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==Filter strips==
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===City of Burnsville - vegetated filter strip pretreatment===
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*Location: Neighborhood surrounding Crystal Lake in Burnsville, Minnesota
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*Owners: Homeowners
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*Designer: Barr Engineering
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*Contractor: Mike’s Lawn and Landscape
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*Year of Completion: 2004
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*Pretreatment Practice: Filtration and settling
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*Practice Description: Vegetated filter strip
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*Design Features: The vegetated filter strip design filters stormwater runoff which minimizes erosion risks and filters out sediment prior to entering the rain gardens.
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*Downstream Best Management Practice (BMP) Benefitting from Pretreatment: Rain garden
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*Total Drainage Area and Land Use: 5.3 acres (primarily residential)
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*Construction Cost: $8.00 per square foot (rain garden)
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*Pollutant Removal: Vegetated filter strips provide 90 percent stormwater runoff volume reductions
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*Is the Site Publicly Accessible: No
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*Contact: Barr Engineering (kleuthold@barr.com)
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====Design summary====
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[[File:Burnsville filter strip figure 1.jpg|300px|thumb|alt=schematic for filter strip|<font size=3>Location of Rain Gardens (Shown in Green) [Barr Engineering Company, 2006].</font size>]]
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[[File:Burnsville figure 2.png|300px|thumb|alt=figure of filter strip|<font size=3>Vegetated Filter Strip at Curb Cutout [Barr Engineering Company, 2006].</font size>]]
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In 2002, the City of Burnsville worked with Barr Engineering to design rain gardens in a residential neighborhood surrounding Crystal Lake to reduce the pollutant runoff into the lake. Using city funding and a grant from the Metropolitan Council, 17 raingardens were installed along a street near Lake Crystal (Figure 1) as part of a stormwater retrofit study [Land and Water Magazine, 2004]. Vegetated filter strips provide stormwater pretreatment between the curb cutout and rain garden (Figure 2). The vegetated filter strip treats stormwater runoff that enters the raingarden by dissipating the flow to minimize erosion and remove sediment from the runoff via filtration and settling into the vegetation. This design reduces the total suspended solids (TSS) load to the rain garden and allows the rain garden to function as designed and minimize costly maintenance that results from sedimentation.
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====Maintenance====
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The homeowners are responsible for performing routine maintenance such as weeding, raking, and removal of accumulated sediment for the filter strips and rain gardens. The elevation of the filter strip increases over time because of solids settling into the vegetation, so the City of Burnsville has removed the vegetated filter strips, removed the sediment, and replaced the filter strips every five to seven years. Over the 15-year lifespan of the project, filter strips have been replaced twice by the city.
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====Lessons learned====
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*Incorporate “drop waterfalls” at curb cutout to slow the speed and reduce erosion potential of the runoff entering the vegetated filter strip.
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*Vegetated filter strips have performed as designed and prolonged the lifespan and reduced maintenance of the rain gardens
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====References====
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*Barr Engineering Company. (2006). [http://www.burnsville.org/DocumentCenter/View/450/Rain-Garden-Project-Summary-2006?bidId= Rain Garden Project Summary]. Retrieved February 5, 2019, from City of Burnsville
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*Land and Water Magazine. (2004, September). [http://www.landandwater.com/features/vol48no5/vol48no5_2.html Burnsville Rainwater Gardens]. Land and Water Magazine, 48(5), p. 47. Retrieved February 5, 2019, from Land and Water Magazine
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==Project Name==
 
==Project Name==

Revision as of 19:37, 23 May 2019

This site is currently undergoing revision. For more information, open this link.
This page is in development

Filter strips

City of Burnsville - vegetated filter strip pretreatment

  • Location: Neighborhood surrounding Crystal Lake in Burnsville, Minnesota
  • Owners: Homeowners
  • Designer: Barr Engineering
  • Contractor: Mike’s Lawn and Landscape
  • Year of Completion: 2004
  • Pretreatment Practice: Filtration and settling
  • Practice Description: Vegetated filter strip
  • Design Features: The vegetated filter strip design filters stormwater runoff which minimizes erosion risks and filters out sediment prior to entering the rain gardens.
  • Downstream Best Management Practice (BMP) Benefitting from Pretreatment: Rain garden
  • Total Drainage Area and Land Use: 5.3 acres (primarily residential)
  • Construction Cost: $8.00 per square foot (rain garden)
  • Pollutant Removal: Vegetated filter strips provide 90 percent stormwater runoff volume reductions
  • Is the Site Publicly Accessible: No
  • Contact: Barr Engineering (kleuthold@barr.com)

Design summary

schematic for filter strip
Location of Rain Gardens (Shown in Green) [Barr Engineering Company, 2006].
figure of filter strip
Vegetated Filter Strip at Curb Cutout [Barr Engineering Company, 2006].

