Integrated Modeling of Surface Water and …...1 Integrated Modeling of Surface Water and Groundwate...
Transcript of Integrated Modeling of Surface Water and …...1 Integrated Modeling of Surface Water and Groundwate...
![Page 1: Integrated Modeling of Surface Water and …...1 Integrated Modeling of Surface Water and Groundwate r by Using Combined SWAT-MODFLOW N. W. Kim*, I. M. Chung*, Y. S. Won**, J. Lee*,](https://reader031.fdocuments.net/reader031/viewer/2022011901/5f081b167e708231d4205d8a/html5/thumbnails/1.jpg)
1
Integrated Modeling of Surface Water and Groundwater by Using Combined SWAT-MODFLOW
N. W. Kim*, I. M. Chung*, Y. S. Won**, J. Lee*, J. G. Arnold***
* Korea Institute of Construction Technology**River Information Center of Han River Flood Control Office
*** USDA-Agricultural Research Service
SWAT-K
![Page 2: Integrated Modeling of Surface Water and …...1 Integrated Modeling of Surface Water and Groundwate r by Using Combined SWAT-MODFLOW N. W. Kim*, I. M. Chung*, Y. S. Won**, J. Lee*,](https://reader031.fdocuments.net/reader031/viewer/2022011901/5f081b167e708231d4205d8a/html5/thumbnails/2.jpg)
2
� Background and Purpose
� Overview of SWAT-K and
SWAT-MODFLOW
� Application to test watersheds
� Results of simulation
� Conclusion
Content
![Page 3: Integrated Modeling of Surface Water and …...1 Integrated Modeling of Surface Water and Groundwate r by Using Combined SWAT-MODFLOW N. W. Kim*, I. M. Chung*, Y. S. Won**, J. Lee*,](https://reader031.fdocuments.net/reader031/viewer/2022011901/5f081b167e708231d4205d8a/html5/thumbnails/3.jpg)
3
BACKGROUNDBACKGROUND
� Current issues on water management in Korea :
� Water rights (and regulations) on groundwater use near streams
� Accurate estimation of groundwater recharge / discharge
� Potential amount of groundwater development based on groundwater recharge
� Groundwater is an alternative water resources in Korea
![Page 4: Integrated Modeling of Surface Water and …...1 Integrated Modeling of Surface Water and Groundwate r by Using Combined SWAT-MODFLOW N. W. Kim*, I. M. Chung*, Y. S. Won**, J. Lee*,](https://reader031.fdocuments.net/reader031/viewer/2022011901/5f081b167e708231d4205d8a/html5/thumbnails/4.jpg)
4
BACKGROUNDBACKGROUND
� Problems
� Hydrologic component analysis in Korea has concentrated on surface water management, so problems related to groundwater were not dealt with rigorously
� In groundwater modelling, groundwater recharge could not be considered in terms of hydrological processes
� The role of groundwater model in surface water management was less significant
![Page 5: Integrated Modeling of Surface Water and …...1 Integrated Modeling of Surface Water and Groundwate r by Using Combined SWAT-MODFLOW N. W. Kim*, I. M. Chung*, Y. S. Won**, J. Lee*,](https://reader031.fdocuments.net/reader031/viewer/2022011901/5f081b167e708231d4205d8a/html5/thumbnails/5.jpg)
5
PURPOSEPURPOSE
� Construction of a long term rainfall runoff model, producing integrated analysis for both the groundwater and surface water
� To explain the effects of spatial-temporal distributions of recharge and groundwater head
� To examine the hydrological effects allowing hydraulic interaction between surface water and groundwater
� Application to Underground dam / River intake / Reservoir capacity/ Potential amount of groundwater development / Stream flow decrease in urbanized watershed
![Page 6: Integrated Modeling of Surface Water and …...1 Integrated Modeling of Surface Water and Groundwate r by Using Combined SWAT-MODFLOW N. W. Kim*, I. M. Chung*, Y. S. Won**, J. Lee*,](https://reader031.fdocuments.net/reader031/viewer/2022011901/5f081b167e708231d4205d8a/html5/thumbnails/6.jpg)
6
SWATSWAT--KK
� What is SWAT-K(Korea)?
