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Line 1: − + − + − + + + − + − + − + − + + + − | Composition || Topsoil || || || || || || || 30-50% || 20-30 % || || || || 8-20 % || || || Table 1 & 2 (below) || || || || + − |- − − + − + − + − + Line 32:
Line 34: − + − + − + − + Line 44:
Line 46: − + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + − + − + − + − + − + − + − + − + + − + − + − + − + − + − + − + − + − + − + − + − + + + + − | (Impervious drainage/treatment facility) area || || 5:1 to 15:1 || || || 5:1 to 15:1 || 5:1 to 15:1 || || < 5:1 loading ratio (DA to IA, DA 100% IP) || SA of BR 3 to 6% of CDA || || || sized at 5-8 % of IPCDA || BR SA 3-6% of CDA || || || CDA < 5 acres || CDA < 2.5 acres || CDA < 5 acres || || BR SA: 6-15 % of IP area+ − + − + − + − + − + − + + + + + − + − + − + − + − + − + − + − + − + + + + − | Surface geometery (length/width) || || || || || || || 2:1 || || || || || || || || || || || || || + − + + − + − + − + − + − + +
Jenny Hill moved page Bioretention Design Guide to Talk:Bioretention Design Guide without leaving a redirect: Take 'offline'
{| class="wikitable" style="width: 175%; height: 200px;"
{| class="wikitable" style="width: 100%; height: 200px;"
!style="background: cyan; colspan=6;color: black"|Canada
|-
!style="background: cyan; color: black"|US
!colspan="2" style="background:white; color:black"| LID Practice
!colspan="6" style="background: orange; color: black"|CANADA
!colspan="13" style="background: brown; color: white"|United States
|-
|-
| Bioretention || || CVC+TRCA || CVC || || Toronto- 2016 || LID-SWM Guide 2010 || LID-Design Guide Edmonton- 2014 || New York State SWM Design Manual-2015 || Massachusets SW BMP-2013 || District of Columbia-SWM Guidebook-2010 || San Diego LID Handbook-2014 || Alabama LID Handbook-2013 || W. Virginia-SWM design guidance manual-2012 || Rhode Island-SW design & Installation Standards Manual-2012 || Pennsylvania-City of Philadelphia green St. design manual-2014 || Minnesota SW Manual-2017 || Tennessee-LID Development-SWM 2016 || Texas-LID Technical Guidance Manual-2013 || Oregon SWM Manual-2014 || Oregon State Univ. Fact Sheets-2011
!colspan="2" style="backgroung=green; color:white"height: 400px;|Bioretention|| CVC+TRCA (Factsheets-2010)<ref> http://www.creditvalleyca.ca/wp-content/uploads/2012/02/lid-swm-guide-apdxa-bioretention.pdf</ref>|| CVC-Construction Guide-2012 <ref>http://www.creditvalleyca.ca/wp-content/uploads/2013/03/CVC-LID-Construction-Guide-Book.pdf</ref>|| CVC-Retrofit Guide-2014<ref>http://www.creditvalleyca.ca/wp-content/uploads/2014/08/Grey-to-Green-Road-ROW-Retrofits-Complete_1.pdf</ref> || Toronto- 2016 || LID <br>SWM <br>Guide <br>2010<ref> http://www.creditvalleyca.ca/wp-content/uploads/2014/04/LID-SWM-Guide-v1.0_2010_1_no-appendices.pdf</ref>|| LID-Design Guide Edmonton- 2014<ref>https://www.edmonton.ca/city_government/documents/PDF/LIDGuide.pdf</ref> || New York State SWM Design Manual-2015<ref>http://www.dec.ny.gov/docs/water_pdf/swdm2015entire.pdf</ref> || Massachu-sets <br>SW BMP <br>2013 || District of Columbia-SWM Guidebook-2012<ref> https://doee.dc.gov/sites/default/files/dc/sites/ddoe/publication/attachments/EntireDraftStormwaterManagementGuidebook_0.pdf</ref>|| San Diego LID Handbook-2014<ref>http://www.sandiegocounty.gov/content/dam/sdc/pds/docs/LID_Handbook_2014.pdf</ref> || Alabama LID Handbook-2013<ref>http://www.adem.state.al.us/programs/water/waterforms/LIDHandbook.pdf</ref> || W. Virginia-SWM design guidance manual-2012<ref> http://www.bluefieldstormwater.org/uploads/3/4/3/0/34309910/west_virginia_stormwater_management_design_guidance_manual_full_11-2012.pdf</ref>|| Rhode Island-SW design & Installation Standards Manual-2010<ref> http://www.dem.ri.gov/programs/benviron/water/permits/ripdes/stwater/pdfs/desgnmnl.pdf</ref>||Philadel-phia <br>Green St. <br>design manual <br>2014<ref> http://www.phillywatersheds.org/img/GSDM/GSDM_FINAL_20140211.pdf</ref>|| Minnesota SW Manual-2017 || Tennes-see <br>LID SWM <br>2016 || Texas-LID Technical Guidance Manual-2013 || Oregon SWM Manual-2014 || Oregon State Univ. Fact Sheets-2011
