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Q-2, r. 9.01 - Design code of a storm water management system eligible for a declaration of compliance
Section 25
Disposition versions
25. The following rules apply to factor, tf, of equation 3-3:
(1) the water flow time, tf, for a storm water management system constituted of ditches is established using equation 3-5:
Equation 3-5:
where:
| tf | = | Water flow time in the storm water management system constituted of ditches (min); | |
| L | = | Length of water flow into ditches between the intake and the connection point to the storm water management system (m); | |
| n | = | Manning’s coefficient of the ditches determined in Table 3.6 (s/m1/3) | |
| R | = | Hydraulic radius of the ditches established by assuming that the design flow flows into the ditch. If a number of ditch geometries are present on the route, L, the geometry showing the highest hydraulic radius value must be used (m); | |
| S | = | Average slope of water flow (m/m); | |
| 60 | = | Conversion coefficient for the units. |
Table 3.6 Manning’s coefficients
| Type of ditch | Manning’s coefficient | |
| Unprotected ditches A) Earth | ||
| Without vegetation | 0.018 | |
| Grassed | 0.025 | |
| Sparse bush | 0.080 | |
| Dense bush | 0.120 | |
| B) Rock | ||
| Smooth and even | 0.038 | |
| Irregular with roughness | 0.043 | |
| Protected ditches | ||
| A) Concrete | ||
| Unfinished concrete | 0.015 | |
| Finishing | 0.013 | |
| B) Concrete apron | ||
| Stone and mortar walls | 0.018 | |
| Concrete block walls | 0.023 | |
| Armour stone walls (riprap) | 0.025 | |
| C) Gravel apron | ||
| Concrete walls | 0.019 | |
| Stone and mortar walls | 0.022 | |
| Armour stone walls (riprap) | 0.028 | |
| D) Brick | 0.016 | |
| E) Bituminous concrete | 0.015 | |
| F) Wood | 0.012 | |
| Road and drainage ditches | ||
| A) Depth < 200 mm | ||
| Grass 50 mm | 0.058 | |
| Grass from 100 to 150 mm | 0.070 | |
| Hay 300 mm | 0.130 | |
| Hay 600 mm | 0.215 | |
| B) depth from 200 to 450 mm | ||
| Grass 50 mm | 0.043 | |
| Grass from 100 to 150 mm | 0.050 | |
| Hay 300 mm | 0.105 | |
| Hay 600 mm | 0.145 | |
(2) the water flow time, tf, for a storm water management system constituted of pipes is established using equation 3-6:
where :
| tf | = | Water flow time in the storm water management system constituted of pipes (min); | |
| L | = | Length of water flow into the pipe between the intake and the connection point to the storm water management system (m); | |
| n | = | Manning’s coefficient of the pipes determined in Table 3.7 (s/m1/3) | |
| D | = | Diameter of the pipe (m). If a number of pipes are present on the route, L, an average diameter must be used; | |
| S | = | Average slope of water flow (m/m); | |
| 60 | = | Conversion coefficient for the units. |
Table 3.7 Manning’s coefficients
| Type of pipe | Roughness or corrugation | Manning’s coefficient | |
| Round concrete pipe | Smooth | 0.013 | |
| Rectangular concrete pipe | Timber formwork (rough) | 0.016 | |
| Timber formwork (smooth) | 0.014 | ||
| Steel formwork (smooth) | 0.013 | ||
| Corrugated steel pipe Annular or helical corrugations | 68 over 13 mm (annular) | ||
| Unpaved | 0.024 | ||
| 25% paved | 0.021 | ||
| 100% paved | 0.012 | ||
| 68 over 13 mm (helical) | |||
| Unpaved | Variable with D | ||
| 25% paved | Variable with D | ||
| 100% paved | 0.012 | ||
| 76 over 25 mm (helical) | Variable with D | ||
| 150 over 25 mm | 0.024 | ||
| 125 over 25 mm | 0.026 | ||
| 75 over 25 mm | 0.028 | ||
| 150 over 50 mm | 0.035 | ||
| Corrugated steel pipe Multiplates | Variable corrugation | 0.028 – 0.033 | |
| Thermoplastic pipe | Smooth inside | 0.010 | |
| Corrugated inside | 0.020 | ||
| Cast iron pipe | Smooth | 0.013 | |
