2,681
edits
Changes
Jump to navigation
Jump to search
Line 1:
Line 1: + + + + + + + + + + + + + + + + + + + − + + Line 12:
Line 32: + + + + + + + Line 17:
Line 44: + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + Line 34:
Line 125: − + − + − + − − <math>A_O=\frac{2A_{P}}{t\ C(2g^{0.5})}\left ( h_{1}^{0.5}-h_{2}^{0.5} \right )</math> − {{planlist|1=Where − * t = Drawdown time (s) − * A<sub>p</sub> = Surface area of the pond(m<sup>2</sup>) − * C = Discharge coefficient (typically 0.63) − * A<sub>O</sub> = Cross-sectional area of the orifice(m<sup>2</sup>) − * g = Gravitational acceleration constant (9.81 m/s<sup>2</sup>) − * h<sub>1</sub> = Starting water elevation above the orifice (m) − * h<sub>2</sub> = Snding water elevation above the orifice (m)}} + + + + + + + + + Line 56:
Line 146: − {{:flow through riser}}+ − + − + Line 70:
Line 160: + + + + + − + + +
→Planning considerations
<imagemap>
File:Dry pond-labelled update.png|thumb|700 px|The following image showcases an extended detention dry pond. For more details click [https://dr6j45jk9xcmk.cloudfront.net/documents/1757/195-stormwater-planning-and-design-en.pdf here.]<ref> Ministry of the Environment. Stormwater Management Planning and Design Manual. https://dr6j45jk9xcmk.cloudfront.net/documents/1757/195-stormwater-planning-and-design-en.pdf. 2003. Accessed 3 September, 2021</ref>. <span style="color:red">''A note: The following is an "image map", feel free to explore the image with your cursor and click on highlighted labels that appear to take you to corresponding pages on the Wiki.''</span>
rect 704 662 1517 837 [[Pretreatment features| Sediment Forebays]]
rect 165 1106 458 1269 [[Inlets| Inlet]]
rect 676 1673 930 1761 [[Inlets| Inlet]]
rect 34 1630 434 1987 [[Stone| Stone Erosion Control]]
rect 934 1661 1065 1848 [[Stone| Stone Erosion Control]]
rect 1879 1479 2474 1626 [[Berms| Forebay Berms]]
rect 2664 1535 2958 1689 [[Berms| Berms]]
rect 1514 349 2406 599 [[Plant lists| Vegetation]]
rect 2648 4 3565 178 [[Flow Control| Outlet]]
rect 3815 325 4072 539 [[Flow Control| Outlet]]
rect 3826 611 3886 480 [[Pipes| Outlet Pipe]]
</imagemap>
[[File:Dryponds map.PNG|thumb|link=https://goo.gl/68Ewnz|Click here to see map of Dry Ponds in Scarborough and surroundings]]
See also [[Water squares]]
{{TOClimit|2}}
{{TOClimit|2}}
Also known as infiltration basins or detention basins (according to their features). Dry ponds are a grassed alternative to [[bioretention]] cells. This permits the landscape to be accessed and used as an amenity space.
Also known as infiltration basins or [[detention basins]] (according to their features). Dry ponds are a grassed alternative to [[bioretention]] cells. This permits the landscape to be accessed and used as an amenity space.
==Overview==
==Overview==
Dry ponds are recommended as [[flood control]] structures to accommodate occasional excess overflow downstream of other structural BMPs. They should be integrated into the landscape as useful, accessible public space.
Dry ponds are recommended as [[flood control]] structures to accommodate occasional excess overflow downstream of other structural BMPs. They should be integrated into the landscape as useful, accessible public space.
Dry ponds are a useful tool for managing flooding during larger storm events. They are well suited to being placed downstream of other smaller distributed BMPs for occasional backup flood protection.
Dry ponds are a useful tool for managing flooding during larger storm events. They are well suited to being placed downstream of other smaller distributed BMPs for occasional backup flood protection.
Where possible they should be integrated into amenity space, given that users rarely wish to continue outdoor activities during such intense rainstorms.
Where possible they should be integrated into amenity space, given that users rarely wish to continue outdoor activities during such intense rainstorms.
Compared to wet ponds “Dry ponds… …are less expensive to install, require less maintenance and may involve less liability for the communities around them.”
https://www.fairfaxcounty.gov/soil-water-conservation/understanding-stormwater-ponds
===Infiltration===
For information about constraints to infiltration practices, and approaches and tools for identifying and designing within them see [[Infiltration]].
For guidance on infiltration testing and selecting a design infiltration rate see [[Design infiltration rate]].