SWAT+Variation of water cycle structure (Natural+Artificial)SWAT+Variation of water cycle structure (Natural+Artificial)
SWATSWATSWATSWAT----AGRIMANAGRIMANAGRIMANAGRIMANSWATSWATSWATSWAT----MODFLOWMODFLOWMODFLOWMODFLOW
SWATSWATSWATSWAT----SWMMSWMMSWMMSWMMSWATSWATSWATSWAT----ROMROMROMROM
![Page 7: Integrated Modeling of Surface Water and …...1 Integrated Modeling of Surface Water and Groundwate r by Using Combined SWAT-MODFLOW N. W. Kim*, I. M. Chung*, Y. S. Won**, J. Lee*,](https://reader031.fdocuments.net/reader031/viewer/2022011901/5f081b167e708231d4205d8a/html5/thumbnails/7.jpg)
7
▶▶▶▶ Technological Roadmap
SWATSWAT--KK
![Page 8: Integrated Modeling of Surface Water and …...1 Integrated Modeling of Surface Water and Groundwate r by Using Combined SWAT-MODFLOW N. W. Kim*, I. M. Chung*, Y. S. Won**, J. Lee*,](https://reader031.fdocuments.net/reader031/viewer/2022011901/5f081b167e708231d4205d8a/html5/thumbnails/8.jpg)
8
SWATSWAT--MODFLOWMODFLOW
� Fully combined SWAT-MODFLOW
� Development of tool for exchanging characteristics between HRU(Hydrologic Response Unit) of SWAT and CELL of MODFLOW
� Groundwater module in SWAT is replaced by MODFLOW
� Spatially distributed GW recharge rates and heads can be simulated by SWAT-MODFLOW
� Stream-aquifer interactions by RIVER package in MODFLOW
![Page 9: Integrated Modeling of Surface Water and …...1 Integrated Modeling of Surface Water and Groundwate r by Using Combined SWAT-MODFLOW N. W. Kim*, I. M. Chung*, Y. S. Won**, J. Lee*,](https://reader031.fdocuments.net/reader031/viewer/2022011901/5f081b167e708231d4205d8a/html5/thumbnails/9.jpg)
9
SWATSWAT--MODFLOWMODFLOW
* * * * This approach is quite different to the method used by Sophocleous et al.(1997) which involves separate modelling by sequential linkages.
� Schematic diagram
![Page 10: Integrated Modeling of Surface Water and …...1 Integrated Modeling of Surface Water and Groundwate r by Using Combined SWAT-MODFLOW N. W. Kim*, I. M. Chung*, Y. S. Won**, J. Lee*,](https://reader031.fdocuments.net/reader031/viewer/2022011901/5f081b167e708231d4205d8a/html5/thumbnails/10.jpg)
10
SWATSWAT--MODFLOWMODFLOW
■ Fully coupled work by Serial linkage
simulate
Std3..
command-1
subbasin-1
Varinit..
gwmod-1
command-2..
tilmix
subbasin-2..
saveconc
gwmod-2..
virtual
MODFLOW
SWAT
SWAT
- - - - -
- - - - - - -
- Groundwater recharge- River stage- Water transfer- Drainage- Aquifer EVT
- Cell based recharge- Aquifer-river exchange rate- Variation of GW head- Drainage- Aquifer EVT
![Page 11: Integrated Modeling of Surface Water and …...1 Integrated Modeling of Surface Water and Groundwate r by Using Combined SWAT-MODFLOW N. W. Kim*, I. M. Chung*, Y. S. Won**, J. Lee*,](https://reader031.fdocuments.net/reader031/viewer/2022011901/5f081b167e708231d4205d8a/html5/thumbnails/11.jpg)
11
SWATSWAT--MODFLOWMODFLOW
� Major input data for SWAT-MODFLOW
� HRU distribution which links HRU with MODFLOW grids
� Cell based recharge rate which is made by HRU based in SWAT
� Stream data(stage, width) is common to both model
� Data for water transfer of shallow aquifer in SWAT is commonly used in WELL package in MODFLOW
![Page 12: Integrated Modeling of Surface Water and …...1 Integrated Modeling of Surface Water and Groundwate r by Using Combined SWAT-MODFLOW N. W. Kim*, I. M. Chung*, Y. S. Won**, J. Lee*,](https://reader031.fdocuments.net/reader031/viewer/2022011901/5f081b167e708231d4205d8a/html5/thumbnails/12.jpg)
12
SWATSWAT--MODFLOWMODFLOW� Linking RECHARGE in MODFLOW with SWAT
7 7 7 7
7 7 7 7
7 7 7 7
7 5 5
5 55 556 6 6
6 6 6
6 6
64
4 4 4 4
4 4
4 4
4 4
44 913554
SWAT
MODFLOW
HRU = 54+44+35+91
HRU
HRU
MODFLOW cell
HRU based recharge
HRU in small watershed
HRU in small watershed
Cell in MODFLOW
![Page 13: Integrated Modeling of Surface Water and …...1 Integrated Modeling of Surface Water and Groundwate r by Using Combined SWAT-MODFLOW N. W. Kim*, I. M. Chung*, Y. S. Won**, J. Lee*,](https://reader031.fdocuments.net/reader031/viewer/2022011901/5f081b167e708231d4205d8a/html5/thumbnails/13.jpg)
13
SWATSWAT--MODFLOWMODFLOW
Stream inflow in SWAT =discharge in small watershed +SW & GW exchange(23)
Stream inflow in SWAT
Small watershed
Cell in MODFLOW
Stream in MODFLOW
� Linking RIVER in MODFLOW with SWAT
![Page 14: Integrated Modeling of Surface Water and …...1 Integrated Modeling of Surface Water and Groundwate r by Using Combined SWAT-MODFLOW N. W. Kim*, I. M. Chung*, Y. S. Won**, J. Lee*,](https://reader031.fdocuments.net/reader031/viewer/2022011901/5f081b167e708231d4205d8a/html5/thumbnails/14.jpg)
14
Runoff ProcessRunoff Process
- Processes -
1. Qsur, Qinf
2. Qlat, Qperc
3. ET
4. Qrchge
5. Qgw
6. Qrevap
7. Qda
• Behavior of hydrological components in single HRU
![Page 15: Integrated Modeling of Surface Water and …...1 Integrated Modeling of Surface Water and Groundwate r by Using Combined SWAT-MODFLOW N. W. Kim*, I. M. Chung*, Y. S. Won**, J. Lee*,](https://reader031.fdocuments.net/reader031/viewer/2022011901/5f081b167e708231d4205d8a/html5/thumbnails/15.jpg)
15
� Enhancement of recharge parameter estimation for vadosezone modeling
: recharge from soil zone to aquifer (mm)
1,, ]/1exp[)]/1exp[1( −−+−−= irchrggwseepgwirchrg www δδ
irchrgw ,
gwδ
seepw
: delay parameter (day)
: amount of water exiting the bottom of soil profile (mm)
Single linear reservoir
Multiple linear reservoir
OIdt
dS −=
OKS =
Continuity Eq.
