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HEC-HMS 2012.10.10 담당교수명 : 서 영 민 연 락 처 : [email protected]@naver.com...
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Transcript of HEC-HMS 2012.10.10 담당교수명 : 서 영 민 연 락 처 : [email protected]@naver.com...
Part 1: HEC-HMS 개요
HEC-HMS 개요
개요- Hydrologic Modeling System (HMS)- 미육군공병단 (USACE) 의 수문공학센터 (Hydrologic Engineering Center, HEC) 에서 개발한 강우 - 유출해석 프로그램- 기존 HEC-1 (DOS 버전 ) 의 대체 버전 (Windows 버전 )- 유효강우산정 , 합성단위도 , 하도추적 등 포함- 격자형 강우자료 ( 레이더 ) 를 이용한 준분포형 모형 포함 - 장기유출모의를 위한 간단한 토양수분모형 포함
적용범위 - 강우 - 유출 해석을 통한 홍수피해 감소- 댐 안전에 대한 여수로 타당성- 저수지 설계 및 운영- 홍수예경보- 홍수터 관리- 환경복원 등
http://www.hec.usace.army.mil/
Step 1. 새로운 프로젝트 생성Step 2. 공유 프로젝트 자료 입력Step 3. 유역자료 입력 및 설정Step 4. 기상자료 입력 및 설정Step 5. 모의기간 및 시간간격 설정Step 6. 모의실행 및 결과 검토Step 7. 자료 수정 및 생성Step 8. 추가 모의 및 결과 비교
Application Steps
Program Screen
Watershed Explorer
Basin ModelsMeteorologic ModelsControl SpecificationsTime-Series DataPaired Data
Basin Map
Sub-basin
Channel
Junction
Outlet
Component Editor
Component Data
Hydrologic Element
소유역 유출량강우 및 손실기저유출( 유역추적 및합성단위도법 )
하도유출하도손실( 하도추적 )
수문요소연결
No inflowOutflow 설정
No outflowInflow 만 존재
저수지 설정( 저수지 추적 )
흐름전환
Hydrologic Element
Precipitation Methods
Control Specifications
모의시간 및 간격 설정
SimulatonResults
End of Part I
Part 2: 주요 구성요소
Main Components Basin model gives the physical description of the watershed.
Subbasin: watershed catchments where rain falls. Reach: rivers and streams. Reservoir: dams and lakes. Junction: confluence. Diversion: bifurcations and withdrawls. Source: springs and other model sinks. Sink: outlets and terminal lakes.
Meteorologic model describes atmospheric conditions over the wa-tershed land surface. Precipitation. Potential evapotranspiration. Snowmelt.
Control specifications: Time control during a simulation run.
Ref.) Bill Scharffenberg (2008). Introduction to HEC-HMS, Workshop on Watershed Modeling with HEC-HMS
Hydrologic ElementsSubbasin
유역면적강우손실
( 합성 ) 단위도기저유출
Ref.) Bill Scharffenberg (2008). Introduction to HEC-HMS, Workshop on Watershed Modeling with HEC-HMS
Subbasin Infiltration
Loss rate methods: Deficit constant. Exponential. Green Ampt. Gridded deficit constant. Gridded SCS. Gridded SMA. Initial constant. SCS curve number. Smith Parlange. Soil moisture accounting.
Ref.) Bill Scharffenberg (2008). Introduction to HEC-HMS, Workshop on Watershed Modeling with HEC-HMS
Subbasin Surface Runoff
Unit hydrograph methods: Clark. SCS. S-graph. Snyder. User-specified.
Other methods: Kinematic wave. ModClark distributed.
Ref.) Bill Scharffenberg (2008). Introduction to HEC-HMS, Workshop on Watershed Modeling with HEC-HMS
Subbasin Baseflow
Baseflow methods: Bounded recession. Linear reservoir. Monthly constant. Nonlinear Boussinesq. Recession.
Ref.) Bill Scharffenberg (2008). Introduction to HEC-HMS, Workshop on Watershed Modeling with HEC-HMS
Reach
Routing methods: Kinematic wave Lag Modified Puls Muskingum Muskingum-Cunge Straddle stagger
Loss/gain methods: Constant. Percolation.
Ref.) Bill Scharffenberg (2008). Introduction to HEC-HMS, Workshop on Watershed Modeling with HEC-HMS
Reservoir
Routing methods: Storage curve. Outlet structures. Specified release.
Possible structures: Gated spillway (0 to 10). Overflow (0 to 10). Outlet (0 to 10). Pump (0 to 10). Dam break (0 or 1).
Ref.) Bill Scharffenberg (2008). Introduction to HEC-HMS, Workshop on Watershed Modeling with HEC-HMS
Precipitation Historical methods:
Gage weights. Inverse distance. User-specified. Gridded.
Hypothetical methods: Frequency storm. SCS storm. Standard project storm.
Ref.) Bill Scharffenberg (2008). Introduction to HEC-HMS, Workshop on Watershed Modeling with HEC-HMS
Evapotranspiration
Available methods: Gridded Priestley-Taylor. Monthly average. Priestley-Taylor.
Ref.) Bill Scharffenberg (2008). Introduction to HEC-HMS, Workshop on Watershed Modeling with HEC-HMS
Snowmelt
Temperature index method. Subbasin band approach. Gridded approach.
Ref.) Bill Scharffenberg (2008). Introduction to HEC-HMS, Workshop on Watershed Modeling with HEC-HMS
End of Part II