===Risk===
===Risk===
==Design==
==Design==
{|{| class="wikitable"
|+Design parameters for extended detention<ref name="MOE">Ontario Ministry of Environment. (2003). Stormwater Management Planning and Design Manual. Retrieved January 15, 2017, from https://www.ontario.ca/document/stormwater-management-planning-and-design-manual/stormwater-management-plan-and-swmp-design</ref>
!Element
!Design Objective
!Criteria
|-
|Drainage Area
|Minimum orifice size (see [[flow control]])
|style="text-align: left|5 Ha (≥10 Ha preferred)
|-
|Treatment Volume
|Provision of appropriate level of protection
|style="text-align: left|See [[#.|below]]
|-
|Active Storage
|Detention
|style="text-align: left|[[Total Suspended solids|Suspended solids]] settling 24 hrs (48 hrs preferred)
|-
|Forebay
|Pre-treatment
|style="text-align: left|
*Minimum depth: 1 m;
*Sized to ensure non-erosive velocities leaving forebay;
|-
|Length-to-Width Ratio
|Maximize flow path and minimize short-circuiting potential
|style="text-align: left|
*Overall: minimum 3:1;
*4:1 preferred
|-
|Depth
|Safety
|style="text-align: left|Maximum 3 m
|-
|Side slopes (See also [[berms]])
|Safety
|style="text-align: left|
*4:1 average
|-
|Inlet
|Avoid clogging/freezing
|style="text-align: left|
*Minimum 450 mm diameter inlet pipe;
*Preferred pipe slope: > 1 %;
*If submerged, obvert 150 mm below expected maximum ice depth
|-
|Outlet (See also [[flow control]])
|Avoid clogging/freezing
|style="text-align: left|
*Minimum: 450 mm diameter outlet pipe;
*Preferred pipe slope: > 1 %;
*If orifice control used, 75 mm diameter minimum;
*Minimum 100 mm orifice preferable
|-
|Maintenance access
|Access for backhoes or dredging equipment
|style="text-align: left|
*Provided to approval of Municipality;
*Provision of maintenance drawdown pipe preferred
|-
|Buffer
|Safety
|style="text-align: left|Minimum 3 m above maximum water quality/erosion control water level
|}
The bottom of a dry pond should be flat to encourage uniform ponding and infiltration across the entire surface. Recommended tolerance on base levels 10 mm in 3m.
The bottom of a dry pond should be flat to encourage uniform ponding and infiltration across the entire surface. Recommended tolerance on base levels 10 mm in 3m.
http://www.iowastormwater.org/documents/filelibrary/files/infiltration_bmps/Outlet_Structures_48B13497A39A1.pdf
http://www.iowastormwater.org/documents/filelibrary/files/infiltration_bmps/Outlet_Structures_48B13497A39A1.pdf
Detention time
===Detention time===
A detention time of 24 hours should be targeted in all instances. Where this necessaitates a very low outflow, a [[Flow control#Vortex valve|vortex valve]] or similar is recommended over an orifice or pipe restiction. The detention time is approximated by the drawdown time.
A detention time of 24 hours should be targeted in all instances. Where this necessaitates a very low outflow, a [[Flow control#Vortex valve|vortex valve]] or similar is recommended over an [[orifice]] or pipe restiction. The detention time is approximated by the drawdown time.
The drawdown time in the pond can be estimated using the classic falling head orifice equation which assumes a constant pond surface area<ref>Ontario Ministry of Environment. (2003). Stormwater Management Planning and Design Manual. Retrieved January 15, 2017, from https://www.ontario.ca/document/stormwater-management-planning-and-design-manual/stormwater-management-plan-and-swmp-design</ref>. This assumption is generally not valid, and a more accurate estimation can be made if the equation is solved as a differential equation. This is easily done if the relationship between pond surface area and pond depth is approximated using a linear regression.
The drawdown time in the pond can be estimated using the classic falling head orifice equation which assumes a constant pond surface area<ref name="MOE"/>. This assumption is generally not valid, and a more accurate estimation can be made if the equation is solved as a differential equation. This is easily done if the relationship between pond surface area and pond depth is approximated using a linear regression:
<math>A_o=\frac{2A_{P}}{t\ C(2g^{0.5})}\left ( h_{1}^{0.5}-h_{2}^{0.5} \right )</math>
{{plainlist|1=Where
* ''t'' = Drawdown time (s)
* ''A<sub>p</sub>'' = Surface area of the pond(m<sup>2</sup>)
* ''C'' = Discharge coefficient (typically 0.63)
* ''A<sub>o</sub>'' = Cross-sectional area of the orifice(m<sup>2</sup>)
* ''g'' = Gravitational acceleration constant (9.81 m/s<sup>2</sup>)
* ''h<sub>1</sub>'' = Starting water elevation above the orifice (m)
* ''h<sub>2</sub>'' = Ending water elevation above the orifice (m)}}
C2
C2
===Excess flow control===
===Excess flow control===
See [[Flow through riser]]
https://www.fhwa.dot.gov/engineering/hydraulics/software/hy8/
*https://www.fhwa.dot.gov/engineering/hydraulics/software/hy8/
https://www.hydrologystudio.com/no-fail-detention-pond-design/
*https://www.hydrologystudio.com/no-fail-detention-pond-design/
==Modeling==
==Modeling==
==External links==
==External links==
*[https://www.edmonton.ca/residential_neighbourhoods/PDF/handout_nov_ld.pdf Edmonton Dry Ponds]
*[https://www.edmonton.ca/residential_neighbourhoods/PDF/handout_nov_ld.pdf Edmonton Dry Ponds]
==To review==
https://www.google.com/imgres?imgurl=http%3A%2F%2Fwww.calgary.ca%2FUEP%2FWater%2FPublishingImages%2FBraeside-Dry-Pond-610px.jpg&imgrefurl=http%3A%2F%2Fwww.calgary.ca%2FWWCDI&docid=RBtJ2qx0jhourM&tbnid=-OUrotj9LMYmfM%3A&vet=10ahUKEwjpwbyNt-bfAhXlguAKHS1pDtQQMwhjKBcwFw..i&w=610&h=299&bih=723&biw=1536&q=traplow%20stormwater&ved=0ahUKEwjpwbyNt-bfAhXlguAKHS1pDtQQMwhjKBcwFw&iact=mrc&uact=8
https://www.fairfaxcounty.gov/publicworks/sites/publicworks/files/assets/documents/drypond_1.pdf
----
----
[[category: Modeling]]
[[Category:Infiltration]]
[[Category:Green infrastructure]]
[[Category: Modeling]]