Storage Eq.
n system of Eq.
![Page 16: Integrated Modeling of Surface Water and …...1 Integrated Modeling of Surface Water and Groundwate r by Using Combined SWAT-MODFLOW N. W. Kim*, I. M. Chung*, Y. S. Won**, J. Lee*,](https://reader031.fdocuments.net/reader031/viewer/2022011901/5f081b167e708231d4205d8a/html5/thumbnails/16.jpg)
16
SWATSWAT--MODFLOWMODFLOW
� Enhancement of water transfer in SWAT-MODFLOW
� In SWAT’s water transfer option, when the source type is aquifer, then this case is related with Well package in MODFLOW
� Water transfer rate in HRU is correspondent to pumping rate Q (discharge or recharge)
![Page 17: Integrated Modeling of Surface Water and …...1 Integrated Modeling of Surface Water and Groundwate r by Using Combined SWAT-MODFLOW N. W. Kim*, I. M. Chung*, Y. S. Won**, J. Lee*,](https://reader031.fdocuments.net/reader031/viewer/2022011901/5f081b167e708231d4205d8a/html5/thumbnails/17.jpg)
17
GYUNGANCHEON WATERSHEDGYUNGANCHEON WATERSHED
A=260 km2
![Page 18: Integrated Modeling of Surface Water and …...1 Integrated Modeling of Surface Water and Groundwate r by Using Combined SWAT-MODFLOW N. W. Kim*, I. M. Chung*, Y. S. Won**, J. Lee*,](https://reader031.fdocuments.net/reader031/viewer/2022011901/5f081b167e708231d4205d8a/html5/thumbnails/18.jpg)
18
APPLICATIONAPPLICATION
� The characteristics of subbasins
![Page 19: Integrated Modeling of Surface Water and …...1 Integrated Modeling of Surface Water and Groundwate r by Using Combined SWAT-MODFLOW N. W. Kim*, I. M. Chung*, Y. S. Won**, J. Lee*,](https://reader031.fdocuments.net/reader031/viewer/2022011901/5f081b167e708231d4205d8a/html5/thumbnails/19.jpg)
19
APPLICATIONAPPLICATION
� Input data for SWAT
�AVS2000 (DiLuzio et al., 2001) was used to automate the construction of model input parameters�Daily precipitation of Suwon gauging station (MOCT)�Daily values of temperatures, solar radiation, wind speed etc.(KMA)�Land use digital data(1:25,000) (MOCT)�The detailed soil association map(1:25,000) was used for selection of soil attributes. 38 hydrologic soil groups within basin were used. �Related soil physical properties (texture, bulk density, available water capacity, saturated hydraulic conductivity, soil albedo and some additional factors) were obtained from the Agricultural Soil Information System (http://asis.rda.go.kr)
![Page 20: Integrated Modeling of Surface Water and …...1 Integrated Modeling of Surface Water and Groundwate r by Using Combined SWAT-MODFLOW N. W. Kim*, I. M. Chung*, Y. S. Won**, J. Lee*,](https://reader031.fdocuments.net/reader031/viewer/2022011901/5f081b167e708231d4205d8a/html5/thumbnails/20.jpg)
20
APPLICATIONAPPLICATION
N
EW
S
DEMDEMDEMDEM landuselanduselanduselanduse soilsoilsoilsoil
HRU distributionHRU distributionHRU distributionHRU distribution
The spatially distributed HRUs are used to match discretised basin with MODFLOW grids.
