nakdong River due to Change of Watershed Environment (유역 환경 변화에 따른 낙동강의 하상 변동의 일반적인 경향성)

  • Yu, Kwon-Kyu;Kim, Ho-Sik
    • Proceedings of the Korea Water Resources Association Conference
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    • 2009.05a
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    • pp.709-713
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    • 2009
  • 최근의 주안점이 되고 있는 것 중의 과연 우리나라 하천의 하상이 높아지고 있는지 낮아지고 있는지에 대한 논의이다. 하상이 높아지고 있다고 하는 주장은 다목적 댐이나 하구둑에 의해 이른바 홍수가 플러싱이 안되어 하상이 계속 쌓이고, 그에 따라 홍수 위험이 가중되었다고 주장하는 사람들이 있다. 반면에, 오히려 1960년대부터 1970년대 초까지 산에 숲이 없어 토사 유출이 심해 하상이 쌓였으나, 그 이후 산림녹화가 되고 주요 하천에 대댐이 건설되어 하상이 깎이기 시작하였고, 지금은 주요 댐 상류 이외에는 대부분 하상이 낮아졌다고 추론하는 사람들도 있다. 본 연구는 이를 실증적으로 규명하기 위해 낙동강의 구간별 하상 변화를 조사하고 그 경향성을 분석한 것이다. 그런데, 최심 하상의 비교는 국부적인 변화에 지나치게 민감하여 그 대표성을 띄기 힘들며, 100년 빈도 홍수에 대한 평균 하상은 실제의 저수로 하상 보다 지나치게 높은 하상을 나타내는 문제를 보였다. 따라서 기존의 최심 하상이나 100년 빈도 홍수위에 대한 평균 하상의 비교가 아닌 연평균 홍수위에 근거한 평균 하상 개념을 제안하고, 이를 토대로 하상 변화를 분석하였다. 연평균 홍수위에 대한 평균 하상을 이용한 결과, 낙동강에서는 1983${\sim}$1993년 사이에는 대규모 하상 저하는 없었으나, 중류부인 고령과 왜관 구간(하구에서 150${\sim}$200 km 구간)에서 작은 규모의 하상 저하가 발생하였다. 1993${\sim}$2005년 사이에는 하상 저하의 규모가 더욱 커져서 120${\sim}$200 km 구간에서는 평균적으로 2${\sim}$3 m, 최대의 하상 저하 5 m 정도의 하상 저하가 발생하였고, 그 상류부인 200${\sim}$240 km 구간에서는 1${\sim}$2 m 정도의 비교적 작은 규모의 하상 저하가 발생하였다. 그러나 내성천 합류점 상류 구간 (240 km 이상의 구간)에서는 하상 상승과 하강은 거의 대부분 국부적인 현상에 머물고 있으며, 대규모 하상 변동이 없다. 이러한 낙동강 하상 저하의 주 원인은 대규모 골재 채취임을 밝혀내었다.

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Estimation of Proper EFDC Parameters to Improve the Reproductability of Thermal Stratification in Korea Reservoir (저수지 수온성층 해석능력 제고를 위한 적정 EFDC 매개변수 선정)

  • Kim, Seon-Joo;Seo, Dong-Il;Ahn, Ki-Hong
    • Journal of Korea Water Resources Association
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    • v.44 no.9
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    • pp.741-751
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    • 2011
  • In this study, a methodology was devised to overcome that difficulty for thermal stratification modeling using EFDC. For the increase of reproductability for thermal stratification analysis, the effect of parameter such as distribution of solar radiation, depth of active bed temperature layer, heat transfer coefficients were analyzed. The simulation period was from June to December in 2005 and statistical index is used to analyze the model results. The results showed that distribution of solar radiation is zero and depth of active bed temperature layer is 10 m are suitable for simulation of thermal stratification in Yongdam Dam reservoir. This study results can be used for guideline to analyze the thermal stratification of large dam reservoir in Korea.

A Study on Dynamic Water Quality Change for Gate Operation in Seonakdong River (서낙동강 수문 운영에 따른 동적 수질 변화 연구)

  • Kim, Jung Min;Kim, Young Do
    • KSCE Journal of Civil and Environmental Engineering Research
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    • v.33 no.4
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    • pp.1401-1411
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    • 2013
  • The inflow from Daejeo gate and the outflow from Noksan gate in Seonakdong river, which is a reservoir-like river with the characteristics of stagnant water, is very important for TMDLs (Total Maximum Daily Load) of Nakbon N unit watershed. However, there are very few measured data for calculating base flow. The operating data is much different from the actual measured data because the probable maximum flowrate is used for gate operation. In this study, the operating flowrate data of Daejeo and Noksan gates are compared with the monthly water quality data from Ministry of Environment monitoring station. The dynamic change of the flowrate and the water quality is also measured for the operation of Daejeo and Noksan gates. The flowrate of Seonakdong river is measured, which is affected by the gate operation, the water elevation difference of Nakdong river and Seonakdong river, and the tidal elevation. The results of this study can be used for establishing the water quality improvement measures by the optimal gate operation.

