Water cycle within the human civilization has become important with urbanization. To date, water cycle in the eco-system has been the focus in identifying the degree of water cycle in cities, but in practicality, water cycle within the human civilization system is taking on an increasing importance. While in recent years plans to reuse water have been implemented to restore water cycle in cities, the effect that such reuse has on the entire water cycle system has not been analyzed. The analysis on the effect that water reuse has on urban areas needs to be go beyond measuring the cost-savings and look at the changes brought about in the entire city’s water cycle system. This study uses a SWAT model and water balance analysis to review the effects that water reuse has on changes occurring in the urban water cycle system by linking the water cycle within the eco-system with that within the human civilization system. The SWAT model to calculate the components of water cycle in the human civilization system showed that similar to measured data, the daily changes and accumulative data can be simulated. When the amount of water reuse increases in urban areas, the surface outflow, amount of sewer discharge and the discharged amount from sewage treatment plants decrease, leading to a change in water cycle within our human civilization system. The determinant coefficients for reduced surface outflow amount and reduced sewer discharge were 0.9164 and 0.9892, respectively, while the determinant coefficient for reduced discharge of sewage treatment plants was 0.9988. This indicates that with an increase in water reuse, surface flow, sewage and discharge from sewage treatment plants all saw a linear reduction.

본 연구는국내 12개수계인한강, 안성천, 금강, 삽교천, 영산강, 섬진강, 탐진강, 만경강, 동진강, 낙동강, 태화강, 형산강 유역에 대한 물이용 취약성 평가를 실시하였다. SWAT(Soil and Water Assessment Tool) 모형을 이용하여 국내 12개 수계의연유출량을도출하였고, 각유역별면적및인구당유출량을비교하였다. 취약성평가를위해18개지표로구성하였 고, 물이용의수요, 손실및공급의측면으로구분하였다. 이때의가중치는객관적가중치의적용을위해엔트로피(Entropy) 방법을 사용하였고 정량적인 물이용 취약성 평가를 위해 다기준 의사결정기법 중 하나인 TOPSIS (Technique for Order of Preference by Similarity to Ideal Solution) 기법을 적용하였다. 그 결과, 형산강의 물이용이 가장 취약하였고, 삽교천, 동진강, 섬진강, 안성천, 만경강, 낙동강, 탐진강, 영산강, 금강, 태화강, 한강순이었다. 본연구결과는향후기후변화취약성 평가를 위한 지표 개발에 이용할 수 있겠다.

This study aims to analyze the situation and behavioral characteristic of nonpoint pollution sources by examining and analyzing the basic data such as the hydraulic and hydrologic characteristics and land use situation of the basin, and provide basic design data for basin management by calculating the soil loss rate due to rainfall effluents, for the Golji Stream basin located at Jeongseon, Gangwon province. For this, this study applied the SWAT model to the object basin, established input data for the model through parameter estimation and sensitivity analysis, and conducted a simulation. This study confirmed the suitability of the model by conducting a verification with the actually measured spillage being the basic of simulation results, analyzed that the maintenance of the sub-basin #15 with 34644.37 ton/yr of soil loss rate calculated by sub-basins in the object basin should be conducted first, and showed that there happened about 14,800 times of difference from the sub-basin #1 with 2.33 ton/yr of soil loss rate, the lowest. It is judged that this result should be considered as very important to set the priority order of basin management in a large basin and should be considered reasonably when applied to the work.

Sediment discharge by long-term runoff in the Nakdong River watershed should be predicted for the maintenance and management of the Nakdong River newly changed by the four major river restoration project. The data establishment by the analysis of runoff and sediment discharge using the long-term watershed model is necessary to predict possible problems by incoming sediments and to prepare countermeasures for the maintenance and management. Therefore, sediment discharges by long-term runoff in the main points of the Nakdong River were calculated using SWAT(soil and water assessment tool) model and the relations and features between rainfall, runoff, and sediment discharge were analyzed in this study. As a result of sediment discharge calculation in the main points of the Nakdong River and tributaries, the sediment discharge at the outlet of the Naesung Stream was greater than the Jindong Station in the Lower Nakdong River from 1999 to 2008 except the years with low precipitation. The sediment discharge at the Nakdong River Estuary Barrage (NREB) was corresponding to 20% of the Jindong Station which is located about 80 km upstream from NREB.