|-
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| || || Factsheets-2010 || Construction Guide- 2012 || Retrofit Guide 2014 || || || || || || || || || || || || || || || ||
|colspan="2" style="background:whit; color:red; text-align: center"| '''Filter media depth (m)'''
|-
|-
| Filter media depth (m) || || || || || || || || || || || || || || || || || || || ||
||||Depth ||| 1-1.25 || || || 1-1.25 || 1-1.25 || 0.5-1.0 || || || || || || || || || >= 2.5 ft. || || || ||
|-
|-
| Depth || || 1-1.25 || || || 1-1.25 || 1-1.25 || 0.5-1.0 || || || || || || || || || >= 2.5 ft. || || || ||
|colspan="2" style="background:whit; color:red; text-align: center"| '''Composition'''
|-
||| Topsoil || || || || || || || 30-50% || 20-30 % || || || || 8-20 % || || || Table 1 & 2 (below) || || || ||
|-
|-
| || Sand || 85-88 % || Fine sand=0-17%, Coarse to medium sand=71-92 % || 85-88 % || 85-88 % || 85-88 % || 50-85 % || 50-70 || 40% || 85-88 % || 65% sand, 20% sand loam || 85-88 % || 70-88 % || 85-88 % || 50-80 % || || 70-85 % (sandy loam) || 85-88 % || 66% || 60% (sandy loam)
| || sand || 85-88 % || Fine sand=0-17%, Coarse to medium sand=71-92 % || 85-88 % || 85-88 % || 85-88 % || 50-85 % || 50-70 || 40% || 85-88 % || 65% sand, 20% sand loam || 85-88 % || 70-88 % || 85-88 % || 50-80 % || || 70-85 % (sandy loam) || 85-88 % || 66% || 60% (sandy loam)
|-
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| || Fines(silt and clay) || 8-12 % || 8-12 % || 8-12 % || 7-12 % || 8-12 % || 10-15% (silt),3-10% (clay), both combined, max 20% || clay < 5% || || 8-12 % || || 8-12 % || || 0-12 % silt, 0-2 % clay || Silt 40% , Clay 10% || || 10-20% (silt), max. 10% (clay) || 8-12 % || ||
| || Fines(silt and clay) || 8-12 % || 8-12 % || 8-12 % || 7-12 % || 8-12 % || 10-15% (silt),3-10% (clay), both combined, max 20% || clay < 5% || || 8-12 % || || 8-12 % || || 0-12 % silt, 0-2 % clay || Silt 40% , Clay 10% || || 10-20% (silt), max. 10% (clay) || 8-12 % || ||
|-
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| || gravel || || || || || || || || || || || || || || 15% || || || || ||
| || Gravel || || || || || || || || || || || || || || 15% || || || || ||
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| || Organic matter || 3-5 % || 3-5 % || 3-5 % || 3-5 % || 3-5 % || 5-10% || 5% || 30-40 % || 1-5 % || 2-5 % || 3-15 % || 3-5 % || 3-5 % || 2-10 % || || 5-10 % || 2-5 % || 33% || 40%
| || Organic Matter || 3-5 % || 3-5 % || 3-5 % || 3-5 % || 3-5 % || 5-10% || 5% || 30-40 % || 1-5 % || 2-5 % || 3-15 % || 3-5 % || 3-5 % || 2-10 % || || 5-10 % || 2-5 % || 33% || 40%
|-
|-
| || P-index value || 10-30 ppm || || || 12-30 ppm || 10-30 ppm || || || || 10-30 || || || || || || || || < 15 || ||
| || P-index value || 10-30 ppm || || || 12-30 ppm || 10-30 ppm || || || || 10-30 || || || || || || || || < 15 || ||
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| || Soluble salts || || || || < 2.0 mmhos/cm || || || || || || || || || || || || || || ||
| || Soluble Salts || || || || < 2.0 mmhos/cm || || || || || || || || || || || || || || ||
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| || Cationic exchange capacity || > 10 meq/100 g || 10 meq/100 g || > 10 meq/100 g || > 10 meq/100 g || > 10 meq/100 g || > 5 meq/100 g || || || > 10 || > 5 || || > 10 || || || || > 10 || || || > 5
| || Cationic Exchange Capacity<br>(meq/100g)|| > 10 || 10 || > 10 || > 10 || > 10 || > 5 || || || > 10 || > 5 || || > 10 || || || || > 10 || || || > 5
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| || pH || 5.5-7.5 || 5.5-7.5 || 5.5-7.5 || 5.5-7.5 || 5.5-7.5 || 5.5-7.5 || || || || 6-8 || || || || 6-7 || 6-8.5 (WQ blend) || || 6-8 || || 5.5-7.5
| || pH || 5.5-7.5 || 5.5-7.5 || 5.5-7.5 || 5.5-7.5 || 5.5-7.5 || 5.5-7.5 || || || || 6-8 || || || || 6-7 || 6-8.5 (WQ blend) || || 6-8 || || 5.5-7.5
| || Phosphorus || || || || || || 10-30 ppm || || || || || || || || || Table 1 & 2 (below) || || || ||
