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 Casey Lake, North St. Paul CE 5511 Urban Hydrology and Land Development Instructor: John S. Gulliver Presented by: Joshua Balzer Stephanie Hatten Maria.

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Presentation on theme: " Casey Lake, North St. Paul CE 5511 Urban Hydrology and Land Development Instructor: John S. Gulliver Presented by: Joshua Balzer Stephanie Hatten Maria."— Presentation transcript:

1  Casey Lake, North St. Paul CE 5511 Urban Hydrology and Land Development Instructor: John S. Gulliver Presented by: Joshua Balzer Stephanie Hatten Maria Garcia-Serrana Delaney Kolb

2 Introduction  Casey Lake subwatershed  Goal: Provide stormwater treatment to reduce pollutant loading  Total suspended solids (TSS) and total phosphorous (TP)  4 solutions were analyzed  Bioretention cell from Ramsey Conservation District Report

3 Background  Casey Lake is considered a wetland rather than a lake  Classified as Management Class B  High quality wetland that requires a minimum of 25’ buffer from development  TP based on water quality for shallow lakes  <60 ug/L  Current TSS and TP is unknown as there is no water quality data available

4 Methods  Porous Asphalt  Two locations:  Trail along the lake  Parking Lot  Soils HSG A and B: Water infiltrates  Maintenance is key: Sweeping 3 times per year PERMEABLE PAVEMENTS

5 Methods PERMEABLE PAVEMENTS Trail:  Base-Iron Enhanced Sand (88% TP)  Drainage area: 8.7ac  Area of PP: 800 m 2  Cost of installation: $196,980 P8 Model: Infiltration Trench CN=40 (WERF) Parking Lot:  Base- Aggregates  Drainage area: 0.75ac  Area of PP: 2,954 m 2  Cost of installation: $$128,652

6 Methods  Route existing storm sewer into infiltration basin  Size for a 1.1 inch water quality storm  69-acre drainage area  CN = 75  38% impervious INFILTRATION BASIN

7 Methods  Sandy Loam Soil Assumption  Size of basin: 1.32 acres  Modeled in P8  Cost of Installation: $238, 326 INFILTRATION BASIN

8 Methods  Leaves and street debris are a major source of phosphorus and suspended solids  Street sweeping removes pollutants before they reach stormwater systems STREET SWEEPING

9 Methods STREET SWEEPING  Street sweeping removes significant amounts of pollutants according to current research  Increased sweeping frequency is a cost effective method Credit: http://www.tymco.com//

10 Methods  Retrofit with SAFL Baffles  SAFL Baffle is a post-construction stormwater pretreatment system that can be installed in existing sump structures  Helps increase settling of sediments flowing through the system  Vacuum truck is used to remove sediments SUMP CLEANING

11 Methods  Modeled with Barr Engineering SHSAM program  Sizing Hydrodynamic Separators and Manholes  Cleaned once a year SUMP CLEANING

12 Results

13 Conclusions  Street Sweeping  Highly efficient pollutant remover when optimized  Very easy to implement  Sump Cleaning/SAFL Baffle installation  Low-cost measure  Good results for Phosphorous removal

14  Thanks for your attention We look forward to your questions and participation

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