Monitoring and Documenting Green Stormwater Best Management Practices Steve Wise - Natural Resources Program Manager Bill Eyring - Senior Engineer Illinois Sustainable Technology Center April 6, 2010
The Center for Neighborhood Technology 30 year old Chicago-based non-profit Sustainable energy, transportation, natural resource, climate strategies: Research Advocacy Demonstration projects Scaling up, replication Green Infrastructure agenda Planning/Analysis Toolbox Policy Education Practice
CNT Green Infrastructure Tools Stormwater Solutions that Hold Water Envisioning Green Best Practices in Chicago s Metropolitan Water Reclamation District Outreach Policy Development
CNT Green Infrastructure Tools greenmapping.org greenvalues.cnt.org
Hey and Associates Founded in 1976 Business purpose was to provide an interdisciplinary approach to water resources and ecological problems. Combine engineering, ecology, water quality and landscape architecture. 35 person staff with 9 water resources engineers and 12 ecologists
Project History USEPA Project 2007-2008 2 bioswales, 2 rain gardens IEPA Project 2007-2008 2 rain gardens, 1 vegetated swale ISTC Project Related Activities Other monitoring in the region Rain garden demonstrations Policy analysis and advocacy Illinois EPA and legislature
Calumet Bioswale Constructed in 2007 with USEPA funding Monitored from Oct. 2007 to the present Size: 10 by 66 feet Drains 12,433 sq.ft. Repair of outside drain is needed
Results in 2009 and before Infiltration rates of 0.2 to 0.8 inches per hour Infiltration rate of the swale is limited by the infiltration rate of the subsoils Performance satisfactory for events up to 0.5 inches The swale is receiving overflow from the adjacent sewer system during events over 0.5 inches
2 Our Lady Gate of Heaven May 2008 0 1.5 0.1 1 0.2 0.5 0.3 Depth (ft) -0.5 0 1-May 6-May 11-May 16-May 21-May 26-May 31-May 0.4 0.5 0.6 Rainfall (inches) -1 0.7-1.5 0.8-2 0.9-2.5 1 Surface Water Level Aggregate Water Level Subsurface Water Level 5-minute Rainfall
Our Lady Gate of Heaven Swale 1.50 1 1.25 1 Runoff Captured in BMP (inches) 1.00 0.75 0.50 0.25 0.00 0.0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 Runoff (inches) No overflow Overflow
Rogers Park Pervious Concrete Constructed in 2008 with USEPA funding Monitored 2009 to present Two 15 by 15 ft. patches in 8,704 sq.ft. parking lot Infiltration Rates of 1.08-1.31 in./hr when clogged Surface Infiltration Capacity of 33.2-88.3 in./hr.(ave.57.87) after washing and 6.01-63.80 (ave.38.35) after winter
Bellwood Rain Gardens Constructed in 2008 with IEPA funding Raingardens of 220 and 230 sq.ft. Roof drainages of 1,340 and 1,540 sq.ft.
Results in 2008 Data collected between May 2008 and October 2008 One well was insufficient to represent water captured in the gardens, even though they are only 230 square feet The turf rain garden is performing better thus far in the project The 5-minute recording period may have been too long to catch the near immediate response time of above ground storage in these small gardens A water level recording interval was reduced to one minute in July and V-notch weirs were added
Bellwood Native Raingarden June 2008 1 0 0.5 0.2 0.4 0 1-Jun 3-Jun 5-Jun 7-Jun 9-Jun 11-Jun 13-Jun 15-Jun 17-Jun 0.6 Depth (ft) -0.5-1 -1.5 0.8 1 1.2 Rainfall (inches) 1.4-2 1.6-2.5 1.8-3 2 Surface Water Level Subsurface Water Level 5-min Rainfall Bellwood Turf Raingarden June 2008 1 0 0.5 0.2 0.4 0 1-Jun 6-Jun 11-Jun 16-Jun 21-Jun 26-Jun 0.6 Depth (ft) -0.5-1 -1.5 0.8 1 1.2 Rainfall (inches) 1.4-2 1.6-2.5 1.8-3 2 Surface Water Level Subsurface Wate Level 5-min Rainfall
Results in 2009 Infiltration Rates Turf grass = 91.3 in/hr Native = 3.3 in/hr Additional infiltration testing is needed Rain gardens leak during storm events Weir coefficients have been calculated for the installed weirs
Vegetated Swales The Owens Road Swale The search for another The limited opportunities and likely uses
Results in 2008 Water Quality Testing Testing of the inflow and outflow indicated high water quality Flow weight sampling provides the most inclusive results on the performance of the swale Water Quantity Testing Based on 8 storms