본 연구에서는 충주댐(2750*106 m3) 및 조정지댐(30*106 m3)을 포함한 유역을 대상으로 미래 기후변화가 댐 저수량에 미치는 영향을 분석하기 위해 SWAT (Soil and Water Assessment Tool) 모형을 활용하였다. 3지점의 9개년(2002～2010)동안의 자료를 이용하여 검보정을 실시한 결과 유출량에 대해서는 Nash-Sutcliffe 모델 효율(NSE)이 0.73으로, 두 댐의 저수위에 대해서는 0.86으로 나타났다. 미래 기후변화 시나리오자료는 IPCC (Intergovernmental Panel on Climate Change)에서 제공하는 GCMs (General Circulation Models) 중 HadCM3 모델의 SRES (Special Report on Emission Scenarios)에 의한 B1과 A2 시나리오를 구축하였다. 미래 월별 기온과 강수자료는 과거 30개년(1977～2006, baseline period) 자료는 편의보정(bias-correction) 기법을 이용하여 오차보정 후, Change Factor (CF) method를 이용하여 상세화 하였다. 미래 연평균 기온은 2040s (2031～2050)에 0.9℃, 2080s (2071～2099)에는 4.0℃까지 증가할 것으로 예측되었고, 연평균 강수량은 2040s에 9.6%, 2080s에 20.7% 증가하는 것으로 나타났다. 과거 대비 미래 증발산량은 15.3%까지 증가하고, 토양수분은 최대 2.8% 감소하였다. 과거 9개년 평균 댐 방류스케줄에 따른 미래 댐 연평균 유입량은 가을철을 제외한 대부분 기간에 최대 21.1%까지 증가하는 경향을 보였다. 미래 가을철 댐 유입의 감소로 인해 현재 방류 패턴으로는 연말까지 결국 저수량을 회복하지 못하는 것으로 나타났다. 미래 풍수년과 갈수년에는 댐 저수량의 시간적 변동이 더욱 불안정해지므로 각각 저수량의 상향 및 하향 조정에 주의를 기울여야 한다. 따라서 기후변화 적응을 위한 댐 방류 패턴 조절이 필요하다고 판단된다.

본 연구는 SWAT 모형을 이용하여 설마천 혼효림 유역(8.54 km²)을 대상으로 RCP(AR5) 기후변화 시나리오에 따른 수문순환 영향을 평가하였다. 모형의 불확실성을 효과적으로 줄이기 위해 설마천 유역의 2007년부터 실측된 유량, 증발산량 및 토양수분을 이용하여 모형의 보정(2007～2008) 및 검증(2009～2010)을 수행하였다. 모형의 보정 및 검증 결과 유출량의 R²가 0.74∼0.91로 분석되었고, 증발산량은 0.56∼0.71, 토양수분은 0.45∼0.71로 분석되어 토양수분으로부터 증발산이 발생하고 이로 인해 유출까지 영향을 미치는 물수지 현상을 잘 재현하고 있음을 알 수 있었다. 미래 기후자료로 AR5 RCP 4.5, 8.5 시나리오에 대한 모의결과 값을 이용하였고, 사용된 모델은 한반도 전망자료를 지역기후모델을 이용하여 역학적 상세화하여 기상청에서 제공하는 HadGEM3-RA 모형이며 오차 보정하여 사용하였다. 기후변화 시나리오 분석 결과 두가지 시나리오 모두 미래 기온은 0.9∼4.2℃ 상승하고, 강수량은 7.9∼20.4% 증가하였다. 또한 미래 유출량은 0.6∼15.7% 증가한 반면에 유출률은 3.8∼5.4% 감소하였고, 증발산비는 4.1∼6.8% 증가, 토양수분은 4.3∼5.5% 감소하였다.

Jeju Island, the heaviest raining area in Korea, is a volcanic Island located at the southernmost of Korea, but most streams are of the dry due to its hydrological/geological characteristics different from those of inland areas. Therefore, there are limitations in applying the results from the mainland to the studies on stream run-off characteristics analysis and water resource analysis of Jeju Island. In this study, the SWAT(soil & water assessment tool) model is used for the Hwabuk stream watershed located east of the downtown to calculate the long-term stream run-off rate, and WMS(watershed modeling system) and HEC-HMS(hydrologic modeling system) models are used to figure out the stream run-off characteristics due to short-term heavy rainfall. As the result of SWAT modelling for the long-term rainfall-runoff model for Hwabuk stream watershed in 2008, 5.66% of the average precipitation of the entire basin was run off, with 3.47% in 2009, 8.12% in 2010, and root mean square error(RMSE) and determination coefficient(R2) was 496.9 and 0.87, respectively, with model efficient(ME) of 0.72. From the results of WMS and HEC-HMS models which are short-term rainfall-runoff models, unless there was a preceding rainfall, the runoff occurred only for rainfall of 40mm or greater, and the run-off duration averaged 10～14 hours.

