The Benefits and Challenges Associated with Green Infrastructure Practices

The Benefits and Challenges Associated with Green Infrastructure Practices Thomas M. Evans ASLA, LEED AP Regional Green Infrastructure Design Services Director OWEA Technical Conference, June 20, 2013

Agenda Overview of Green Infrastructure Practices Critical GI Practices for Stormwater, Floodplain and CSO Applications Case Studies GI Benefits, Challenges, Lessons Learned Questions

Green Infrastructure Practices Applicable to Stormwater, Floodplain Management, and CSO Control Stormwater Wetlands Stream Restoration Green Streets, Bioinfiltration Demonstration Projects

Green Infrastructure Benefits Functional/Measurable Values - Water Quality Improvement, Sediment and Nutrient trapping, - Flood relief, Floodplain reduction - Runoff Reduction - CSO Reduction - Aquatic and terrestrial habitat restoration/enhancement Intangible Values - Neighborhood Beautification - Increased Real Estate Values - Parks, Open Space, Greenway/Trail linkages - Public Education - Public Health Benefits

Green Infrastructure Challenges - Opportunity Sites, Land Availability - Need more Monitoring data on Cost Effectiveness - Interagency - Interdepartmental Collaboration - Need more Quantification of Intangible Community Benefits - Modeling to Optimize Benefits - Public Education

Green Infrastructure must FIT the Community - Ecological Conditions: Soils, Groundwater, Rainfall Patterns, habitat, - Available Land: Parks, Right of Way, Stream Easements, Public Space, Vacant, Distressed Properties, Land Banks, - Work with Partnerships: Redevelopment, DOTs, Parks, Schools, Community Development Corporations

Stormwater Wetlands for Quantity/Quality Control Wetland Conservation Area, New Albany, Ohio

Stormwater Wetland for Quantity/Quality Control Wetland Conservation Area, New Albany, Ohio Stormwater Wetland Design Elements Forebay for sediment trapping Circuitous Wetland for nutrient uptake and pollutant breakdown

Stormwater Wetland for Quantity/Quality Control Wetland Conservation Area, New Albany, Ohio Serves as a Community Open Space Centerpiece Serves as a School Land Lab Enhances Land Values

Pollutant Removal Capabilities of Stormwater Wetlands Pollutant Removal Rates (%) Total Suspended Solids 75% Total Phosphorous 45% Total Nitrogen 25% Organic Carbon 15% Lead 75% Zinc 50% Bacteria 2 log reduction From: Design of Stormwater Wetlands Metropolitan Washington Council of Gov ts

Benefits: Wetland Conservation Area, New Albany, Ohio - 30 acre wetland park containing 13 acres of wetland replacement - 40% Reduction in Peak stormwater discharges - Stormwater filtration functions optimized thru physical and biological processes. - High visibility, Gateway to amenity to 5000 acre new development - Habitat diversity includes Open water wetlands, forested wetlands - Educational land lab to adjacent Middle/High School complex supports Vocational Ed program serving 16 school districts. - Property values of adjacent properties increased 10-25% - $1M Funding Partnership with ODOT for Wetland Mitigation.

Challenges: Wetland Conservation Area, New Albany, Ohio - Cost of land - Identifying Opportunity Sites - Permitting - Hydrology uncertainty, backup wells, - Vegetation Establishment Uncertainty - Invasive species

Stream Restoration for Flood Relief and Habitat Enhancement Lake County, Ohio Stormwater Management Dept. Kellogg Creek Restoration

Floodplain Restoration in Narrow Stream Easement Stream Restoration for Flood Relief, and Habitat Enhancement Lake County, Ohio Stormwater Management Dept. Kellogg Creek Restoration

Stream Restoration for Flood Relief and Habitat Enhancement Lake County, Ohio Stormwater Management Dept. Kellogg Creek Restoration Before, Channelized Stream After, Floodplain Restoration Lowered flood elevations by 2, Removed Structures from Floodplain

Benefits: Kellogg Creek Restoration, Lake County, Ohio - 2200 Lineal Feet of Stream Restoration - 1-2 Foot Flood Elevation Reduction - Reduced peak discharges by 25% - Removed 5 structures from Floodplain - Only had 20-40 Easement - First Stream restoration in Lake County - Effective Public Outreach resulted in 12 donated stream easements - Colorful native plantings - $ 600,000 Project Cost = Construction + Engineering

