The 3rd Summit and International ConferenceSokha Siem Reap Resort & Convention Center, Siem Reap, Cambodia

2-5 April 2018

Suhyung Jang, Kyongsik Ryoo, Shinuk Kang and Jinhyeog ParkStrategic Research Group for Korea Water Grid, K-water Institute, K-water, Korea

1. Introduction of K-water

2. Korean-type IWRM in K-water

3. Drought Risk Management by Multi-purpose

Dams

1. Introduction of Korea Water Resources Corporation (K-water)

with a history of fifty years of water management (established in 1967)

Water Supply(Dam)Flood Control

CapacityHydro Power Generation

Water SupplySystem Capacity

Korea 20.9 B㎥/yr 5.6 B㎥ 1,785MW 32.6 M㎥/day

K-water 13.3 B㎥/yr 5.3 B㎥ 1,075MW 15.3 M㎥/day

Percentage (%) 64% 95% 60% 47%

K-WATER WHO WE ARE(5-minute video)

1. Introduction of Korea Water Resources Corporation (K-water)

2. Korean-type Integrated Water Resources Management (IWRM) in K-water

2. Korean-type Integrated Water Resources Management (IWRM) in K-water

Acquisition

Transmission

(Gathering) Rainfall, water level, discharge & water quality data from 425 Stations

(Data Management) 1 minute real-time base (1, 10, 30, 60 min)

Dual Communication Network (Satellite + CDMA)

RHDAPS(IHDMS, WDMS)

Hydrological DataAcquisition and

Processing

Real-time Hydrological Data Acquisition& Processing System (RHDAPS)

2. Korean-type Integrated Water Resources Management (IWRM) in K-water

Precipitation forecast Collection of weather data PFS run on HPC(4times/1day, 5days forecast)

Weather chart

Calculate precipitation

Flood Analysis SystemNational Oceanic and Atmospheric Administration (NOAA)

Korea Meteorological Administration (KMA) High Performance Computing (HPC)

Collect Weather DataTemperature, Humidity, etc

3km × 3kmHigh Resolution

Precipitation Forecasting System(PFS)

2. Korean-type Integrated Water Resources Management (IWRM) in K-water

FAS

PFS

Flood Control Effect Analysis

(Flood and channel routing)

Flood Analysis System (FAS)

2. Korean-type Integrated Water Resources Management (IWRM) in K-water Reservoir Water Supply System(RWSS)

2. Korean-type Integrated Water Resources Management (IWRM) in K-water

RemoteControl

1,333 MW

4대강소수력 : 51 MW

Monitoring

H

R.H

R.G R.N

HeadOffice (Daejeon City)Regional Division (Hangang, Nakdonggang,

Geumyeongseom)9 Multipurpose Dams (38 Generators, 1,011 MW)16 Weirs (41 Generators, 51 MW)New Renewable Energy (etc. 12 MW)

R.H

H

Generation Integrated Operation System (GIOS)

3. Drought Risk Management by Multi-purpose DamsWater Resources Management Conditions in Korea

3. Drought Risk Management by Multi-purpose DamsPre-emptively water supply and triggering criteria for drought risk management by multi-purpose dams

Goal: to maximize the efficiency, to minimize the water shortage in advance

Initiation Criteria

Triggering Criteria

Daily-based(All Seasons)

3. Drought Risk Management by Multi-purpose DamsPerformance evaluation for both historical periods and future climate change projections

Performance Evaluation (Andong-Imha multi-purpose dam in Nakdong River Basin)

Development & Modification Considering FutureClimate Change Conditions

3. Drought Risk Management by Multi-purpose DamsAdapting future climate change conditions

Duration/Location

Participants

Organized by

Training Class

Travel Costs

September 17 - 21, 2018 (5days) / Daejeon, Korea (K-water Academy)

10 participants from 5 Countries from Mekong Region(Cambodia, Lao PDR, Myanmar, Thailand, Viet Nam)

U.S.A: Department of State, USACERepublic of Korea: MOLIT, K-water, UNESCO i-WSSM

HEC-RAS 2D Modeling(3-day), Shared Vision Planning(SVP)(1-day)Special lecture: Korean-type Integrated Water Resources Management

Fully supported by MOLIT, K-water and UNESCO i-WSSM(Round-trip economy class air ticket, Meal, Accommodation)

Instructor Training Experts from HEC, IWR in U.S. Army Corps of Engineers