본 연구에서는 금강유역 내 대청댐 및 용담댐유역을 대상으로 기상청에서 제공하는 공간해상도 27 km 지역규모의 A1B시나리오 기반의 RCM모형과 SWAT모형을 이용하여 미래 유출량 전망을 분석하였다. 기본적으로 GCM 및 RCM은 시공간적 스케일의 상이성으로 인해 수자원 영향 평가를 위한 자료로서 직접적인 이용은 현실적으로 곤란하다는 점에서 본 연구에서는 RCM 격자자료를 유역단위에서 강우관측소지점 단위로 공간적 다운스케일링을 실시하였으며 RCM 월자료

본 연구에서는 유역내 비점오염원의 영향으로 하천으로 유입되는 유량분석 및 수질특성을 알고자 함이다. 강우에 의한 유출, 유사 거동 등을 해석 가능한 분포형 모형인 SWAT 모형으로 선정하고, 남강댐 유역에 대해 비점오염원 특성 분석을 실시하였다. 유역에 대한 모형을 구축하고 보정 및 검정을 한 후 오염부하량을 산정하였다. 남강댐 유역중 3개의 대표권역을 선정하여 유출모의와 계절별 오염부하량을 산정하였다. 유출량은 강우에 의해 큰 변화를 보이며, 오염농도 및 부하량은 유출량에 의해 변화를 보였다. 강우가 비교적 작은 봄, 가을, 겨울에 비해 여름에 오염 부하량이 높에 나타 났으며, 부영양화, 조류 현상을 발생시키는 오염요소인 총 질소량과 총 인량 도 여름철에 가장 높게 나타났다. 3권역중 덕천강 권역에서는 유사량의 유출이 크게 나타났다. 그 결과 유사에 대한 관리방안의 수립 및 저감시설의 구축이 필요하며, 유역의 최종 출구지점인 남강댐에 비점오염원의 영향을 검토 할 수 있었다.

본 연구에서는 SWAT 모형과 HELP 모형을 이용하여 보청천 유역의 지하수 함양량을 산정하였다. SWAT 모형은 지표수 및 지하수 성분을 모두 고려할 수 있는 물순환 모형이지만, 토양층에 대한 침루과정의 물리적 해석이 미흡하다. 반면에 HELP 모형은 중간유출 및 지하수 유출성분을 모의하지 못하지만, 토양층에서의 비포화흐름을 고려하여 침루과정을 해석할 수 있다. 국내유역에서 함양량 산정을 위해 SWAT 모형은 여러 유역에서 성공적으로 적용되어 왔지만,

Since Jeju island has depended a water resource on the underground water because of a poor development of the surface flow, Jeju island is in need of the surface resource development to prevent the future shortage of the underground water due to excessive development and use of it. The study shows that the SWAT model(continuous rainfall-runoff model) is applied to estimate the outflow in the drainage watershed area, where it has been urbanized through the change of the land, such as a tourism development, cultivation, housing, and impervious layer road development. Near Oaedo watershed area in Jeju island, weather and topographical SWAT input data were collected, and compared the outflow change of past and present.

The discharge within the basin in Jeju Island was calculated by using SWAT model, which a Semi-distributed rainfall-runoff model to the important rivers. The basin of Chunmi river of the eastern region of Jeju Island, as the result of correcting as utilizing direct runoff data of 2 surveys, appeared the similar value to the existing basin average runoff rate as 22% of average direct runoff rate for the applied period. The basin of Oaedo river of the northern region showed R2 of 0.93, RMSE of 14.92 and ME of 0.70 as the result of correcting as utilizing runoff data in the occurrence of 7 rainfalls. The basin of Ongpo river of the western region showed R2 of 0.86, RMSE of 0.62 and ME of 0.56 as the result of correcting as utilizing runoff data except for the period of flood in 2002~2003. Yeonoae river of the southern region showed R2 of 0.85, RMSE of 0.99 and ME of 0.83 as the result of correcting as utilizing runoff data of 2003. As the result of calculating runoff for the long term about 4 basins of Jeju Island from the above results, SWAT model wholly appears the excellent results about the long-term daily runoff simulation.

High turbid water in the River has been one of the major concerns to the downstream residence. Especially in the Nakdong River basin severe turbid water problem occurred in year 2002 and 2003 due to the typhoon Rusa and Maemi consecutively. The main objective of this study is to develop turbid water management system in reservoir downstream of the Nakdong River combining physically based semi-distributed hydrologic simulation model SWAT with 1-dimensional dynamic water quality simulation model. SWAT model covers the area from the upstream of the Imha and Andong reservoir to the Gumi gage station for the purpose of estimating flow rates and suspended sediment of the tributaries. From year 1999 to 2007 runoff simulation for 8 years Reff and R2 ranges 0.46~0.9, 0.54~0.99 respectively. Through the linkage of models, outputs of SWAT model such as suspended sediment and flow rates of the tributaries can be incorporated into the 1-dimensional dynamic water quality simulation model, KoRiv1 to support joint reservoir operation considering the turbidity released from Imha and Andong reservoir. The applicability of model simulation has been tested for year 2006 and compared with measured data.