![Page 21: Integrated Modeling of Surface Water and …...1 Integrated Modeling of Surface Water and Groundwate r by Using Combined SWAT-MODFLOW N. W. Kim*, I. M. Chung*, Y. S. Won**, J. Lee*,](https://reader031.fdocuments.net/reader031/viewer/2022011901/5f081b167e708231d4205d8a/html5/thumbnails/21.jpg)
21
APPLICATIONAPPLICATION
� Input data for MODFLOW
� GW information from GIMS( http://www.gims.go.kr) was used
- Hydraulic conductivity in alluvial aquifer : 2.1 ××××10-3cm/sec.
- Specific yield ranges from 0.1 to 0.3.
�The boundaries of basin were designated as no-flow cells.
� Recharge was distributed according to SWAT simulation outputs for
each day
� River stage of MODFLOW is imported from SWAT's daily
simulation outputs
![Page 22: Integrated Modeling of Surface Water and …...1 Integrated Modeling of Surface Water and Groundwate r by Using Combined SWAT-MODFLOW N. W. Kim*, I. M. Chung*, Y. S. Won**, J. Lee*,](https://reader031.fdocuments.net/reader031/viewer/2022011901/5f081b167e708231d4205d8a/html5/thumbnails/22.jpg)
22
RESULTSRESULTS
� Model calibration (R2=0.79)
Measured and simulated runoff for studied basin during 1990
![Page 23: Integrated Modeling of Surface Water and …...1 Integrated Modeling of Surface Water and Groundwate r by Using Combined SWAT-MODFLOW N. W. Kim*, I. M. Chung*, Y. S. Won**, J. Lee*,](https://reader031.fdocuments.net/reader031/viewer/2022011901/5f081b167e708231d4205d8a/html5/thumbnails/23.jpg)
23
RESULTSRESULTS
� Model validation (R2=0.66/ME=0.65)
Measured and simulated runoff for studied basin during 1991
![Page 24: Integrated Modeling of Surface Water and …...1 Integrated Modeling of Surface Water and Groundwate r by Using Combined SWAT-MODFLOW N. W. Kim*, I. M. Chung*, Y. S. Won**, J. Lee*,](https://reader031.fdocuments.net/reader031/viewer/2022011901/5f081b167e708231d4205d8a/html5/thumbnails/24.jpg)
24
RESULTSRESULTS
� Spatial-temporal variation of groundwater recharge
T=500days T=1000days
![Page 25: Integrated Modeling of Surface Water and …...1 Integrated Modeling of Surface Water and Groundwate r by Using Combined SWAT-MODFLOW N. W. Kim*, I. M. Chung*, Y. S. Won**, J. Lee*,](https://reader031.fdocuments.net/reader031/viewer/2022011901/5f081b167e708231d4205d8a/html5/thumbnails/25.jpg)
25
RESULTSRESULTS
� Spatial-temporal variation of groundwater heads
T=500days T=800days T=1000days
![Page 26: Integrated Modeling of Surface Water and …...1 Integrated Modeling of Surface Water and Groundwate r by Using Combined SWAT-MODFLOW N. W. Kim*, I. M. Chung*, Y. S. Won**, J. Lee*,](https://reader031.fdocuments.net/reader031/viewer/2022011901/5f081b167e708231d4205d8a/html5/thumbnails/26.jpg)
26
RESULTSRESULTS
� Groundwater level variation near stream
![Page 27: Integrated Modeling of Surface Water and …...1 Integrated Modeling of Surface Water and Groundwate r by Using Combined SWAT-MODFLOW N. W. Kim*, I. M. Chung*, Y. S. Won**, J. Lee*,](https://reader031.fdocuments.net/reader031/viewer/2022011901/5f081b167e708231d4205d8a/html5/thumbnails/27.jpg)
27
RESULTSRESULTS
� River aquifer interaction
![Page 28: Integrated Modeling of Surface Water and …...1 Integrated Modeling of Surface Water and Groundwate r by Using Combined SWAT-MODFLOW N. W. Kim*, I. M. Chung*, Y. S. Won**, J. Lee*,](https://reader031.fdocuments.net/reader031/viewer/2022011901/5f081b167e708231d4205d8a/html5/thumbnails/28.jpg)
28
RESULTSRESULTS
� Application of SWAT-MODFLOW pumping moduleA
A’
B B’
Q=1000m3/d
![Page 29: Integrated Modeling of Surface Water and …...1 Integrated Modeling of Surface Water and Groundwate r by Using Combined SWAT-MODFLOW N. W. Kim*, I. M. Chung*, Y. S. Won**, J. Lee*,](https://reader031.fdocuments.net/reader031/viewer/2022011901/5f081b167e708231d4205d8a/html5/thumbnails/29.jpg)
29
RESULTSRESULTS
� Application of SWAT-MODFLOW pumping module
Drawdown of groundwater level at the cross section of south to north direction
-2.5
-2
-1.5
-1
-0.5
0
55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80
Row
