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*Cold climate considerations for infiltration practices - See [http://stormwater.pca.state.mn.us/index.php/Cold_climate_impact_on_runoff_management#Infiltration], [http://stormwater.pca.state.mn.us/index.php/Cold_climate_impact_on_runoff_management#Infiltration_practices]
 
*Cold climate considerations for infiltration practices - See [http://stormwater.pca.state.mn.us/index.php/Cold_climate_impact_on_runoff_management#Infiltration], [http://stormwater.pca.state.mn.us/index.php/Cold_climate_impact_on_runoff_management#Infiltration_practices]
  
[[Category:Level 2 - Case studies and examples/Case studies]]
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[[Category:Level 3 - Case studies and examples/Case studies/BMPs]]
[[Category:Level 3 - Best management practices/Case studies and examples/Case studies]]
 
 
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Latest revision as of 20:15, 12 December 2022

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Green Infrastructure: Infiltration practices can be an important tool for retention and detention of stormwater runoff and treatment of pollutants in stormwater runoff. If the practice utilizes vegetation, additional benefits may include cleaner air, carbon sequestration, improved biological habitat, and aesthetic value.

Case studies of stormwater infiltration systems, including one underground system, are presented below.

Information: Reference to any specific commercial product, process, or service by trade name, trademark, service mark, manufacturer, or otherwise does not constitute or imply endorsement, recommendation, or favoring by the Minnesota Pollution Control Agency.

Upper Villa Park Infiltration and Reuse, Capitol Region Watershed District, SRF Consulting Group, Inc., City of Roseville

This image shows a plan layout of infiltration and reuse systems
Plan layout of infiltration and reuse systems. Click on mage to enlarge.
This picture shows a Contech infiltration system in native sandy soils
TrueNorthSteel infiltration system in native sandy soils
This image shows a StormTrap underground storage vault for stormwater reuse as irrigation
StormTrap underground storage vault for water stormwater reuse as irrigation.

In fall of 2015, Capitol Region Watershed District (CRWD), in partnership with the City of Roseville and through two State of Minnesota grants, constructed a 60,000 cubic foot (450,000 gallon) underground stormwater infiltration system at Upper Villa Park in Roseville, Minnesota. The underground system was combined with a 13,000 cubic foot (100,000 gallon) modular concrete cistern to harvest and use stormwater for irrigation of a high-use softball field. The underground infiltration system was comprised of a TrueNorthSteel CMP (Corrugated Metal Pipe) Detention System. The construction project will protect water quality within Lake McCarrons, a high quality recreational lake within the urban core of the Twin Cities, and the Villa Park Wetland System by capturing stormwater runoff and filtering pollutants associated with urban stormwater, such as total phosphorus (TP), total suspended solids (TSS), heavy metals, and petroleum products.

Pretreatment to the underground infiltration basin is provided by a baffled sump catch basin. The Preserver by Momentum Environmental provides settlement of suspended sediments and the capture of debris up stream of the infiltration system. Perforated baffles prevent resuspension and loss of fine sediments into the infiltration system. Pretreatment is consistent with the Minnesota Stormwater Manual guidance.

In addition to removing approximately 45 pounds of TP annually, the system will save up to 1.3 million gallons of drinking water by capturing and using rainwater to irrigate the softball field in the park.

In order to determine the effectiveness of infiltration practice pollutant removal, three custom-built pan- lysimeter wells were installed. Samples will be extracted from the wells and tested for a suite of pollutants and bacteria to determine the fate of these constituents once they leave the infiltration system on their way to groundwater resources.

CRWD has operated an automated ISCO sampler at the outflow of this 250-acre subwatershed since 2014. CRWD will continue to assess the effectiveness of the system by monitoring inflow, bypass flow, and levels within both the cistern and pipe gallery, and will sample upstream and downstream of the system in 2016.

The goal of this project is to protect water quality within Lake McCarrons and the Villa Park Wetland System by reducing stormwater volumes and annually removing 45 pounds of phosphorus. Secondary goals are to reduce drinking water as an irrigation source, determine the pollutant removal and groundwater protection capacity of infiltrating into native sands, and to optimize volume reduction by utilizing real time controls based on weather forecasts.

Estimates for total annual volume reduction (1,330,000 cubic feet, 10 million gallons), TP removal (45 pounds) and potable water use reduction (174,000 cubic feet, 1.3 million gallons) will be verified with monitoring data.

For more information, visit CRWD's project site page.

Location: Roseville, MN
Owners: City of Roseville and Capitol Region Watershed District
Designer: SRF Consulting Group Inc.
Year of Completion: 2015
Design Features: underground stormwater infiltration system, modular concrete cistern for water reuse as irrigation
Total Drainage Area: 250 Acres
Total Construction Cost: $861,500
Pretreatment: The Preserver (Momentum Environmental) baffled sump catch basin
Documented Maintenance Practices: Inspection, sediment depth measurements, sediment removal and disposal
Pollutant Removal: 45 lb/yr total phosphorus removed
Is the Site Publicly Accessible: Yes

Riverside Stormwater Park, City of Minneapolis

schematic for Riverside project
Schematic for the Riverside Stormwater Park. Click on image to enlarge.
This picture shows Infiltration soil being carefully placed to avoid compaction
Infiltration soil being carefully placed to avoid compaction
This picture shows a finished basin with simple groupings of shrubs grasses and trees
Finished basin with simple groupings of shrubs grasses and trees

The City of Minneapolis hired Barr Engineering to design stormwater best management practice (BMPs) along Riverside Avenue in conjunction with a street reconstruction project, which added bike lanes, parking, designated turn lanes, and center medians. Design and construction took place between 2011 and 2013.