For the assesment of pollutant loads, a monitoring has been conducted to identify hydrologic conditions and water quality of the Oenam watershed in Juam Lake, and the SWAT model integrated with GIS was applied to the watershed and evaluated for its applicability through calibration and verification using observed data. For the model application, digital maps were constructed for watershed boundary, land-use, soil series, digital elevation, and topographic input data of the Oenam watershed using Arcview. The observed runoff was 832.8 mm while the simulated runoff was 842.8 mm in 2003. The model results showed that the simulated runoff was in a good agreement with the observed data and indicated reasonable applicability of the model. In terms of nutrient load, the simulation results of T-N, T-P showed a similar trend to observed values. The observed T-N load was 10.8 kg/ha and the simulated T-N load was 7.6 kg/ha while the observed T-P load was 0.21 kg/ha and the simulated T-P load was 0.18 kg/ha. In general, SWAT model predicted observed runoff and loads of T-N and T-P after calibration with observed data in acceptable range. Overall, SWAT model was satisfactory in estimation of nutrient pollutant loads of the rural watershed.

본 연구는 지하수위의 시간적인 변화가 지표수 유출, 증발산, 토양 수분 등 다른 수문성분에 미치는 개별적 영향을 평가한 것이다. 이를 위하여 기 개발된 완전연동형 지표수-지하수 통합모형인 SWAT-MODFLOW 모형에서 토양층의 수분과 얕은 대수층의 지하수의 결합과정을 새롭게 개선하여 토양수분과 지하수간의 보다 현실적인 상호작용이 가능하도록 가변 토양층 구조 기법(The variable soil layer construction technique, VS

In this study, long term semi distributed hydrologic model SWAT-K(Korea) is applied to the Seolma- Cheon watershed to analyze the hydrological components. Seolma-Cheon watershed has been operated as the test watershed of Korea Institute of Constrcution Technology for 13 years. Therefore it has an enough hydrologic data to analyze the hydrologic characteristics of small watershed. Especially, for the proper runoff analysis of steep watershed, calibration is performed reflecting the regression equation of slope and slope length. The simulated discharge shows good agreement with the observed one and the simulated evapotranspiration and groundwater discharge also show satisfactory results. Finally we presents the ratio of major hydrologic components for 3 years with those obsrved ones. This study is the basic research for future analyses such as relationship between hydrologic components and vegetation, watershed sediment nonpoint sources discharge etc.

The SWAT model developed by the USDA-Agricultural Research service for the prediction of rainfall runoff, sediment, and chemical yields in a basin was applied to Jeju Island watershed to estimate the amount of runoff. The research outcomes revealed that the estimated amount of runoff for the long term on 2 watersheds showed fairly good performance by the long-term daily runoff simulation. The watershed of Chunmi river located the eastern region in Jeju Island, after calibrations of direct runoff data of 2 surveys, showed the similar values to the existing watershed average runoff rate as 22% of average direct runoff rate for the applied period. The watershed of Oaedo river located the northern region showed R2 of 0.93, RMSE of 14.92 and ME of 0.70 as the result of calibrations by runoff data in the occurrence of 7 rainfalls.

본 연구에서는 안양천 중상류 유역에 대해 SWAT 모형을 이용하여 현재(2000년)의 토지이용 및 지하수 취수량(2000년)을 토대로 유황곡선을 도출하고 개발이전의 토지이용(1975년)과 지하수 취수가 전혀 없는 이상적인 상태에서 유황곡선을 도출하여 비교 분석하였다. 또한 기존의 갈수량과 항목별 필요유량을 비교하여 큰 값으로 하천유지유량을 설정한 것과 본 연구에서 수행한 유황들을 비교하였다. 그 결과 오전, 삼성, 삼막, 수암천의 경우, 현재의 상태와

본 연구에서는 LH-OAT (Latin Hypercube Ore factor At a Time) 민감도분석 방법과 SCE-UA (Shuffled Complex Evolution at University of Arizona) 최적화 기법을 적용하여 보청천 유역에서 SWAT모형에 대한 자동보정 방법을 제시하였다. LH-OAT 방법은 전역 민감도분석과 부분 민감도 분석의 장점을 조합하여 가용매개변수 공간에 대하여 효율적으로 매개변수의 민감도 분석이 가능하게

본 연구에서는 준분포형 장기유출 모형인 SWAT(Soil and Water Assessment Tool)을 적용하는 경우 유출 결과의 정도를 확보하기 위한 강우계 밀도 및 소유역의 규모를 파악하였다. 다차원 강우모형인 WGR모형(Waymire 등, 1984)에 의하여 모의 발생된 강우를 SWAT모형을 통하여 유출해석한 후 다양한 소유역 규모 및 강우계 밀도에 대해 유출 오차를 분석하는 방법을 사용하였으며, 연구결과 대상유역인 용담댐 유역의 경우 적정 소