analysis of runoff reduction and hydrologic cycle ... · pdf file1 / 25 maine stormwater...
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Maine Stormwater Conference (Portland, ME, 2015)
Analysis of Runoff Reduction and Hydrologic Cycle Utilizing LID Concepts
Park Jongpyo, Lee Kyoungdo: HECOREA. INC
Shin Hyunsuk: Busan National University
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Plan Space layout Plan of Planter boxes
ModelingSoftware
SWMM
Results analysis
Stormwater ReductionHydrologic cycle change
1. Objectives of the research
• LID techniques applied two different method in Eco-Delta city.
• The Method clayout with planter boxes (LID facilities)
1. To uniformly distributed planter boxes
2. To distributed planter boxes in a nearby drainage outlet area
• SWMM modeling and performance analysis
Planning drawing of Eco-delta City
in Busan, Korea
Study area
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2. Eco-Delta City
Introduce to Eco-Delta City
• Eco-Delta City is an Eco-Friendly waterfront city developed by K-water
and Busan Metropolitan city
• Developing area: 11.9km2 (3,000 ac), Construction period: 2012-2018
•∙LID techniques will be applied to the entire area.
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Weather Data: Busan weather station
Month
Temp(℃)Rainfall
(㎜)
Wind
speed
(㎧)
Evapora
tion
(mm)High Low mean
1월 17.6 -11.5 3.0 33.4 3.9 65.0
2월 20.3 -12.6 4.7 49.0 3.9 69.5
3월 22.9 -9.7 9.5 81.3 4.1 91.0
4월 29.1 0.1 13.5 143.4 4.2 109.9
5월 34.0 7.3 17.5 161.2 3.7 122.6
6월 30.1 10.8 20.7 209.5 3.4 111.9
7월 35.8 14.5 24.2 299.8 3.8 117.0
8월 36.7 16.8 25.9 229.7 3.9 131.0
9월 35.2 10.6 22.3 159.0 3.6 104.9
10월 29.1 1.8 17.6 67.4 3.3 99.3
11월 25.6 -0.9 11.5 53.1 3.5 75.9
12월 20.4 -11.5 5.5 29.7 3.7 69.1
전년 36.7 -12.6 14.6 1511.7 3.8 1164.1
3. Weather and Geographic Information
Change of the number of years for rainfall
Monthly rainfall
Annual Rainfall: 1,511mm(60in)
Summer season: 898mm (35in)
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3. Weather and Geographic Information
Present land-use & developing land-use plan
Present land-Use
• Farmland area: 77%, River: 3.5%
•:Hydrologic soil group D type: over 80%
After development
• Housing area: 22%, Industrial area: 28%
• Green open space: 17%
1st Stage
Develoment
The land-use maps are represented by pre-development and development land-use
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Height & Slope analysis
DEM(Digital Elevation model)
• Height difference between river and land:
Below 1m:(3.28ft) (low-lying ground)
Slope
• Plain area of the Nakdong Delta:
Gentle slope topography (Below 5%)
3. Weather and Geographic Information
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The Study Area(Zone 2) of Eco-Delta City (1st stage: ZONE 2, G basin)
The study on Effect analysis: Runoff reduction and Water Cycle Improvement
1st : The LID facility plan uniformly distributed planter boxes
2nd: The LID facility plan distributed planter boxes in a nearby drainage outlet area
Zone 2: Total Area Study area: G Basin
770,966 m2 (190 ac) 265,010 m2 (65 ac)
Zone 2
Zone 1
4. LID plan (1st stage: zone 2, This study application)
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Key Map
• Modeling scenario: 1st CASE
The LID facility plan uniformly distributed planter box
Study area: G Basin A Planter Boxes: catchment area
265,010 m2 (65 ac) 28,650 m2 (7 ac)
Out
4. LID plan and modeling scenario
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Key Map
• Modeling scenario: 2nd CASE:
The LID facility plan distributed planter box in a
nearby drainage outlet area
Study area: G Basin A Planter Boxes: Catchment area
265,010 m2 (190 ac) 28,650 m2 (7 ac)
Out
4. LID plan and modeling scenario
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Target rainfall 1: Design rainfall
Duration 5yr 10yr 30yr
Rainfall (mm) 66.5 (2.6”) 77.9 (3.1”) 94.9 (3.7”)
4. LID plan and modeling scenario
IDF Curve
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Target rainfall 2: One hour rainfall and monthly evaporation (2003-2014, 11years)
Annual total Rainfall Annual total evaporation
1,472 mm (57.9”) 1,100 mm (43.3”)
4. LID plan and modeling scenario
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Summary of Modeling Scenario
Long-TermMeteorological
Data
Design Rainfall
CASE 1
CASE 2
Flood ReductionAssessment
Hydrological cycle changeAssessment
4. LID plan and modeling scenario
•1st CASE: The LID facility plan uniformly distributed planter box
•2nd CASE: The LID facility plan distributed planter box in a nearby drainage outlet area
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5. Simulation Results : Runoff Reduction
Flood Reduction: Return period 5year
Div. Peak flow (m3/s) Flow Volume (m3)
Non-LID 6.68 (236 ft3/s) 15,530 (20,312 yd3)
CASE 1 6.13 (216 ft3/s) (▼ 8.1%) 14,260 (18,651 yd3) (▼ 8.2%)
CASE 2 5.99 (211 ft3/s) (▼ 10.0%) 14,380 (18,808 yd3) (▼ 7.4%)
Flood Reduction: Return period 10year
Div. Peak flow (m3/s) Flow Volume
Non-LID 8.15 (288 ft3/s) 18,440 (24,119 yd3)
CASE 1 7.52 (266 ft3/s) (▼ 7.7%) 17,030 (22,274 yd3) (▼ 7.6%)
CASE 2 7.37 (260 ft3/s) (▼ 9.6%) 17,146 (22,426 yd3) (▼ 7.0%)
• SWMM‐LID simulation results on Runoff reduction shows that uniformly distributed planter boxes can
reduce peak discharge runoff by 8.1, 7.7% compared to a non‐LID application each 5year and 10year
storms.
