A.
The design of all storm water improvements within the development shall be such that all surface waters occurring within the development, as well as all surface waters flowing onto and/or through the development from proposed future additional developments upstream, shall be conveyed through the development without damage to any improvement, building site, or dwelling which may be constructed within the development. All storm drainage facilities within the development shall be designed to adequately convey the storm water runoff from the ultimate development of the drainage basin or watershed.
B.
Also, all storm drainage facilities to be constructed outside of the subdivision shall be designed to adequately convey the storm water runoff from the ultimate development of the drainage basin or watershed lying within and above the development to a natural watercourse having capacity to handle the generated present and future runoff. These waters shall be conveyed without damage to any improvement, building, or dwelling to the anticipated natural watercourse having capacity to carry the water or to a point designated by the City.
C.
The general capacity of the drainage facilities shall be determined by use of the Manning equation as stated below:
Q | = | A(1.486) | R0.667 | S 0.5 | |
n |
Where: | |||
Q | = | flow rate in cubic feet per second | |
n | = | Manning roughness coefficient (see Table IV) | |
A | = | cross-sectional area in square feet | |
R | = | hydraulic radius in feet | |
S | = | slope in ft./ft. | |
D.
The minimum velocity at design flow shall be two feet per second using the Manning equation above.
E.
Predicted surcharging and flooding due to a one-hundred-year design storm imposed upon the proposed facilities will also be calculated.
F.
The design of drainage facilities shall allow for a minimum freeboard of 0.75 feet between the top of the inlet grade or manhole cover and the design surface water elevation.
G.
Proper allowance for head losses through junction structures, inlets, and manholes shall be made in determining the hydraulic grade line or water surface elevations.
Table IV. | |||
|---|---|---|---|
Manning n Values | |||
Type of Conduit or Channel | Roughness Coefficient n | ||
Concrete gutters | .015 | ||
Corrugated metal pipe | .024 | ||
Reinforced concrete pipe — 12" to 21" | .015 | ||
Reinforced concrete pipe — 24" or larger | .013 | ||
Asbestos cement pipe | .012 | ||
Lined channels: | |||
Concrete | .014 | ||
Air blown mortar | .016 | ||
Bituminous | .018 | ||
Sacked concrete | .025 | ||
Loose riprap | .035 | ||
Grassed | .035 | ||
Concrete—Steel troweled or smooth-form finish | .013 | ||
Concrete—Wood float or broomed finish | .015 | ||
Asphaltic concrete | .017 | ||
PVC | .012 | ||