| || Phosphorus || || || || || || 10-30 ppm || || || || || || || || || Table 1 & 2 (below) || || || ||
|-
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| || Infiltration rate || > 25 mm/hr || > 25 mm/hr || > 25 mm/hr || > 25 mm/hr || || || || || || || || || || || || || || ||
| || Infiltration Rate || > 25 mm/hr || > 25 mm/hr || > 25 mm/hr || > 25 mm/hr || || || || || || || || || || || || || || ||
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| || Surface resistance || || || || <= 110 PSI || || || || || || || || || || || || || || ||
| || Surface Resistance || || || || <= 110 PSI || || || || || || || || || || || || || || ||
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| || Sub-surface resistance || || || || <= 260 PSI || || || || || || || || || || || || || || ||
| || Sub-Surface Resistance || || || || <= 260 PSI || || || || || || || || || || || || || || ||
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| || Saturated hydraulic conductivity , mm/hr || || || || || || 25 min. || || || || || || || || || || || || ||
| || Saturated Hydraulic Conductivity , mm/hr || || || || || || 25 min. || || || || || || || || || || || || ||
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| || P-Content || || || || || || || || || 10-30 || < 15 ppm || || 7-23 mg/kg || || || || || || ||
| || P-Content || || || || || || || || || 10-30 || < 15 ppm || || 7-23 mg/kg || || || || || || ||
| || Compost (optional) || || || || || || 15-25% || || || || 15% || || || || || || || || ||
| || Compost (optional) || || || || || || 15-25% || || || || 15% || || || || || || || || ||
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| Gravel storage || || || || || || || || || || || || || || || || || || || ||
|colspan="2" style="background:whit; color:red; text-align: center"| '''Gravel storage'''
|-
||| Void Space Ratio || 0.4 || || || || 0.4 || || || || || || || || || || || || || ||
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||| Depth || min. 300 mm || || || min. 300 mm || min. 300 mm || || || || || || || || || || || || || ||
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||| Diameter(clear stone) || 50 mm || || || 50 mm || 50 mm || || || || || || || || || || || || || ||
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|Pea Gravel Choking Layer ||depth (mm) || 100 || || || || 100 || 100 || || || || || || || || || || || || ||
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||| Diameter (mm) || 3-10 || || || || 3-10 || || || || || || || || || || || || || ||
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|colspan="2" style="background:whit; color:red; text-align: center"| '''Mulch'''
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| ||Depth (mm) || 75 || <=75 || || 75 || 75 || 70-80 || || || || || || || || || || || || ||
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|colspan="2" style="background:whit; color:red; text-align: center"| '''Overflow'''
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| ||Overflow Invert above the filter bed surface (mm) || 150-250 || || || <= 250 || || || || || || || || || || || || || || ||
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|colspan="2" style="background:whit; color:red; text-align: center"| '''Monitoring well'''
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||| Vertical Perforated Pipe Diameter (mm) || 100-150 || 100-150 || || 100-150 || 100-150 || || || || || || || || || || || || || ||
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|colspan="2" style="background:whit; color:red; text-align: center"| '''Underdrain'''
|-
||| Required when infiltration rate<br> (mm/hr) || < 15 || || || < 15 || || < 13 || || || || || || || || || || || || ||
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| ||Diameter<br>(mm) || min. 100<br>(200 recd.) || min. 100<br> (200 recd.) || || min. 200 || min. 100<br>(200 mm recd.) || 200 || || || || || || || || || 100 || || || ||
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| ||Depth above the gravel storage layer (mm)|| 100 || || || 100 || || || || || || || || || || || || || || ||
