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Method 2: Gutter and Downpipe Capacity Determined by Calculations

After the catchment area has been determined by Catchment Area Calculation, the capacity of the gutters and downpipes can be determined by using the tables below.

 
external gutter or spouting
= 100 mm²
internal gutter
= 200 mm²
vertical external downpipe
= 50 mm²
horizontal downpipe <15°
= 100 mm²
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For rainfall of more than 100 mm/h the catchment area must be factorised to allow for the increased rainfall in line with the Rainfall Intensity Map.
80mm/hr
multiply by a factor
0.8
100mm/hr
multiply by a factor
1.0
150mm/hr
multiply by a factor
1.5
200mm/hr
multiply by a factor
2.0
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10° – 25°
Multiply by a factor
1.1
25° – 35°
Multiply by a factor
1.2
35° – 45°
Multiply by a factor
1.3
45° – 55°
Multiply by a factor
1.4
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Example Calculation (Finding Capacities Using the Simplified method)

GivenFreely exposed mono-slope roof
Tauranga
Sloping rafter length 5.9 m
Length of building 10 m
Roof pitch 24°
Step 1:From Rainfall Intensity Maprainfall = 150 mm/hr
 From Rainfallfactor = 1.5
Step 2:From Pitchesfactor = 1.1
Step 3To find the factorised catchment area from Catchment Area Calculation Table
 59 m² x 1.1= 65 m²
Calculation
65 x 1.5 x 1.1= 107 m²
External gutter= 10 0 mm² x 107= 10,700 mm²
Internal gutter= 200 mm² x 107= 21,400 mm²
Vertical downpipe= 50 mm² x 107= 5,350 mm²
Horizontal downpipe <15°= 100 mm² x 107= 10,700 mm²
Step 4Find suitable spouting and downpipe from Standard Gutter Capacity and Standard Down Pipe Capacity.
External Gutter or Spouting= standard 175 rectangularOK
One vertical downpipe= 100mm round or 100mm x 75OK
OR1/4 round with two downpipes(one at either end see drawing 8.2.2.)OK
Two vertical downpipes= 63mm roundOK
Step 5Internal gutter= custom-made = 220 x 100 = 22,000OK
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Standard Gutter Capacity

Sizemm²
125mm 1/4 round5 000
125mm x 75mm rectangular9 375
175mm x 125mm rectangular21 875
300mm x 125mm rectangular37 500
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Standard Down Pipe Capacity

RoundSize (mm2)Rectangular/squareSize (mm2)
65mm3 318100 x 50 mm4 500
80mm5 027100 x 75 mm6 750
100mm7 854100 x 100 mm9 000
125mm12 272  
150mm17 671N.B. square and rectangular downpipe capacities have been depreciated by 10%)
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An internal gutter normally requires 20 mm freeboard but using this simplified method to calculate catchment for in areas with a rainfall of more than100 mm/hr, and having a catchment basis of 200 mm/hr, an internal gutter would be over-designed if additional freeboard was added.

Similarly, internal downpipes, having no overflow to the exterior of the building, could be under-designed and their capacity should be increased by 25%.

N.B. Flooding is usually the result of a faulty drain, rather than the downpipe.

For domestic and small commercial buildings standard spouting, gutters and downpipes are the most economical way to comply with the capacity requirements, but if large gutters are neededthey should be custom made.

The position of the outlet can make a significant difference to the size of the gutters and downpipes

 

Gutter Capacity

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As can be seen Gutter Capacity in , when the catchment area is identical, the gutter capacity at A can be reduced by half at B and to one quarter at C. The downpipe capacity required at both B and C is half that of A.

The preferred proportion for an internal gutter is 2:1, i.e., the sole of the gutter should be twice the height. The minimum height of an internal gutter should be 70mm, but the recommended height is 1/60 of the length.

The recommended maximum length of a coated steel gutter, without an expansion provision, should be 12 m. However, 6 m can be the maximum length if the outlets are spaced at 12 m as shown in Gutter Capacity. Non-ferrous metal gutters have length restrictions on their length based on their thickness.

When an external spouting has a dropper outlet or an external angle, the capacity of the spouting should be lowered by 10% for each outlet or angle. Outlets should be placed within 2 m of an angle.

Dropper outlets must not be used on internal gutters.
Sumps or rainwater heads must be used to drain all internal gutters and must, also, be placed at gutter angles.

 

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These methods have been replaced by online capacity calculating tools.

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