Size and placement of rooftop equipment may necessitate additional roof drains.
Roof area per roof drain.
Determine leader or pipe size.
Divided by 3 460 sq.
Pipe cross section drainage area.
Total roof area 500 by 200 100 000 sq.
Area roof will require 100 000 3070 32 5 or 33 roof drains for ideal drainage.
This should be considered when connecting gutters and downspouts.
For a 4 hourly rainfall and 4 leader each drain can handle 4 600 sq.
The table is based on rainfall intensity 100 mm per hour 4 inches per hour.
Roof pitch affects the actual area of the roof.
Equals 32 6 or 33 drains required.
Flat roof drainage capacity of a single drain pipe or leader.
Divide total roof area by area found in step 3 to obtain the number of drains required example.
Doubling the number of downspouts halves the required capacity for each.
After studying building plan and physical arrangement assume that 6 leaders are.
For instance a 7 12 roof pitch means that the roof rises 7 inches for every 12 horizontal inches.
5 inch hr.
Gutters and downspouts are vulnerable for obstructions caused branches and leafs from surrounding trees and similar.
Number of roof leaders required is 29 100 000 sq.
3 inch hr.
Calculate total roof area.
Rainfall intensity should always be checked with the local authorities.
According to the chart for 1 8 slope per 12 of pipe for 5 000 square feet of roof area with a 6 per hour of rainfall the required pipe size is 8.
Rainfall rate inches per hour.
6 inch hr.
Ft therefore 29 roof drains would be required.
Determine rate of rainfall for this example use 4.
Roof area the locale s rainfall intensity and gutter capacity determine how many square inches of downspout are needed.
A square inch of downspout can drain 1 200 square feet of roof during a rain with an intensity of one inch per hour.
Divided by the 4 600 sq.
There are 5 easy steps to figure out how many drains your commercial roofing project will need.
To size the vertical roof drain for the same parameters 5 000 square feet of room area and 6 per hour of rain consult table 1106 2 figure 3.
Each 4 drain size in a 6 hourly rainfall area will accommodate drainage of 3 070 sq.
When placing roof drains it is good design practice to locate the drains no more than 50 feet from the roof perimeter nor more than 100feet apart.
Calculate the total roof area by multiplying its length by width.
It is important to remember that no roof area should ever have less than two roof drains.
Therefore the 100 000 sq.
4 inch hr.
1 inch hr.
It affects walkability as well as drainage and roofs in areas of high rain or snowfall tend to have steeper pitches.
5 19 6 sq in.
Maximum horizontal projected roof area that can be drained in square feet.
Roof pitch is a determining factor for cost of the roof as well as the roof area and the type of materials used.