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||| Available head beween the inflow point and the downstream stream drain invert || 1-1.5 m || || || || 1-1.5 m || || || || || || || Typical CDA 0.1-2.5 acres of 100% IP(<0.5 no underdrain), alternative to checking layer is needle punched non-woven geotextile || || || || || || ||
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|colspan="2" style="background:whit; color:red; text-align: center"| '''Contributing drainage area'''
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|||Typical || 100 m2 to 0.5 hectare || || || || 100 m2 to 0.5 hectare || || || || || || 0.5-2 acres preferred, max 5 acres, BR min. size 200 ft2 || || || || 5 acres || || || ||
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|||Maximum recommended || 0.8 hectare || || || || 0.8 hectare || || || || || || || || || || || || || ||
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|colspan="2" style="background:whit; color:red; text-align: center"| '''Setback from building Foundation(m)''' || 4 || || || 4 || 4 || 3 (clay), 5 (heavy clay) || || || || || || || || || see table 3 below || || || ||
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|colspan="2" style="background:whit; color:red; text-align: center"| '''(Impervious drainage/treatment facility) area''' || 5:1 to 15:1 || || || 5:1 to 15:1 || 5:1 to 15:1 || || < 5:1 loading ratio (DA to IA, DA 100% IP) || SA of BR <br>3-6% of<br> CDA || || || sized at 5-8 % of IPCDA || BR SA 3-6% of CDA || || || CDA < 5 acres || CDA < 2.5 acres || CDA < 5 acres || || BR SA: 6-15 % of IP area
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|colspan="2" style="background:whit; color:red; text-align: center"| '''Contributing Slope (%)''' || 1-5 || || || || 1-5 || || || || || || || || || || >1 % and < 33% || || || ||
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| Void space ratio || || 0.4 || || || || 0.4 || || || || || || || || || || || || || ||
|colspan="2" style="background:whit; color:red; text-align: center"| '''Slope of the surface, %''' || || || || || || || || || || || || || || || <= 1% || || || ||
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| Depth || || min. 300 mm || || || min. 300 mm || min. 300 mm || || || || || || || || || || || || || ||
|colspan="2" style="background:whit; color:red; text-align: center"| '''Water table depth''' || min. 1.0 m || || || || min. 1.0 m || > 1.8 || || || || || || || || || 3 ft. || || || ||
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| Diameter(clear stone) || || 50 mm || || || 50 mm || 50 mm || || || || || || || || || || || || || ||
|colspan="2" style="background:whit; color:red; text-align: center"| '''Outlet''' || || min. 100 mm above the bottom of the facility || || || || || || || || || || || || || Difference in elevation between inflow and outflow =4-6 ft (when underdrain is used) || || || ||
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| Pea gravel choking layer depth (mm) || || 100 || || || || 100 || 100 || || || || || || || || || || || || ||
|colspan="2" style="background:whit; color:red; text-align: center"| '''Maximum ponding depth above the filter bed surface''' || 150-250 mm || || || 250 mm || 150-250 mm || 350 mm || || || || || || || || || 18 inch || || || ||
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| diameter (mm) || || 3-10 || || || || 3-10 || || || || || || || || || || || || || ||
|colspan="2" style="background:whit; color:red; text-align: center"| '''Facilties receiving road runoff are not located within time of travel''' || 2 || || || || 2 || || || || || || || || || || || || || ||
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| Mulch || || || || || || || || || || || || || || || || || || || ||
|colspan="2" style="background:whit; color:red; text-align: center"| '''Wellhead Protection Areas (Year)''' || || || || || || || || || || || || || || || || || || ||
