flood purge and swh at lincoln squares project · peak flow analysis storm / flow type existing 2ml...
TRANSCRIPT
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Bringing engineering to life
Flood purge and SWH at Lincoln Squares Project
Development of purging protocols
October 2018
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Presentation Outline
1. Introduction
2. Project objectives
3. Upstream catchment
4. System configuration
5. Performance results from previous studies
6. Development of purging protocols
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Project Objectives
• Flood Mitigation
• Peak flow reduction for frequent events
• Determine impact on flooding contributing to
Elizabeth St for the 20 Year ARI event
• Stormwater Harvesting
• Irrigation of Lincoln, Argyle and University Squares
• Water balance optimisation to size storages and
pumps to maintain reliability of irrigation supply
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Upstream Catchment
• Area to the north
~37ha
• Includes portion of the
University of
Melbourne and the
tram line on Swanston
St
• Meets at the 750mm
pipe adjacent Lincoln
Square (to the west)
Lincoln Square
University Square
Argyle Square
University of Melbourne
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Lincoln Square Header Tank
University Sq Header Tank
Argyle Sq Header Tank
Transfer Lines
Project Layout
Lincoln Square Deep Sump-To access the SW pipe to the west- pumps up to the irrigation tanks
Plant RoomTreatment of water prior to delivering to header tanks
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System Configuration Overview
Need some “smarts” to
improve flood mitigation
performance
Overflows continue to
stormwater drain
Main
Tank
Lincoln
Square
Tank
P
P
Northern Catchment
Flows
Argyle Square
Tank
University
Square TankP
P
P
P
Proposed Pump
Proposed
Irrigation Pump
GPT
Filtration
UV
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Main Tank
Applying the smarts
P
P
A
Proposed Pump
Actuator
Ex 750 ø
Main TankGPT
New JP 1,200 ø 1,200 ø GPT
Pre-emptive outlet
Ex 750 ø
Main Tank
A
Actuated Valve
To header
tanks for
irrigation
Irrigation systems
Or
Drainage system
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Period Irrigation Area (m2)
Irrigation Demand
(Midway Efficient Use –
ML pa)
Expanded Lincoln Square 12,897 6.97
Expanded University Square 13,500 7.25
Expanded Argyle Square 9,790 5.17
Pelham and Bouverie Street Trees 2,304 1.20
Total 38,491 20.6
Council’s irrigation demands
The irrigation calibration produced a demand of 20.6 ML
for a mean year, showing consistency with the data
provided by Council.
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Rainfall vs Yield
10
12
14
16
18
20
22
24
350 400 450 500 550 600 650 700
Sto
rmw
ate
r H
arv
est
ed
(M
L)
Annual Rainfall (mm)
Low rainfall, high harvest (Year 5)
Average rainfall, low harvest (Year 6)
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Main Tank Size Comparison – Optimal Operation
Dry Mean
1 ML 54% 75%
2 ML 60% 80%
3 ML 61% 85%
13.1 ML
15.5 ML
14.6 ML
16.6 ML
14.7 ML
17.6 ML
0%
10%
20%
30%
40%
50%
60%
70%
80%
90%
Reli
ab
ilit
y (
%)
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Main Tank Size Comparison – Sub Optimal Operation
Dry Mean
1 ML 40% 60%
2 ML 40% 64%
3 ML 40% 68%
9.7 ML
12.5 ML
9.7 ML
13.2 ML
9.7 ML
14.0 ML
0%
10%
20%
30%
40%
50%
60%
70%
80%
Reli
ab
ilit
y (
%)
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Peak Flow Analysis
Storm / flow type Existing 2ML Tank % Reduction 3ML Tank % Reduction
5 Year,
20Min
Pipe 1.55 1.51 2.6% 1.48 4.5%
Overland 1.83 0.362 80.2% 0.359 80.4%