A Study on Estimation of Pollutant Loads in Seonakdong River Using SWAT-SWMM Model (SWAT-SWMM 연계모의를 이용한 서낙동강 오염부하량 산정 방안 연구)

  • Kim, Jeong-Min;Kim, Young-Do
    • Journal of Korean Society of Water and Wastewater
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    • v.25 no.6
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    • pp.825-837
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    • 2011
  • Seonakdong river consists of stagnant sections whose flowrate is controlled by the Daejeo and Noksan gates. As a result, there is not a minimum flow during normal times. The Daejeo and Noksan gates are located at the upstream head and the downstream end of Seonakdong river, respectively. Seonakdong river is an estuarine tributary of Nakdong river, which is a reservoir-like river used for agricultural irrigation, with the gate at the estuary of the river to prevent the intrusion of saline. Since the construction of the water gates, the water quality of the river has become degraded. This could also be due to the internal loading of pollutants, especially nutrients, from the sediments of the river because of the elongated detention time by the water gates. This study was thus conducted for the purpose of evaluating the current hydrologic-cycle system and providing measures for the rehabilitation of the hydrologic cycle. In this research, the daily outflow in Seonakdong River was simulated using the SWAT and SWMM models, and the water quality concentration including BOD, SS, TN, and TP were analyzed. The possibility of the application of SWAT-SWMM hybrid simulation was determined through the verification of both models. The error analysis shows that the results of both SWAT and SWAT-SWMM simulations make good agreements with those of field observations. For the single simulation results of SWAT, $R^{2}$ and NSE are 0.758, 0.511, respectively. For the hybrid simulation results of SWAT-SWMM, those are 0.880, 0.452, which means that the hybrid simulation can give more accurate results for the watershed where both the agricultural and urban areas exist.

Development of Multisite Spatio-Temporal Downscaling Model for Rainfall Using GCM Multi Model Ensemble (다중 기상모델 앙상블을 활용한 다지점 강우시나리오 상세화 기법 개발)

  • Kim, Tae-Jeong;Kim, Ki-Young;Kwon, Hyun-Han
    • KSCE Journal of Civil and Environmental Engineering Research
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    • v.35 no.2
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    • pp.327-340
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    • 2015
  • General Circulation Models (GCMs) are the basic tool used for modelling climate. However, the spatio-temporal discrepancy between GCM and observed value, therefore, the models deliver output that are generally required calibration for applied studies. Which is generally done by Multi-Model Ensemble (MME) approach. Stochastic downscaling methods have been used extensively to generate long-term weather sequences from finite observed records. A primary objective of this study is to develop a forecasting scheme which is able to make use of a MME of different GCMs. This study employed a Nonstationary Hidden Markov Chain Model (NHMM) as a main tool for downscaling seasonal ensemble forecasts over 3 month period, providing daily forecasts. Our results showed that the proposed downscaling scheme can provide the skillful forecasts as inputs for hydrologic modeling, which in turn may improve water resources management. An application to the Nakdong watershed in South Korea illustrates how the proposed approach can lead to potentially reliable information for water resources management.

Valuation of Ecosystem Water Quality Regulation Service Using TMDL (수질오염총량을 이용한 생태계 수질조절 서비스 가치 평가)

  • Lee, Chang Hee;Park, Kyung Ok
    • Journal of Wetlands Research
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    • v.19 no.2
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    • pp.240-245
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    • 2017
  • In this study, we developed a method to assess quantitatively the amount and the economic value of water quality regulating service of ecosystem services. Numbers of species and aquatic organisms such as fish increased because of the improved water, but it was due to complex factors such as water quality regulation services of ecosystems, installation of environmental facilities for water quality treatment, and water quality regulation. Therefore we sought ways to quantitatively estimate the value of ecosystem regulation services. In this study, we propose a method to estimate the quantitative value of water quality regulation service of ecosystem by utilizing the total amount of water pollution. In addition, the economic value evaluation method was proposed by multiplying the estimated the quantitative value of water quality regulation service of ecosystem by the unit cost per unit capacity. Finally, the ecosystem water quality regulation service was estimated by using the evaluation method for BOD and T-P in Nakdong river watershed.