• The peak discharge reduction rate when a planter box case was installed to the nearby drainage outlet
was 10.0%, 9.6%. respectively
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5. Simulation Results : Runoff Reduction
구분 Peak flow (m3/s) Flow Volume
Non-LID 10.38 (367 ft3/s) 22,853 (29,891 yd3)
CASE 1 9.66 (341 ft3/s) (▼ 6.9%) 21,274 (27,825 yd3) (▼ 6.9%)
CASE 2 9.52 (336 ft3/s) (▼ 8.3%) 21,390 (29,133 yd3) (▼ 6.4%)
Flood Reduction: Return period 30year
0.00
5.00
10.00
15.00
0 10 20 30 40 50 60 70 80 90 100 110 120 130 140
Runoff
(cm
s)
Time(min)
Non-LID CASE 1 CASE 2
In 30year return period storm,Uniformly distributed LID facilities case can reduce peak discharge runoff by 6.9% the LID facility plan distributed a planter boxes in a nearby drainage outlet area can reduce peak discharge runoff by 8.3%
The nearby drainage outlet case is better than the uniformly distributed case in termsof peak discharge reduction
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Results of Infiltration & Runoff depth: 11year long-term simulation
구분 Infiltration depth(mm) Runoff depth(mm)
Non-LID 70.7 (2.7 in) 1234.3 (48.6 in)
CASE 1 133.9 (5.3 in) (▲ 89%) 1169.0 (46.0 in) (▼ 5.3%)
CASE 2 119.4 (4.7 in) (▲ 69%) 1183.7 (46.6 in) (▼ 4.1%)
6. The hydrologic cycle effect of LID
• The Results of the infiltration rate have increased according to LID facility installation.
• The uniformly distributed planter box case improved the infiltration rate by 89%• The installed planter box case to a nearby drainage outlet improved it by 69%. • Runoff depth reduction rate of a uniformly distributed planter boxes area more than 20% the installation of a planter box in a nearby drainage outlet
0
50
100
150
Non-LID CASE-1 CASE-2
Infiltration Depth…
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7. Conclusion
As a result of the research, the uniformly distributed LID plan has an advantage on hydrologic cycle improvement. However, the nearby drainage outlet case is better than the uniformly distributed case in terms of peak discharge reduction.
Long-TermMeteological
Data
Design StromFlood Reduction
Assessment
Hydrological cycle changeAssessment
BEST
Uniformly distributed
LID plan
Nearby drainage outlet
LID plan
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And today…
INTRO: K-LIDM software
Based on WWHM and SWMM
Developed by
Pusan National University / Korea GI&LID research Group
HECOREA / CCS(Clear Cleek Solutions)
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K-LIDM Concepts
Input Data LID modeling Component Units
LID Facility- Detention(Retention) Basin, Constructed Wetlands,
Porous Pavement, Infiltration Trench, Bioretention,Green roofs, Infiltration Vegetated Filter Strip, Vegetated Swale,
Tree Box filter, Rainwater Harvesting Etc.
• Facility Dimensions- Length, Width, Height, Effective Total Depth,
Bottom slope, Freeboard, Vegetative Cover
Infiltration
- Thickness, porosity, Infiltration rate- Soil type of Soil layer
• Outlet structure- Type, Diameter, Height, Etc
Parameter of Pollutant Removal
Output
Surface runoff and Precipitation
applied to LID facility
Soil Layer (or Storage)
Interflow / Groundwater
Infiltration
Percolation
Rainfall - Long-term simulation: Day(day)-Rain(mm)
and Evaporation data : Averaged a Month - Text or Excel Sheets Type
monthly a day mean: Evaporation data (daily)
Drainage basin Input: HSPF input file form- Area (impervious, pervious), Land Use, Slope,Infiltaition & simulation parameter
Channel & Pipe data (hydraulic Routing)- Bottom width, Length, Manning n,
Slope of Channel, Left(Right) Side Slope, Depth
Reservoir (Reservoir Routing)- Reservoir Facility Dimension(Area, Depth, Slope)- Outlet structure
• Water Quality parameter
Database development
Input Data Summary
Produce Report Summary Report
GUI : Graph, Table
Flow- Duration, Frequency
Hydrographs
Groundwater Recharge volumes Clogging Calculation results Water Quality
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K-LIDM UI
• We have developed global applicable software for LID effects modeling
• US, SI units / English, Korean language / SWMM linkage function
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Main function of K-LIDM
Scenario Comp. Hydro LID Control
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LID component (ex. Bioretention)
■ LID ComponentBioretention Example)
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Application Example - #1
Basin: 3Hectares Roads/Flat100*100*5m Bioretention design
Busan weather station10-year, 1-hour rainfall data apply
Monthly peak discharge Results
100 m = 328 ft, 5m = 16 ft
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Application Example - #2
Basin: 5 Hectares Roads/ Steep100*100*4m Sand filter61*61*2m Reservoir
Busan weather station10-year, 1-hour rainfall data apply
Display Results:
2014. 5.1 – 2014.9.30
100 m = 328 ft, 61 m=200 ft, 4 m=13 ft, 2 m= 6.6ft
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