Dra
wdo
wn
(m )
pumping rate= 1000cmd
pumping rate= 100cmd
zone of influence=7.5km
![Page 30: Integrated Modeling of Surface Water and …...1 Integrated Modeling of Surface Water and Groundwate r by Using Combined SWAT-MODFLOW N. W. Kim*, I. M. Chung*, Y. S. Won**, J. Lee*,](https://reader031.fdocuments.net/reader031/viewer/2022011901/5f081b167e708231d4205d8a/html5/thumbnails/30.jpg)
30
RESULTSRESULTS
� Application of SWAT-MODFLOW pumping module
Drawdown of groundwater level at the cross section of east to west direction
-2.5
-2
-1.5
-1
-0.5
0
30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55
Column
Dra
wdo
wn
(m )
pumping rate= 1000cmd
pumping rate= 100cmd
zone of influence=7.5km
![Page 31: Integrated Modeling of Surface Water and …...1 Integrated Modeling of Surface Water and Groundwate r by Using Combined SWAT-MODFLOW N. W. Kim*, I. M. Chung*, Y. S. Won**, J. Lee*,](https://reader031.fdocuments.net/reader031/viewer/2022011901/5f081b167e708231d4205d8a/html5/thumbnails/31.jpg)
31
MUSIM WATERSHEDMUSIM WATERSHED
• Watershed information
-Area : 198 km2
-No. of subbasins : 34-Simulation period: 2001~2005
DEMDEMDEMDEM
Naeduk
GadukGroundwater stations
Stream gauging station
![Page 32: Integrated Modeling of Surface Water and …...1 Integrated Modeling of Surface Water and Groundwate r by Using Combined SWAT-MODFLOW N. W. Kim*, I. M. Chung*, Y. S. Won**, J. Lee*,](https://reader031.fdocuments.net/reader031/viewer/2022011901/5f081b167e708231d4205d8a/html5/thumbnails/32.jpg)
32
• Spatial information
(((( ))))
Land use Soil association map
MUSIM WATERSHEDMUSIM WATERSHED
![Page 33: Integrated Modeling of Surface Water and …...1 Integrated Modeling of Surface Water and Groundwate r by Using Combined SWAT-MODFLOW N. W. Kim*, I. M. Chung*, Y. S. Won**, J. Lee*,](https://reader031.fdocuments.net/reader031/viewer/2022011901/5f081b167e708231d4205d8a/html5/thumbnails/33.jpg)
33
• Recharge according to time delay (Naeduk station)
RECHARGE SIMULATIONRECHARGE SIMULATION
1/1/01 1/1/02 1/1/03 1/1/04 12/31/04Date (month/day/year)
0.0
4.0
8.0
12.0
16.0
20.0
Rec
harg
e R
ate
(mm
/d)
1/1/01 1/1/02 1/1/03 1/1/04 12/31/04
150
100
50
0
Dai
ly R
ain
fall
(mm
/d)
Naeduk gauging stationdelta=1.04delta=4.48delta=19.49
![Page 34: Integrated Modeling of Surface Water and …...1 Integrated Modeling of Surface Water and Groundwate r by Using Combined SWAT-MODFLOW N. W. Kim*, I. M. Chung*, Y. S. Won**, J. Lee*,](https://reader031.fdocuments.net/reader031/viewer/2022011901/5f081b167e708231d4205d8a/html5/thumbnails/34.jpg)
34
RECHARGE SIMULATIONRECHARGE SIMULATION
1/1/01 1/1/02 1/1/03 1/1/04 12/31/04Date (month/day/year)
0.0
4.0
8.0
12.0
16.0
20.0
Rec
harg
e R
ate
(m
m/d
)
1/1/01 1/1/02 1/1/03 1/1/04 12/31/04
150
100
50
0
Daily
Rain
fall
(mm
/d)
Kaduk gauging stationdelta=1.04delta=4.48delta=19.49
• Recharge according to time delay(Gaduk obsevatory)
![Page 35: Integrated Modeling of Surface Water and …...1 Integrated Modeling of Surface Water and Groundwate r by Using Combined SWAT-MODFLOW N. W. Kim*, I. M. Chung*, Y. S. Won**, J. Lee*,](https://reader031.fdocuments.net/reader031/viewer/2022011901/5f081b167e708231d4205d8a/html5/thumbnails/35.jpg)
35
RECHARGE SIMULATIONRECHARGE SIMULATION
0.0 0.2 0.4 0.6 0.8 1.0EXP(-1/delta)
-1.0
-0.5
0.0
0.5
1.0C
OR
RE
LA
TIO
N
NaedukKaduk
• Correlation with GW level according to exp(-1/δδδδgw)
![Page 36: Integrated Modeling of Surface Water and …...1 Integrated Modeling of Surface Water and Groundwate r by Using Combined SWAT-MODFLOW N. W. Kim*, I. M. Chung*, Y. S. Won**, J. Lee*,](https://reader031.fdocuments.net/reader031/viewer/2022011901/5f081b167e708231d4205d8a/html5/thumbnails/36.jpg)
36
• Simulated recharge and measured groundwater level(Naeduk)
RECHARGE SIMULATIONRECHARGE SIMULATION
7/1/03 7/10/03 7/19/03 7/28/03 8/6/03 8/15/03Date (month/day/year)
0.0
2.0
4.0
6.0
8.0
10.0
Rech
arg
e R
ate
(m
m/d
ay)
34.0
34.2
34.4
34.6
34.8
35.0
Gro
undw
ate
r Leve
l (E
l.m)
Groundwater Level (Obs.)Recharge Rate (Sim.)