Owens Road Vegetated Swale Rainfall versus Runoff and Infiltration Volumes 800,000 700,000 Volume (CF) 600,000 500,000 400,000 300,000 200,000 y = 248785x - 11984 R 2 = 0.7597 y = 52166.67x + 389.23 R 2 = 0.80 100,000 0 0.0 0.5 1.0 1.5 2.0 2.5 Rainfall (inches) Runoff In (cf) Runoff Out (cf) Storage/ Infiltration (cf) Linear (Storage/ Infiltration (cf)) Linear (Runoff In (cf))
Owens Road Vegetated Swale Rainfall versus % of Total Annual Runoff 100% 90% Percentage of Annual Total 80% 70% 60% 50% 40% 30% This line represents the % of total annual runoff that is generated by storms not exceeding the rainfall shown on the x axis. On a per event basis, this line represents the % of runoff that is stored/infiltrated by the vegetated swale. 20% 10% 0% 0.0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 Precipitation (inches) Runoff % of Runoff Stored/Infiltrated
Benefits of a G.I. Inventory The City of Chicago is stalled on an inventory The MWRD needs to hear about their extent and performance Engineers and regulators are eager for information Costs and performance vary widely and need to be communicated
Benefits of Expansive Assessment Monitoring is high cost, weather dependent and limited to a few sites BMPs range greatly in size, complexity and cost, so many samples are better Inventory and assessment leads to more implementation A variety of audiences will be interested in the results and able to act on them
Plans for 2010 Continue monitoring at Bellwood, Rogers Park and Calumet sites Inventory green infrastructure throughout 6-county Chicago Region Select rain gardens and porous pavements for evaluation Visual assessments of about 70 sites Infiltration capacity testing of 12 sites Synthetic drawdown testing of 4 sites Reporting to regulators and engineers
Inventory of Existing BMPs Email requests to 200 potential informants with request that they share with others Personal reminders to best sources 82 facilities so far with many more coming 36 rain gardens 8 permeable pavement 8 bioswales 2 green roofs 4 water harvesting systems 24 other
Assessing Rain Gardens Visual Assessments Hydraulic Conditions Vegetation Soils Infiltration Rate Testing Synthetic Drawdown Testing
Assessing porous pavement Visual Assessments Setting and runoff sources Hydraulic Conditions Surface Infiltration Capacity Testing
Future Tool - Permeability Index Multiple Scales: Expand analysis, planning, application from site/parcel to community impact Performance-based targeting, assessment Address life-cycle cost of scenarios: The sustainable must be attainable Improve accountability: Only that which can be counted can be counted upon Identify and capture Green Infrastructure Capacity in highly urbanized landscapes (re-development)
Green Infrastructure Registry
Least Cost / Sustainable Great Lakes Water Planning how a least-cost, demandside management approach termed integrated resource planning (IRP) can assist in improving the economic efficiency of water supply, wastewater and stormwater utilities Portland CSO 7341 Pre-design Report Advisory group convened: CMAP, Alliance for the Great Lakes, The Joyce Foundation, the Energy Center of Wisconsin, Milwaukee Metropolitan Sewerage District (MMSD), NRDC, ECT, Inc. & Steve Brick (formally of Joyce Foundation). Initial Workshop in late April
IEPA Green Infrastructure Study PA 96-0026 Costs of Green Infrastructure CNT RESEARCH CRWD RESEARCH CNT CALC BMP $/SF $/CF $/SF $/CF $/SF $/CF RAIN GARDENS $9-$32 $.04-$.11 $8.55 ave. $.04-$.07 $7 $.25 BIOSWALES $13-$31 $.02-$.03 $7.10 $.39 VEGETATED SWALE INFILTRATION TRENCHES PERMEABLE PAVEMENT $2.40 $.01 $11.77 ave. $.02-$.03 $7.10 $.01 $7.10 $.59 GREEN ROOFS $15.75 $.58
Answering the Global Challenge It is this kind of project that needs to be replicated a billion times around the world. -- Nobel Peace Laureate Wangari Maathai
Thank You Bill Eyring and Steve Wise cnt.org/natural-resources greenvalues.cnt.org bille@cnt.org, swise@cnt.org