TOTAL 3.38 1.872 44.6% 1.839 45.6%
20 Year,
20Min
Pipe 1.76 1.66 5.7% 1.63 7.4%
Overland 3.51 1.88 46.4% 1.87 46.7%
TOTAL 5.27 3.54 32.8% 3.5 33.6%
50 Year,
20Min
Pipe 1.77 1.75 1.1% 1.72 2.8%
Overland 4.88 3.31 32.2% 3.3 32.4%
TOTAL 6.65 5.06 23.9% 5.02 24.5%
• Marginal (to no) benefit to increasing the tank size to
3ML
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Purging Analysis
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Purging Assessment Outline
1. Scope
2. Philosophy and Approach
3. Method
4. Protocol Development
5. Graphical Outputs
6. Key Storms
7. Sensitivity Analysis
8. Summary
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1. Scope
Objective is to maximise Flood Mitigation without
significantly compromising Stormwater Harvesting
yield
✓ Flood Mitigation
• Reduction of Overland Flow (to Elizabeth St)
• Reduction of bypass discharge
✓ Stormwater Harvesting
• Irrigation of Lincoln, Argyle and University Squares
• Water balance optimisation to maximize Tank
Water Level after each storm
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2. Philosophy and Approach
Develop Purge protocols to address:
• Before Storm
✓ Purge Water to make Required Pre-Rain Air Space using
Predicted Rainfall
• During Storm
✓ To maintain detention
✓ To ensure tank is close to full post rain event
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3. Method
Key Variables:
• Before Storm
✓ Pre-Rains Air space: based on Predicted rainfall
✓ BOM 3-hour Rainfall Predictions
• During Storm
✓ Pre-peak Air Space
✓ Post-Peak Air Space
✓ Rainfall threshold for valve close
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3. Method
Key Performance Indicators:
• Flood Mitigation Objective
✓ Overland Flow Reduction
✓ Percentage reduction in downstream overland flow
• Stormwater Harvesting Objective
✓ After Rain Tank Water Level
✓ Tank percentage full at the end of the storm
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3. Method
Pre-Rain Flowchart
Predicted
Rainfall
Calculate Pre-
Rain Air Space
Pre-Rain
Coefficient
Purge Water to
reach Pre-rain
Air Space
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3. Method
Pre-Peak Flowchart
6 min Rainfall-
Onsite
Pluviograph
Calculate Rolling
30-min Runoff
and Rainfall
Does the
tank have
enough Air
Space?
Estimate Pre-
Peak Air Space
Pre-Peak
Coefficient
Close the Valve
Is it after
peak of the
rainfall?
Is 30-min
rolling Rainfall
more than the
threshold?
Rainfall
threshold for
valve close
Open the
Valve
Next 6 min
Tank Water
Level
NO
YES
NO
YES
NO
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3. Method
Post-Peak Flowchart
6 min Rainfall-
Onsite
Pluviograph
Calculate Rolling
30-min Runoff
and Rainfall
Does the
tank have
enough Air
Space?
Estimate Post-
Peak Air Space
Post-Peak
Coefficient
Close the Valve
Is it after
peak of the
rainfall?
Is 30-min
rolling Rainfall
more than the
threshold?
Rainfall
threshold for
valve close
Open the
Valve
Next 6 min
Tank Water
Level
YES
YES
NO
YES
NO
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3. Method
Selection of 50 storms
• Melbourne Regional Office Station # 086071
1. 6-min Rainfall data between 1873-2010
2. Maximum Daily Rainfall; 16 Storms
3. Maximum Hourly Rainfall; 10 Storms
4. Maximum 6-min Rainfall; 18 Storms
5. Design Storms; 6 Storms
1in 20 years: 30 min, 60 min and 90 min
1 in 50 Years, 30 min, 60 min, 90 min
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• Method
Selection of 50 storms
1in 20 Years, 30 min: 26.32 mm
1in 20 Years, 60 min: 34.42 mm
1in 20 Years, 90 min: 39.51 mm
1in 50 Years, 30 min: 32.57 mm
1in 50 Years, 60 min: 42.33 mm