| Steel pipe | Smooth | 0.011 | |
| Wood culvert | Smooth | 0.016 | |
In force: 2020-12-31
25. The following rules apply to factor, tf, of equation 3-3:
(1) the water flow time, tf, for a storm water management system constituted of ditches is established using equation 3-5:
Equation 3-5:
where:
| tf | = | Water flow time in the storm water management system constituted of ditches (min); | |
| L | = | Length of water flow into ditches between the intake and the connection point to the storm water management system (m); | |
| n | = | Manning’s coefficient of the ditches determined in Table 3.6 (s/m1/3) | |
| R | = | Hydraulic radius of the ditches established by assuming that the design flow flows into the ditch. If a number of ditch geometries are present on the route, L, the geometry showing the highest hydraulic radius value must be used (m); | |
| S | = | Average slope of water flow (m/m); | |
| 60 | = | Conversion coefficient for the units. |
Table 3.6 Manning’s coefficients
| Type of ditch | Manning’s coefficient | |
| Unprotected ditches A) Earth | ||
| Without vegetation | 0.018 | |
| Grassed | 0.025 | |
| Sparse bush | 0.080 | |
| Dense bush | 0.120 | |
| B) Rock | ||
| Smooth and even | 0.038 | |
| Irregular with roughness | 0.043 | |
| Protected ditches | ||
| A) Concrete | ||
| Unfinished concrete | 0.015 | |
| Finishing | 0.013 | |
| B) Concrete apron | ||
| Stone and mortar walls | 0.018 | |
| Concrete block walls | 0.023 | |
| Armour stone walls (riprap) | 0.025 | |
| C) Gravel apron | ||
| Concrete walls | 0.019 | |
| Stone and mortar walls | 0.022 | |
| Armour stone walls (riprap) | 0.028 | |
| D) Brick | 0.016 | |
| E) Bituminous concrete | 0.015 | |
| F) Wood | 0.012 | |
| Road and drainage ditches | ||
| A) Depth < 200 mm | ||
| Grass 50 mm | 0.058 | |
| Grass from 100 to 150 mm | 0.070 | |
| Hay 300 mm | 0.130 | |
| Hay 600 mm | 0.215 | |
| B) depth from 200 to 450 mm | ||
| Grass 50 mm | 0.043 | |
| Grass from 100 to 150 mm | 0.050 | |
| Hay 300 mm | 0.105 | |
| Hay 600 mm | 0.145 | |
(2) the water flow time, tf, for a storm water management system constituted of pipes is established using equation 3-6:
where :
| tf | = | Water flow time in the storm water management system constituted of pipes (min); | |
| L | = | Length of water flow into the pipe between the intake and the connection point to the storm water management system (m); | |
| n | = | Manning’s coefficient of the pipes determined in Table 3.7 (s/m1/3) | |
| D | = | Diameter of the pipe (m). If a number of pipes are present on the route, L, an average diameter must be used; | |
| S | = | Average slope of water flow (m/m); | |
| 60 | = | Conversion coefficient for the units. |
Table 3.7 Manning’s coefficients
| Type of pipe | Roughness or corrugation | Manning’s coefficient | |
| Round concrete pipe | Smooth | 0.013 | |
| Rectangular concrete pipe | Timber formwork (rough) | 0.016 | |
| Timber formwork (smooth) | 0.014 | ||
| Steel formwork (smooth) | 0.013 | ||
| Corrugated steel pipe Annular or helical corrugations | 68 over 13 mm (annular) | ||
| Unpaved | 0.024 | ||
| 25% paved | 0.021 | ||
| 100% paved | 0.012 | ||
| 68 over 13 mm (helical) | |||
| Unpaved | Variable with D | ||
| 25% paved | Variable with D | ||
| 100% paved | 0.012 | ||
| 76 over 25 mm (helical) | Variable with D | ||
| 150 over 25 mm | 0.024 | ||
| 125 over 25 mm | 0.026 | ||
| 75 over 25 mm | 0.028 | ||
| 150 over 50 mm | 0.035 | ||
| Corrugated steel pipe Multiplates | Variable corrugation | 0.028 – 0.033 | |
| Thermoplastic pipe | Smooth inside | 0.010 | |
| Corrugated inside | 0.020 | ||
| Cast iron pipe | Smooth | 0.013 | |
| Steel pipe | Smooth | 0.011 | |
| Wood culvert | Smooth | 0.016 | |