The 8th Street infiltration basin was constructed at the intersection of Riverside Avenue and 8th Street where Riverside crossed at an angle, resulting in an awkward intersection and an unbuildable triangular piece of property. The intersection was redesigned to align 8th Street through the unused triangular property to create a standard perpendicular intersection. Bisecting the property allowed for the creation of two BMPs on either side of 8th Street. On one side there is a stormwater infiltration basin with a curved concrete retaining wall and railing. Trees and grasses were planted at the bottom while shrubs on the side slopes frame the basin. On the opposite side of 8th Street there is a plaza with permeable pavers over a stormwater tree trench (modified Swedish tree trenches) consisting of layers of crushed stone and soil to provide stormwater storage and growing media for the trees. BMPs on both sides of 8th Street are connected with an equalizer pipe. A stone sitting bench completes the pedestrian-friendly plaza. The 8th Street BMPs are expected to capture and treat 0.5 inches of runoff from 2.2 acres of tributary area.

The goals of this green infrastructure project are:

  • treating stormwater runoff to remove sediments and other pollutants;
  • infiltrating significant portions of the contributing drainage area runoff;
  • increasing the amount of pervious surface in the right of way;
  • providing a non-irrigated water source to the proposed trees and plantings; and
  • enhancing beauty and functionality of public space.
Location: Minneapolis, MN
Owners: City of Minneapolis
Designer: Barr Engineering Company
Year of Completion: 2013
Design Features: Tree planter boxes, permeable pavers, surface and underground storage, raingardens, depressed boulevards
Pretreatment Features: Water quality catch basin with sumps for sediment capture meeting current Stormwater Manual guidance
Total Drainage Area: 2.2 Acres
Total Construction Cost: $153,000
Documented Maintenance Practices: Inspection, herbicide/pesticide treatments, weeding, trimming, plant and tree replacement
Pollutant Removal: 1.0 lb/yr Dissolved Phosphorus removed, 407 lb/yr TSS removed.
Is the Site Publicly Accessible: Yes.

Rosetown American Legion Post 542 Infiltration Basin

This picture shows a plan and section view of the infiltration basin
Plan and section view of the infiltration basin. Click on image to enlarge.
This picture shows a Modular Block Sediment Trap
Modular Block Sediment Trap for pretreatment.
This image picture show an Infiltration basin with rough grading complete
Infiltration basin with rough grading complete
This picture shows a Infiltration basin before planting.
Infiltration basin before planting

As part of a watershed properties study of commercial parcels begun in 2014, Ramsey-Washington Metro Watershed District identified green space adjacent to the parking lot of the Rosetown American Legion Post 542 in Roseville, Minnesota. An unused turf area was targeted for a commercially sized infiltration basin. Collaborating with the American Legion leadership, the project was constructed in 2015 as part of a series of BMPs identified during the initial watershed properties study.

For preconstruction investigations, an 18 foot soil boring was used to identify sandy gravel soils. There was no confining layer of less permeable subsoils identified. The basin was sized to collect the 1.1 inch storm event off the parking lot and surrounding sidewalks. The basin was graded to store water no deeper than 12 inches below the gutter flow line. The curb cut was positioned at the lowest possible downstream side of the curb. Surrounding slopes within the basin were designed to be no greater than 4:1.

Pretreatment for the infiltration basin is provided by a curb cut with a modular block step-down structure. Stormwater flows down the block steps and into a shallow sump feature akin to a small forebay. The energy of the stormwater is dissipated to prevent scouring or erosion while sediments are allowed to drop out for easy collection later. The pretreatment sump is not sized per current Stormwater Manual recommendations that the forebay be approximately 10 percent the size of the infiltration basin.

The infiltration basin was designed to have ornamental grasses, including ‘Heavy Metal’ Switchgrass (Panicum virgatum ‘Heavy Metal’), low shrubs including low bush honeysuckle (Diervilla Lonicera) , natives sedges such as tussock sedge (Carex stricta) and native forbs such as Joe Pye Weed (Eutrochium purpurem).

The infiltration basin cost $47,000, treats 1,100 cubic feet of stormwater and is estimated to remove 262 pounds of TSS and 0.57 pounds of dissolved P per year.

The Rosetown American Legion Post 542 infiltration basin has been included as one of several projects being maintained as part of the Ramsey-Washington Metro Watershed District BMP Maintenance Program. As part of the maintenance program, the site is inspected monthly during the growing season by a contractor. The site is assessed for any erosion, trash, weeds and sediment depths in the modular block splash block assemblies. The required time for crews to remove and dispose of materials is recorded and time and expenses are paid for. Contractor crews also look for any plant damage or soil conditions that would indicate slow drainage. Budgets for maintenance of the site are adjusted yearly.

In the spring, all the previous year’s vegetation from the perennials, sedges and grasses is removed and disposed of. The shrubs are pruned for proper form and to remove any dead branches. As mulch decomposes, its depth is refreshed to maintain approximately 3 inches of shredded hardwood mulch throughout the basin.

Location: Roseville, MN
Owners: Ramsey-Washington Metro Watershed District
Designer: Barr Engineering Company
Year of Completion: 2015
Design Features: Bioinfiltration basin
Total Drainage Area: 0.85 Acres
Total Construction Cost: $47,000
Documented Maintenance Practices: Inspection, herbicide/pesticide treatments, weeding, trimming, removal of sediment from sump step down structure
Pollutant Removal: 0.57 lb/yr Dissolved Phosphorus removed, 262 lb/yr TSS removed.
Is the Site Publicly Accessible: Yes but on private property


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This page was last edited on 12 December 2022, at 20:15.