In 2002, the City of Burnsville worked with Barr Engineering to design rain gardens in a residential neighborhood surrounding Crystal Lake to reduce the pollutant runoff into the lake. Using city funding and a grant from the Metropolitan Council, 17 raingardens were installed along a street near Lake Crystal (Figure 1) as part of a stormwater retrofit study [Land and Water Magazine, 2004]. Vegetated filter strips provide stormwater pretreatment between the curb cutout and rain garden (Figure 2). The vegetated filter strip treats stormwater runoff that enters the raingarden by dissipating the flow to minimize erosion and remove sediment from the runoff via filtration and settling into the vegetation. This design reduces the total suspended solids (TSS) load to the rain garden and allows the rain garden to function as designed and minimize costly maintenance that results from sedimentation.

Maintenance

The homeowners are responsible for performing routine maintenance such as weeding, raking, and removal of accumulated sediment for the filter strips and rain gardens. The elevation of the filter strip increases over time because of solids settling into the vegetation, so the City of Burnsville has removed the vegetated filter strips, removed the sediment, and replaced the filter strips every five to seven years. Over the 15-year lifespan of the project, filter strips have been replaced twice by the city.

Lessons learned

  • Incorporate “drop waterfalls” at curb cutout to slow the speed and reduce erosion potential of the runoff entering the vegetated filter strip.
  • Vegetated filter strips have performed as designed and prolonged the lifespan and reduced maintenance of the rain gardens

References

  • Barr Engineering Company. (2006). Rain Garden Project Summary. Retrieved February 5, 2019, from City of Burnsville
  • Land and Water Magazine. (2004, September). Burnsville Rainwater Gardens. Land and Water Magazine, 48(5), p. 47. Retrieved February 5, 2019, from Land and Water Magazine




Project Name

Project Overview

Narrative description of pretreatment project

Project Location:
Year Constructed:
Type of Pretreatment Practice: (e.g., forebay, proprietary settling device, etc.)
Specific Practice: (e.g., rock inlet, name of proprietary device)
Practice Owner:
Practice Designer:

Design Considerations

Design Cost:
Design Year:

Narrative description of contributing drainage area, including description of land use

List of existing impairments and TMDLs that the BMP drains to

Total Contributing Drainage Area (acres):
Total Impervious Area (acres):
Watershed Slope (%):
Downstream Structural Best Management Practice:
Design Pollutant Removal Performance:

Discussion of why that particular pretreatment system was chosen for that project location, specific rationale (e.g., site characteristics, ease of maintenance, etc.)

Description of sizing criteria used to design pretreatment practice

Construction Considerations

Construction Cost:
Construction Year:

Description of adverse site conditions/other construction challenges encountered during installation

Maintenance Considerations

List or description of types of maintenance practices used for the upkeep of the pretreatment system

Maintenance Frequency:
Maintenance Cost:
Disposal Cost:

Description of maintenance challenges, discussion of ease of maintenance

Discussion of any additional maintenance considerations

Results

Discussion of how the performance was measured or estimated

Measured or Estimated Pollutant Removal Performance:

For proprietary practices, did were the manufacturer claims met?

Discussion of lessons learned through the implementation of this pretreatment practice

Villa Park Stormwater Improvements - Preserver

image of Preserver pretreatment device
image of Preserver pretreatment device

Project Overview

Narrative description of pretreatment project

Project Location: Roseville, MN
Year Constructed:
Type of Pretreatment Practice: Proprietary settling device
Specific Practice: The Preserver
Practice Owner:
Practice Designer:

Design Considerations

Design Cost:
Design Year:

The total contributing drainage area to the Preserver was 242 acres, with 8 acres of direct drainage area. An estimated 30% of the direct drainage area to the Preserver was impervious (2.4 acres). The land use of the contributing drainage area was residential, with a mature tree canopy.

List of existing impairments and TMDLs that the BMP drains to

Total Contributing Drainage Area (acres): 242
Total Impervious Area (acres): ~30%
Watershed Slope (%):
Downstream Structural Best Management Practice: Irrigation cistern
Design Pollutant Removal Performance:

Discussion of why that particular pretreatment system was chosen for that project location, specific rationale (e.g., site characteristics, ease of maintenance, etc.)

Description of sizing criteria used to design pretreatment practice

Construction Considerations

Construction Cost:
Construction Year:

Description of adverse site conditions/other construction challenges encountered during installation

Maintenance Considerations

image showing pollutant removal for Preserver Pretreatment practice

List or description of types of maintenance practices used for the upkeep of the pretreatment system

Maintenance Frequency:
Maintenance Cost:
Disposal Cost:

The mature tree canopy in the contributing drainage area contributed to heavy organic loads, including large debris. The total captured material would likely be greater with more frequent cleaning of the system - the sump was full approximately halfway through the monitoring period.

Discussion of any additional maintenance considerations

Results

Discussion of how the performance was measured or estimated

Measured or Estimated Pollutant Removal Performance: 2,768 lbs of material captured by the pretreatment device, including:
  • 0.526 lbs phosphorus
  • Significant heavy metals

For proprietary practices, did were the manufacturer claims met?

Discussion of lessons learned through the implementation of this pretreatment practice