![Page 37: Integrated Modeling of Surface Water and …...1 Integrated Modeling of Surface Water and Groundwate r by Using Combined SWAT-MODFLOW N. W. Kim*, I. M. Chung*, Y. S. Won**, J. Lee*,](https://reader031.fdocuments.net/reader031/viewer/2022011901/5f081b167e708231d4205d8a/html5/thumbnails/37.jpg)
37
• Simulated recharge and measured groundwater level(Gaduk)
RECHARGE SIMULATIONRECHARGE SIMULATION
7/1/03 7/31/03 8/30/03 9/29/03 10/29/03 11/28/03 12/28/03Date (month/day/year)
0.0
0.5
1.0
1.5
2.0
2.5
Rech
arg
e R
ate
(m
m/d
ay)
74.0
74.5
75.0
75.5
76.0
76.5
77.0
Gro
undw
ate
r Le
vel (
El.m
)
Groundwater Level (Obs.)Recharge Rate (Sim.)
![Page 38: Integrated Modeling of Surface Water and …...1 Integrated Modeling of Surface Water and Groundwate r by Using Combined SWAT-MODFLOW N. W. Kim*, I. M. Chung*, Y. S. Won**, J. Lee*,](https://reader031.fdocuments.net/reader031/viewer/2022011901/5f081b167e708231d4205d8a/html5/thumbnails/38.jpg)
38
• Monthly recharge
RECHARGE SIMULATIONRECHARGE SIMULATION
2001 2002 2003 2004 2005Date (month-year)
0
50
100
150
200
Rec
harg
e R
ate
(m
m/m
)
2001 2002 2003 2004 2005
500400300200100
0
Mon
thly
Rai
nfal
l (m
m/m
)
Gauging StationNaedukKaduk
![Page 39: Integrated Modeling of Surface Water and …...1 Integrated Modeling of Surface Water and Groundwate r by Using Combined SWAT-MODFLOW N. W. Kim*, I. M. Chung*, Y. S. Won**, J. Lee*,](https://reader031.fdocuments.net/reader031/viewer/2022011901/5f081b167e708231d4205d8a/html5/thumbnails/39.jpg)
39
• Simulated stream flow (2001~2005)– Overall correlation (R2=0.75)
RUNOFF SIMULATIONRUNOFF SIMULATIONSt
ream
flow
Stre
am fl
owSt
ream
flow
Stre
am fl
ow
Obs.
Sim.
![Page 40: Integrated Modeling of Surface Water and …...1 Integrated Modeling of Surface Water and Groundwate r by Using Combined SWAT-MODFLOW N. W. Kim*, I. M. Chung*, Y. S. Won**, J. Lee*,](https://reader031.fdocuments.net/reader031/viewer/2022011901/5f081b167e708231d4205d8a/html5/thumbnails/40.jpg)
40
• Groundwater head simulation
GROUNDWATER SIMULATIONGROUNDWATER SIMULATION
� R2=0.95
ObservedObservedObservedObserved SimulatedSimulatedSimulatedSimulated
![Page 41: Integrated Modeling of Surface Water and …...1 Integrated Modeling of Surface Water and Groundwate r by Using Combined SWAT-MODFLOW N. W. Kim*, I. M. Chung*, Y. S. Won**, J. Lee*,](https://reader031.fdocuments.net/reader031/viewer/2022011901/5f081b167e708231d4205d8a/html5/thumbnails/41.jpg)
41
• Verification of groundwater level
GROUNDWATER SIMULATIONGROUNDWATER SIMULATION
33.033.033.033.0
33.533.533.533.5
34.034.034.034.0
34.534.534.534.5
35.035.035.035.0
35.535.535.535.5
36.036.036.036.0
36.536.536.536.5
37.037.037.037.0
2001/ 012001/ 012001/ 012001/ 01 2001/ 042001/ 042001/ 042001/ 04 2001/ 072001/ 072001/ 072001/ 07 2001/ 102001/ 102001/ 102001/ 10
Time (day)Time (day)Time (day)Time (day)
(EL
.m)
(EL
.m)
(EL
.m)
(EL
.m)
ObsSim.
