Difference between revisions of "Curb cuts"

Revision as of 18:11, 31 October 2017

Sizing[edit]

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To completely capture linear flow travelling along a gutter perpendicular to a curb inlet, the inlet must be of width:: $W_{T}=0.817Q^{0.42}S_{0}^{0.3}\left({\frac {1}{nS_{x}}}\right)^{0.6}$

Where:

W_T is the width of the inlet for complete capture (m),
Q is the design flow perpendicular to the inlet (m³/s)
S₀ is the longitudinal slope ratio
n is Manning's 'n' (between 0.012 and 0.016 for concrete, depending on surface treatment), and
S_x is the cross slope ratio

Where the inlet width is constrained or the intention is to capture only a proportion of the flow, the ratio of flow entering the curb inlet may be calculated:: $R_{c}=1-\left(1-{\frac {W}{W_{T}}}\right)^{1.8}$

Where:

R_c is the proportion of flow entering the curb cut, and
W is the available curb cut width (m)

Example[edit]

A curb cut of 3 m is proposed as an inlet for an offline bioretention cell receiving runoff from an adjacent roadway. The gutter and the curb are made from smooth concrete with Manning's 'n' = 0.013. The x-slope is 3% and the longitudinal slope of the road is 2%. The design storm produces flow of 0.08 m³/s.

The width of inlet to capture 100% of this flow is:: $W_{T}=0.817\times (0.08)^{0.42}\times (0.02)^{0.3}\left({\frac {1}{0.013\times 0.03}}\right)^{0.6}=9.71\ m$

The proportion of water entering the bioretention cell under these flow conditions would be:: $R_{c}=1-\left(1-{\frac {3}{9.71}}\right)^{1.8}=0.48$

48% of the 0.08 m³/s (i.e. 0.038 m³/s) would enter the bioretenteion cell through the inlet as designed.

Curb cuts gallery[edit]

OPSD 605.040 Asphalt Spillway inlet to biofilter swale and road catch basin overflow outlet. County Court Blvd., Brampton, ON.
This curb cut has been sawn into existing concrete as part of a retrofit. Note the temporary (erosion log) and permanent stone erosion control measures in place. Mississauga Road, ON.
Curb cut used as a controlled overflow route from permeable pavements to a bioretention facility with monitoring well, Lake Simcoe Region Conservation Authority, Newmarket, ON.
Curb cut into a bioretention facility in Hinsdale, IL. Stone in the center of the facility reduces erosion and dissipates power inflow around the inlet area. A monitoring/maintenance well can be seen in the foreground. Photo credit: CNT
Curb cut into a bioretention facility in Brown Deer, WI. Stone is used to reduce erosion around the inlet area. Photo credit: Aaron Volkening
Curb cut into a bioretention facility in Ajax, ON.
Stone lined inlet at IMAX site in Mississauga
The grading around this inlet prevents flow in the correct direction. i.e. from the pavement onto the grass. Not too critical in this example, as the surface is permeable pavements.
Curb cut into a rain garden on a green street in Newmarket, ON.
Curb cut leading into a small bioretention cell in Brampton, ON.
Curb cut leading to a bioswale in Brampton, ON.

@@ Line 29: / Line 29: @@
 <math>R_c=1-\left ( 1-\frac{3}{9.71} \right )^{1.8}= 0.48</math>
-% of the 0.08 m<sup>3</sup>/s flow would enter the bioretenteion cell through the inlet as designed.
+% of the 0.08 m<sup>3</sup>/s (i.e. 0.038 m<sup>3</sup>/s) would enter the bioretenteion cell through the inlet as designed.
 ==Curb cuts gallery==

Difference between revisions of "Curb cuts"

Revision as of 18:11, 31 October 2017

Sizing[edit]

Example[edit]

Curb cuts gallery[edit]

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