1in 50 Years, 90 min: 48.47 mm
0
20
40
60
80
100
120
140
160
0 5 10 15 20 25 30 35 40 45 50
To
tal R
ain
fall (
mm
)
Series #
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3. Method
Water Quantity Model:
• DRAINS
✓ ILSAX hydrologic model
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3. Method
Water Balance Model
• Excel Spreadsheet based calculations
• Calculation time steps:
5 min for Design Storms and 6 min for the others
➢ 𝑷𝒓𝒆 𝑹𝒂𝒊𝒏 𝐴𝑖𝑟 𝑆𝑝𝑎𝑐𝑒 = 𝑃𝑟𝑒 − 𝑅𝑎𝑖𝑛 𝐶𝑜𝑒𝑓𝑓𝑖𝑐𝑖𝑒𝑛𝑡 ×𝑅𝑢𝑛𝑜𝑓𝑓 𝐶𝑎𝑙𝑐𝑢𝑙𝑎𝑡𝑒𝑑 𝑏𝑎𝑠𝑒𝑑 𝑜𝑛 𝑃𝑟𝑒𝑑𝑖𝑐𝑡𝑒𝑑 𝑅𝑎𝑖𝑛𝑓𝑎𝑙𝑙 𝐷𝑒𝑝𝑡ℎ
➢ 𝑷𝒓𝒆 𝑷𝒆𝒂𝒌 𝐴𝑖𝑟 𝑆𝑝𝑎𝑐𝑒 = 𝑃𝑟𝑒 − 𝑃𝑒𝑎𝑘 𝐶𝑜𝑒𝑓𝑓𝑖𝑐𝑖𝑒𝑛𝑡 ×𝑅𝑜𝑙𝑙𝑖𝑛𝑔 30min𝑅𝑢𝑛𝑜𝑓𝑓
➢ 𝑷𝒐𝒔𝒕 𝑷𝒆𝒂𝒌 𝐴𝑖𝑟 𝑆𝑝𝑎𝑐𝑒 = 𝑃𝑜𝑠𝑡 − 𝑃𝑒𝑎𝑘 𝐶𝑜𝑒𝑓𝑓𝑖𝑐𝑖𝑒𝑛𝑡 ×𝑅𝑜𝑙𝑙𝑖𝑛𝑔 30min𝑅𝑢𝑛𝑜𝑓𝑓
➢ 𝑆𝑡𝑜𝑟𝑎𝑔𝑒 𝑉𝑜𝑙𝑢𝑚𝑒 = 𝐼𝑛𝑖𝑡𝑖𝑎𝑙 𝑆𝑡𝑜𝑟𝑎𝑔𝑒 + 𝑂𝑓𝑓𝑡𝑎𝑘𝑒 − 𝑇𝑎𝑛𝑘 𝑂𝑢𝑡𝑓𝑙𝑜𝑤
➢ 𝐷𝑆 𝑂𝑣𝑒𝑟𝑙𝑎𝑛𝑑 𝐹𝑙𝑜𝑤 = 𝑈𝑆 𝐹𝑙𝑜𝑤 − 𝑂𝑓𝑓𝑡𝑎𝑘𝑒 − 𝐵𝑦𝑝𝑎𝑠𝑠
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3. Method
Water Balance Model
• Rolling 30min Runoff calculation
y = 119.61x + 1350
R² = 0.8199
0
1000
2000
3000
4000
5000
6000
7000
8000
9000
0 10 20 30 40 50 60
To
tal R
un
off
(K
L)
Rainfall depth (mm)
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4. Protocol Development
Phase 1:
Pre-Rain Coefficient: 10%,20%,…,100%
Pre-Peak Coefficient: 25%,50%,…,100%
Post- Peak Coefficient: 25%,50%,…,100%
No Rainfall Threshold for Valve Close
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4. Protocol Development
Phase 2:
Pre-Rain Coefficient: 30%,40%,50%
Pre-Peak Coefficient: 25%,50%,75%
Post- Peak Coefficient: 25%,50%,75%
No Rainfall Threshold for Valve Close
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4. Protocol Development
Storm #49
Rainfall SummaryTotal rainfall (mm) 24.44Duration (min) 180
Maximum Intensity (mm/hr) 84.9
Maximum Intensity (mm/6 min) 8.49
Estimated recurrance interval (1 in yr) 65
ProtocolsPre- Rain Coefficient 50%
Pre-peak Coefficient 75%
Post-peak coefficient 25%
Rainfall threshold for valve close (mm/ 30 min) 10
After adding Rainfall Threshold for Valve
Close (10 mm)
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4. Protocol Development
Phase 3:
Pre-Rain Coefficient: 50%
Pre-Peak Coefficient: 75%
Post- Peak Coefficient: 25%
Rainfall Threshold for Valve Close:
10 (mm/30min)
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5. Graphical Outputs
✓ Demonstration “Presentation Sheet”
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6. Key Storms
✓ Demonstration
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7. Sensitivity Analysis
Predicted rainfall is 50% less than the
Actual one. (-50% Error)
Not Sensitive
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7. Sensitivity Analysis
Predicted rainfall is 50% more than the
Actual one. (+50% Error)
Not sensitive
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Summary
✓ Protocols are developed for dual function of
flood mitigation and stormwater harvesting.
✓ Pre-rain Air space is introduced based on the
predicted rainfall – threshold is approximately
15mm with optimally 50% airspace coefficient.
✓ Pre peak airspace coefficient is optimally 75%
✓ Post peak airspace coefficient is optimally 25%
✓ Rainfall depth threshold for valve close in 30 min
rolling period is 10mm.
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Summary
✓ The performance (final tank volume and
reduction in overland flow) is more effective in
storms with less than 50mm rainfall.
✓ Performance is not sensitive to up 50% error in
rainfall prediction.
✓Overland flow upstream generally occurs in
events with intensity higher than 8 mm/6min (80
mm/hr).
✓Cannot rely solely on design storms for
complex analsyis
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