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| Depth || || 75 mm || <=75 mm || || 75 mm || 75 mm || 70-80 || || || || || || || || || || || || ||
|colspan="2" style="background:whit; color:red; text-align: center"| '''Drainage time of ponded water after the end of storm event , hr''' || || || || || 24 (48 recommd.) || < 48 (2 yr. design) || || || || || || || || || Max. 48 hr. || || || ||
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| Overflow || || || || || || || || || || || || || || || || || || || ||
|colspan="2" style="background:whit; color:red; text-align: center"| '''Inlet design for non-point source-grass filter buffer, m''' || || || || || || 0.5-3.0 || || || || || || || || || || || || ||
|-|colspan="2" style="background:whit; color:red; text-align: center"| '''Surface area/Contributing drainage area, %''' || 10-20 % || || || || 10-20 % || 3.0-30 % || || || || || || || || || (5-10)%- min. 200 ft2 || || || ||
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| Overflow invert above the filter bed surface || || 150-250 || || || <= 250 mm || || || || || || || || || || || || || || ||
|colspan="2" style="background:whit; color:red; text-align: center"| '''Contributing impervious area''' || || || || || || < 4.0 ha. || ` || || || || || || || || || || || < 15000 ft2 ||
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| Monitoring well || || || || || || || || || || || || || || || || || || || ||
|colspan="2" style="background:whit; color:red; text-align: center"| '''Facility flow velocity''' || || || || || || < 0.3 m/s-planted area || || || || || || || || || <= 1 ft/sec, tree-shurb-mulch cell || || || ||
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| Vertical perforated pipe diameter || || 100-150 mm || 100-150 mm || || 100-150 mm || 100-150 mm || || || || || || || || || || || || || ||
|colspan="2" style="background:whit; color:red; text-align: center"| || || || || || || < 0.9 m/s- mulched zone || || || || || || || || || <= 3 ft/sec , grassed cell || || || ||
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| Underdrain || || || || || || || || || || || || || || || || || || || ||
|colspan="2" style="background:whit; color:red; text-align: center"| '''Discharge velocity (outlet point)''' || || || || || || || || || || || || || || || < 4 ft/sec || || || ||
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| Required when infiltration rate || || < 15 mm/hr || || || < 15 mm/hr || || < 13 mm/hr || || || || || || || || || || || || ||
|colspan="2" style="background:whit; color:red; text-align: center"| '''Side slope (H:V)''' || || || || || || 4:1 preferred(max 2:1) || || || || || || || || || 3:1 (H:V) || || || ||
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| Diameter || || min. 100 mm(200 mm recommended) || min. 100 mm, 200 mm is recommended || || min. 200 mm || min. 100 mm(200 mm recommended) || 200 mm || || || || || || || || || 4 inches || || || ||
|colspan="2" style="background:whit; color:red; text-align: center"| '''Surface geometery (length/width)''' || || || || || || 2:1 || || || || || || || || || || || || ||
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| Depth above the gravel storage layer || || 100 mm || || || 100 mm || || || || || || || || || || || || || || ||
|colspan="2" style="background:whit; color:red; text-align: center"| '''Infiltration trench (optional)''' || || || || || || || || || || || || || || || || || || ||
|-
|-
| Available head beween the inflow point || || 1-1.5 m || || || || 1-1.5 m || || || || || || || Typical CDA 0.1-2.5 acres of 100% IP(<0.5 no underdrain), alternative to checking layer is needle punched non-woven geotextile || || || || || || ||
||| Depth, m || || || || || || 0.5-1.0 || || || || || || || || || || || || ||
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|-
| and the downstream stream drain invert || || || || || || || || || || || || || || || || || || || ||
||| Width, m || || || || || || 1.0-6.0 || || || || || || || || || || || || ||
|-