Green Streets: Philadelphia/PennDOT I-95/Girard Street $400M I-95 and Urban Arterial Reconstruction along the Delaware River 6 phases of construction Incorporating extensive G I on I-95 and Urban Roadways. One of the Largest G I installations in Philadelphia with Roadway runoff Partnership between PennDOT and Philadelphia Water Department

Green Streets: Philadelphia/PennDOT I-95/Girard St. Phase 1 Phase 1 Relocates 1 mile of Richmond Street and includes 93 stormwater tree vaults, median bioswales, and raingardens. Phila. Water Dept. to maintain this city street. Goal for capture with the stormwater tree vaults is 30% of a 1" storm Phase 1 Awarded for Construction 2011 - $91 million

Green Streets: Philadelphia/PennDOT I-95, Phase 2 Phase 2 Highlights: - Roadside bioswales along 6 urban blocks of I-95 30,000 SF of bioswales BMPs required by permit Extensive landscape buffering requested by public

Green Streets: Philadelphia/PennDOT I-95, Phase 2

Green Streets: Philadelphia/PennDOT I-95/Girard St. Phase 2 Under Design. Over 30,000 square feet of bioswales for water quality for 12 lanes of highway. Still discharges to CSO captures and treats first 1 of rain. PennDOT to maintain highway bioswales in ROW. Phase 3 through 5 Under Design. Over 20 acres of GI collecting runoff from new 1 mile, 12 lane highway. Includes stormwater wetlands, infiltration basins, raingardens, bioretention areas, and pervious pavement. GI will intertwine with new off road trail and new parking and recreational areas. Includes sewer separation to Delaware River. PennDOT and consultant working with community groups, Delaware River Waterfront, Phila. Parks and Phila. Water Dept. for long term maintenance.

Challenges: I-95 Green Infrastructure - Public wanted sustainability, buffering, public spaces - Interagency cooperation required between PennDOT and PWD. - Maintenance agreement with Community Groups - Compliance with plans and specifications is spotty,

Pervious Pavers Parking Lane Tree Box Application

Challenges: 1. Not a one size fits all approach 2. In larger basin areas, more green is req d so capital costs are close to gray storage solutions. 20-yr lifecycle costs however are lower. 3. Community buy-in is critical 4. Monitoring (in combined system and on individual practices) will provide important verification 5. Down spout disconnection program will be critical in order to route Stormwater from impervious surfaces CLEAN, GREEN, GROWING COMMUNITY

Mayfield Heights City Hall Green Infrastructure Demonstration Project Residential and Commercial Green Infrastructure Demonstrations

Mayfield Heights City Hall Green Infrastructure Demonstration Project Forested Parking Lot Demonstration Before After

Mayfield Heights City Hall Green Infrastructure Demonstration Project Commercial Parking Lot Demonstration Pervious Concrete

Mayfield Heights City Hall Green Infrastructure Demonstration Project Residential Downspout Disconnection Demonstration Before After

Benefits: Mayfield Heights City Hall Green Infrastructure Demonstration Project - Demonstrates Residential Downspout Disconnection, flow to raingarden - Demonstrates commercial parking lot pervious pavement - Demonstrates forested parking lot - High Visibility, Publicly Accessible Location

Challenges: Mayfield Heights City Hall Green Infrastructure Demonstration Project - Pervious concrete specified to be installed by Certified Pervious Installer - Mow Edge for raingarden to avoid mowing accidents - Service staff education, snow plowing concerns

Buffalo Sewer Authority Green Infrastructure Demonstration Project Single Family Residential Commercial Street Multi Family Residential

Buffalo Sewer Authority Green Infrastructure Demonstration Project Permeable Asphalt Streets Aggregate Base Course Permeable Asphalt Street

Benefits: Buffalo Sewer Authority Green Infrastructure Demonstration Project - Testing Roadside Bioswales in different neighborhood settings: single family, multi family, commercial - Demonstrate permeable asphalt street pavement - Flow Monitoring underway - Testing details, plantings, maintenance requirements

Challenges: Buffalo Sewer Authority Green Infrastructure Demonstration Project - Construction Administration, Inspection is critical - Multi Family bioswales are narrow, high traffic, abused - Commercial setting is much more difficult than residential - Commercial street with retrofitting fencing, taller, more formal planting

Green Infrastructure Lessons Learned Site Identification is difficult, All Sites are not equal Targeting Distressed Property Clusters Identified Neighborhood Transformative Sites CSO reduction and Runoff reduction are two different items Construction Administration is critical, many basic mistakes made in demonstration projects

Questions