Gro
undw
ater
leve
lG
roun
dwat
er le
vel
Gro
undw
ater
leve
lG
roun
dwat
er le
vel
![Page 42: Integrated Modeling of Surface Water and …...1 Integrated Modeling of Surface Water and Groundwate r by Using Combined SWAT-MODFLOW N. W. Kim*, I. M. Chung*, Y. S. Won**, J. Lee*,](https://reader031.fdocuments.net/reader031/viewer/2022011901/5f081b167e708231d4205d8a/html5/thumbnails/42.jpg)
42
• Verification of groundwater level
GROUNDWATER SIMULATIONGROUNDWATER SIMULATION
33.033.033.033.0
33.533.533.533.5
34.034.034.034.0
34.534.534.534.5
35.035.035.035.0
35.535.535.535.5
36.036.036.036.0
36.536.536.536.5
37.037.037.037.0
2002/ 012002/ 012002/ 012002/ 01 2002/ 042002/ 042002/ 042002/ 04 2002/ 072002/ 072002/ 072002/ 07 2002/ 102002/ 102002/ 102002/ 10
Time (day)Time (day)Time (day)Time (day)
(EL
.m)
(EL
.m)
(EL
.m)
(EL
.m)
Gro
undw
ater
leve
lG
roun
dwat
er le
vel
Gro
undw
ater
leve
lG
roun
dwat
er le
vel
ObsSim.
![Page 43: Integrated Modeling of Surface Water and …...1 Integrated Modeling of Surface Water and Groundwate r by Using Combined SWAT-MODFLOW N. W. Kim*, I. M. Chung*, Y. S. Won**, J. Lee*,](https://reader031.fdocuments.net/reader031/viewer/2022011901/5f081b167e708231d4205d8a/html5/thumbnails/43.jpg)
43
• Verification of groundwater level
GROUNDWATER SIMULATIONGROUNDWATER SIMULATION
33.033.033.033.0
33.533.533.533.5
34.034.034.034.0
34.534.534.534.5
35.035.035.035.0
35.535.535.535.5
36.036.036.036.0
36.536.536.536.5
37.037.037.037.0
2003/ 012003/ 012003/ 012003/ 01 2003/ 042003/ 042003/ 042003/ 04 2003/ 072003/ 072003/ 072003/ 07 2003/ 102003/ 102003/ 102003/ 10
Time (day)Time (day)Time (day)Time (day)
(EL
.m)
(EL
.m)
(EL
.m)
(EL
.m)
ObsSim.
![Page 44: Integrated Modeling of Surface Water and …...1 Integrated Modeling of Surface Water and Groundwate r by Using Combined SWAT-MODFLOW N. W. Kim*, I. M. Chung*, Y. S. Won**, J. Lee*,](https://reader031.fdocuments.net/reader031/viewer/2022011901/5f081b167e708231d4205d8a/html5/thumbnails/44.jpg)
44
RECHARGE DISTRIBUTIONRECHARGE DISTRIBUTION
� Distributed recharge (mm)
Recharge(AugRecharge(AugRecharge(AugRecharge(Aug. 2002). 2002). 2002). 2002) Recharge(SepRecharge(SepRecharge(SepRecharge(Sep. 2002). 2002). 2002). 2002)
![Page 45: Integrated Modeling of Surface Water and …...1 Integrated Modeling of Surface Water and Groundwate r by Using Combined SWAT-MODFLOW N. W. Kim*, I. M. Chung*, Y. S. Won**, J. Lee*,](https://reader031.fdocuments.net/reader031/viewer/2022011901/5f081b167e708231d4205d8a/html5/thumbnails/45.jpg)
45
RECHARGE DISTRIBUTIONRECHARGE DISTRIBUTION
� Distributed recharge (mm)
Recharge(OctRecharge(OctRecharge(OctRecharge(Oct. 2002). 2002). 2002). 2002) Recharge(NovRecharge(NovRecharge(NovRecharge(Nov. 2002). 2002). 2002). 2002)
![Page 46: Integrated Modeling of Surface Water and …...1 Integrated Modeling of Surface Water and Groundwate r by Using Combined SWAT-MODFLOW N. W. Kim*, I. M. Chung*, Y. S. Won**, J. Lee*,](https://reader031.fdocuments.net/reader031/viewer/2022011901/5f081b167e708231d4205d8a/html5/thumbnails/46.jpg)
46
� Distribution of wells (N=2,176)
EFFECTS OF WELL PUMPINGEFFECTS OF WELL PUMPING
![Page 47: Integrated Modeling of Surface Water and …...1 Integrated Modeling of Surface Water and Groundwate r by Using Combined SWAT-MODFLOW N. W. Kim*, I. M. Chung*, Y. S. Won**, J. Lee*,](https://reader031.fdocuments.net/reader031/viewer/2022011901/5f081b167e708231d4205d8a/html5/thumbnails/47.jpg)
47
� Distributed drawdown by pumping (Unit: m)
EFFECTS OF WELL PUMPINGEFFECTS OF WELL PUMPING
![Page 48: Integrated Modeling of Surface Water and …...1 Integrated Modeling of Surface Water and Groundwate r by Using Combined SWAT-MODFLOW N. W. Kim*, I. M. Chung*, Y. S. Won**, J. Lee*,](https://reader031.fdocuments.net/reader031/viewer/2022011901/5f081b167e708231d4205d8a/html5/thumbnails/48.jpg)
48
� Stream flow variation due to pumping