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| Contributing drainage area Typical || || 100 m2 to 0.5 hectare || || || || 100 m2 to 0.5 hectare || || || || || || 0.5-2 acres preferred, max 5 acres, BR min. size 200 ft2 || || || || 5 acres || || || ||
||| Bottom slope, % || || || || || || 0 || || || || || || || || || || || || ||
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| Maximum recommended || || 0.8 hectare || || || || 0.8 hectare || || || || || || || || || || || || || ||
|colspan="2" style="background:whit; color:red; text-align: center"| '''C/N Ratio''' || || || || || || || || || || || || || || 12:1-25:1 || || || || ||
|-
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| Setback from building Foundation(m) || || 4 || || || 4 || 4 || 3 (clay), 5 (heavy clay) || || || || || || || || || see table 3 below || || || ||
|}
{| class="wikitable"
! Table 1: !! Bioretention media composition !! !! !! !! !!
|-
|-
| || || '''Sand''' || '''Soil Fines''' || '''Organic''' || '''P-Index, milligram/kg''' || '''Gravel'''
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| Contributing Slope (%) || || 1-5 || || || || 1-5 || || || || || || || || || || >1 % and < 33% || || || ||
| Water Quality Blend || || 60-70 % || < 5% clay || 15-25 % || 10-30 ||
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| Slope of the surface, % || || || || || || || || || || || || || || || || <= 1% || || || ||
| Enhanced filtration blend || || 70-85 % || || 15-30 % || 10-30 ||
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| Water table depth || || min. 1.0 m || || || || min. 1.0 m || > 1.8 || || || || || || || || || 3 ft. || || || ||
| North Carolina WQB || || 85-88 % || 8-12 % || 3-5 % || 10-30 ||
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| Outlet || || || min. 100 mm above the bottom of the facility || || || || || || || || || || || || || Difference in elevation between inflow and outflow =4-6 ft (when underdrain is used) || || || ||
| Mix D by dry Weight || || 60-75 % || 25-40 % || 2-5 % || || < 12 %
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| Maximum ponding depth above the filter bed surface || || 150-250 mm || || || 250 mm || 150-250 mm || 350 mm || || || || || || || || || 18 inch || || || ||
| Mix E || || 60-80 % || 20-40 % MnDot 3890 grade 2 compost || 30% || ||
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| Facilties receiving road runoff are not located within time of travel || || 2 || || || || 2 || || || || || || || || || || || || || ||
| Mix F by weight || || 75% loamy sand || 25 % MnDot grade 2 compost || || ||
|}
{| class="wikitable"
! colspan="4" style="background: orange; color: black"|Table 2: Minimum bioretention soil media depths recommended to target specific stormwater pollutants
|-
|-
| wellhead protection areas, year || || || || || || || || || || || || || || || || || || || ||
!|Pollutant || Depth of Treatment with upturned elbow or elevated underdrain || Depth of Treatment without underdrain or with underdrain at bottom || Minimum depth
|-
|-
| Drainage time of ponded water after the end of storm event , hr || || || || || || 24 (48 recommd.) || < 48 (2 yr. design) || || || || || || || || || Max. 48 hr. || || || ||
| Total suspended solids (TSS) || Top 2 to 3 inches of bioretention soil media || Top 2 to 3 inches of bioretention soil media || Not applicable for TSS because minimum depth needed for plant survival and growth is greater than minimum depth needed for TSS reduction
|-
|-
| Inlet design for non-point source-grass filter buffer, m || || || || || || || 0.5-3.0 || || || || || || || || || || || || ||
| Metals || Top 8 inches of bioretention soil media || Top 8 inches of bioretention soil media || Not applicable for metals because minimum depth needed for plant survival and growth is greater than minimum depth needed for metals reduction
|-
|-
| Surface area/Contributing drainage area, % || || 10-20 % || || || || 10-20 % || 3.0-30 % || || || || || || || || || (5-10)%- min. 200 ft2 || || || ||
