Green Infrastructure Modeling in Cincinnati Ohio€¦ · Green Infrastructure Modeling Techniques...
Transcript of Green Infrastructure Modeling in Cincinnati Ohio€¦ · Green Infrastructure Modeling Techniques...
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Green Infrastructure Modeling in Cincinnati Ohio
Small Scale Green Infrastructure Design Using Computer Modeling
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23 September 2014
Presenters
Jason Abbott is a Design Engineer with over 17 years of experience. Jason is a professional engineer with a BS from Ohio State University.
Leah Buerman is a water resources engineer with over 5 years of experience. Leah is a professional engineer with a BS and an M.Eng from Cornell University.
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23 September 2014
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23 September 2014
Mill Creek & West Fork Branch Watersheds
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23 September 2014
West Fork Branch Watershed Characteristics
• 6,000 Acre Watershed• 1,500 Acres Mt. Airy
Forest• 15 CSOs• 12,800 LF of Natural
Channel• 12,000 LF of
Rectangular Concrete Channel• Hydraulically
Connected Through 18 Grated Inlets
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23 September 2014
West Fork Branch Sustainable Watershed Project Alternative Analysis Report
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23 September 2014
Enabled Impact Projects
“Since 2009, MSD has partnered with public and private entities across Hamilton County to demonstrate the use of effectiveness of various stormwater controls.
This program – known as the Enabled Impact Program –enables MSD to fund or help fund stormwater controls on partner sites”
- MSD Project Groundwork
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23 September 2014
TerminologyRain Garden - (also known as bioretention or bioinfiltration cells) shallow, vegetated basins that collect and absorb runoff from rooftops, sidewalks, and streets. Rain gardens mimic natural hydrology by infiltrating and evapotranspiring runoff. Rain gardens are versatile features that can be installed in almost any unpaved space. Bioswale - vegetated, mulched, or xeriscaped channels that provide treatment and retention as they move stormwater from one place to another. Vegetated swales slow, infiltrate, and filter stormwater flows. As linear features, vegetated swales are particularly suitable
along streets and parking lots. Source: EPA http://water.epa.gov/infrastructure/greeninfrastructure/gi_what.cfm
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23 September 2014
Green (Enabled) Project Opportunity
Grants• OEPA - SWIF • OEMA• OEPA – Clean OH Partners• Cincinnati Parks Board• Ground Work Cincinnati
- Mill Creek• Northside
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23 September 2014
Partnering & Grants – Mt. Airy Wetland Redevelopment
OEPA - Surface Water Improvement Fund (SWIF) Grants Program
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23 September 2014
Partnering & Grants – Flood Plain Enhancement
Ohio Emergency Management Agency: Pre-Disaster Mitigation Grant
Clean Ohio Fund: Clean Ohio Green Space Conservation Grant
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23 September 2014
Six Enabled Impact Projects Evaluated in the West Fork Branch Sewershed
GOAL: Implement green infrastructure within the community to reduce stormwater runoff and consequently CSO volume at the downstream CSO’s
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Computer Modeling of Enabled Impact ProjectsGOAL: Evaluate the potential reduction in stormwater runoff volume achieved through the implementation of each green infrastructure project. Identify the placement of the most effective and cost efficient green infrastructure within the community• Software: PCSWMM - EPA SWMM 5 (Storm
Water Management Model Version 5) Engine• Rainfall: Typical Year Rainfall - a modified
version of the 1970 rainfall for Cincinnati, Ohio
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Green Infrastructure Modeling Techniques
• Rain Gardens modeled as storage nodes. Void space of the rain garden subbase was included in the total volume of the storage node.
• Bioswale modeled as a trapezoidal channel
• Conservatively minimal infiltration was included in the model at the green infrastructure locations.
Suction Head, in
Hydraulic Soil conductivity (in/hr)
10 0.5 LB1
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Slide 14
LB1 ten in of suction head is conservative assumes siilty clay / clay soils. 0.5in Hydraulic soil conductivity is also for clay soilsSuggest that Field testing is preferred to determine soil characteristicsLeah Buerman, 8/22/2014
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Mt. Airy Wetland Redevelopment
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Area 2 – Mt. Airy Wetland RedevelopmentProposed installation of three rain gardens in series located downstream of the Mt. Airy Forest (tributary to CSO 127). Drainage area is currently directly connected to the combined sewer system.Attributes• Drainage Area = 132.5 ac• Proposed Rain Garden Modeled Surface Area = 30,594 sf• Proposed Rain Garden Depth varies from 1.5ft to 4ft• Proposed Rain Garden Total Volume = 53,700 cf• Proposed Rain Garden Storage Volume = 4,269 cf
The volume assumes that only the first 0.5ft of the rain gardens are used for storage.
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23 September 2014
Floodplain Enhancement
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23 September 2014
Area 4 – Floodplain EnhancementProposed installation of a bioswale and a rain garden in series located near West Fork Road (tributary to CSO 127)Attributes• Drainage Area = 1.3 ac• Proposed Rain Garden Modeled Surface Area = 6,721 sf• Proposed Rain Garden Modeled Depth = 1.5ft• Proposed Rain Garden Total Volume = 10,082 cf• Proposed Rain Garden Storage Volume = 3,361cf
The volume assumes that only the first 0.5ft of the rain gardens are used for storage.
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23 September 2014
Modeling ResultsGreenInfrastructure Location
Description Total Annual Runoff Volume, MGExisting Proposed Volume
Reduction
Area 2 Mt. Airy Wetland Redevelopment
22.43 18.5 3.94
Area 4 Floodplain Enhancement
0.51 0.01 0.5
Total: 3.99
Computer modeling can provide the necessary information to help identify the placement of effective and cost efficient green infrastructure within the community. Runoff reduction potential along with installation cost, education benefits, aesthetic improvements, etc. are used to determine GI placement and design.
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23 September 2014
Questions