BeforeBeforeBeforeBefore
AfterAfterAfterAfter
Stre
am fl
owEFFECTS OF WELL PUMPINGEFFECTS OF WELL PUMPING
![Page 49: Integrated Modeling of Surface Water and …...1 Integrated Modeling of Surface Water and Groundwate r by Using Combined SWAT-MODFLOW N. W. Kim*, I. M. Chung*, Y. S. Won**, J. Lee*,](https://reader031.fdocuments.net/reader031/viewer/2022011901/5f081b167e708231d4205d8a/html5/thumbnails/49.jpg)
49
� Flow pattern variation by pumping
0.1
1
10
100
1000
0 20 40 60 80 100
Exceedance Probability (%)
Dis
char
ge (
cms)
BeforeBeforeBeforeBeforeAfterAfterAfterAfter
EFFECTS OF WELL PUMPINGEFFECTS OF WELL PUMPING
![Page 50: Integrated Modeling of Surface Water and …...1 Integrated Modeling of Surface Water and Groundwate r by Using Combined SWAT-MODFLOW N. W. Kim*, I. M. Chung*, Y. S. Won**, J. Lee*,](https://reader031.fdocuments.net/reader031/viewer/2022011901/5f081b167e708231d4205d8a/html5/thumbnails/50.jpg)
50
CONCLUSIONCONCLUSION
� Potential application of combined SWAT-MODFLOW model in simulating groundwater recharge and level is demonstrated
� The combined models are also capable of reflecting river-aquifer exchange rate properly
� The reliability of groundwater discharge and total runoff of watershed is enhanced
� Application to planning of groundwater development / underground dam operation / river intake etc.
� For larger watershed, application of SWAT-MODFLOW is limited due to the limitation of MODFLOW
![Page 51: Integrated Modeling of Surface Water and …...1 Integrated Modeling of Surface Water and Groundwate r by Using Combined SWAT-MODFLOW N. W. Kim*, I. M. Chung*, Y. S. Won**, J. Lee*,](https://reader031.fdocuments.net/reader031/viewer/2022011901/5f081b167e708231d4205d8a/html5/thumbnails/51.jpg)
51
11111111stststststststst SWATSWATSWATSWATSWATSWATSWATSWAT--------KOREA ConferenceKOREA ConferenceKOREA ConferenceKOREA ConferenceKOREA ConferenceKOREA ConferenceKOREA ConferenceKOREA Conference
7 Nov. 2006 / Venue : Main hall of KICT, Ilsan
Proceeding Program
![Page 52: Integrated Modeling of Surface Water and …...1 Integrated Modeling of Surface Water and Groundwate r by Using Combined SWAT-MODFLOW N. W. Kim*, I. M. Chung*, Y. S. Won**, J. Lee*,](https://reader031.fdocuments.net/reader031/viewer/2022011901/5f081b167e708231d4205d8a/html5/thumbnails/52.jpg)
52
1st SWAT1st SWAT1st SWAT1st SWAT1st SWAT1st SWAT1st SWAT1st SWAT--------KOREA ConferenceKOREA ConferenceKOREA ConferenceKOREA ConferenceKOREA ConferenceKOREA ConferenceKOREA ConferenceKOREA Conference
Staffs/Presenters
![Page 53: Integrated Modeling of Surface Water and …...1 Integrated Modeling of Surface Water and Groundwate r by Using Combined SWAT-MODFLOW N. W. Kim*, I. M. Chung*, Y. S. Won**, J. Lee*,](https://reader031.fdocuments.net/reader031/viewer/2022011901/5f081b167e708231d4205d8a/html5/thumbnails/53.jpg)
53
1st SWAT1st SWAT1st SWAT1st SWAT1st SWAT1st SWAT1st SWAT1st SWAT--------KOREA ConferenceKOREA ConferenceKOREA ConferenceKOREA ConferenceKOREA ConferenceKOREA ConferenceKOREA ConferenceKOREA Conference
Participants
![Page 54: Integrated Modeling of Surface Water and …...1 Integrated Modeling of Surface Water and Groundwate r by Using Combined SWAT-MODFLOW N. W. Kim*, I. M. Chung*, Y. S. Won**, J. Lee*,](https://reader031.fdocuments.net/reader031/viewer/2022011901/5f081b167e708231d4205d8a/html5/thumbnails/54.jpg)
54
INTERNATIONAL ACTIVITIESINTERNATIONAL ACTIVITIES
![Page 55: Integrated Modeling of Surface Water and …...1 Integrated Modeling of Surface Water and Groundwate r by Using Combined SWAT-MODFLOW N. W. Kim*, I. M. Chung*, Y. S. Won**, J. Lee*,](https://reader031.fdocuments.net/reader031/viewer/2022011901/5f081b167e708231d4205d8a/html5/thumbnails/55.jpg)
55
Thank you
The authors express thanks for a grant (code: 2-2-2) from the Sustainable Water Resources Research Center of
the 21st Century Frontier Research Program.