| Hydrocarbons || 3 to 4 inch Mulch layer, top 1 inch of bioretention soil media || 3 to 4 inches Mulch layer, top 1 inch of bioretention soil media || Not applicable for hydrocarbons because minimum depth needed for plant survival and growth is greater than minimum depth needed for hydrocarbons reduction
|-
|-
| Contributing impervious area || || || || || || || < 4.0 ha. || ` || || || || || || || || || || || < 15000 ft2 ||
| Nitrogen || From top to bottom of bioretention soil media; Internal Water Storage Zone (IWS) improves exfiltration, thereby reducing pollutant load to the receiving stream, and also improves nitrogen removal because the longer retention time allows denitrification to occur underanoxic conditions. || From top to bottom of bioretention soil media || Retention time is important, so deeper media is preferred (3 foot minimum)
|-
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| Facility flow velocity || || || || || || || < 0.3 m/s-planted area || || || || || || || || || <= 1 ft/sec, tree-shurb-mulch cell || || || ||
| Particulate phosphorus || Top 2 to 3 inches of bioretention soil media. || Top 2 to 3 inches of bioretention soil media. || Not applicable for particulate phosphorus because minimum depth needed for plant survival and growth is greater than minimum depth needed for particulate phosphorus reduction
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| || || || || || || || < 0.9 m/s- mulched zone || || || || || || || || || <= 3 ft/sec , grassed cell || || || ||
| Dissolved phosphorus || From top of media to top of submerged zone. Saturated conditions cause P to not be effectively stored in submerged zone. || From top to bottom of bioretention soil media || Minimum 2 feet, but 3 feet recommended as a conservative value; if IWS is included, keep top of submerged zone at least 1.5 to 2 feet from surface of media
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| Discharge velocity (outlet point) || || || || || || || || || || || || || || || || < 4 ft/sec || || || ||
| Pathogens || From top of soil to top of submerged zone. || From top to bottom of bioretention soil media || Minimum 2 feet; if IWS is included, keep top of submerged zone at least 2 feet from surface of media
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| Side slope (H:V) || || || || || || || 4:1 preferred(max 2:1) || || || || || || || || || 3:1 (H:V) || || || ||
| Temperature || From top to bottom of bioretention soil media; Internal Water Storage Zone (IWS) improves exfiltration, thereby reducing volume of warm runoff discharged to the receiving stream, and also improves thermal pollution abatement because the longer retention time allows runoff to cool more before discharge. || From top to bottom of bioretention soil media || Minimum 3 feet, with 4 feet preferred
|}
{| class="wikitable"
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! colspan="2" style="background: orange; color: black"|Table 3: Recommended minimum setback requirements
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| Infiltration trench (optional) || || || || || || || || || || || || || || || || || || || ||
! style="backgroung=green; color:white"|Setback from|| Minimum Distance (m)
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| Depth, m || || || || || || || 0.5-1.0 || || || || || || || || || || || || ||
| Property Line || 10
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| Width, m || || || || || || || 1.0-6.0 || || || || || || || || || || || || ||
| Building Foundation* || 10
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| Bottom slope, % || || || || || || || 0 || || || || || || || || || || || || ||
| Private Well || 50
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| C/N Ratio || || || || || || || || || || || || || || || 12:1-25:1 || || || || ||
| Septic System Tank/Leach Field || 35
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| || || || || || || || || || || || || || || || || || || || ||
| * Minimum with slopes directed away from the building ||
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|}