Joe, I love this sort of thing.
Nice little utility for solving head loss.
More then likely the pipe is c-900 DR-18 which can be found here
PDF file of same
6" Class 150 has in inside diameter of 6.134".
The design coefficient (we call this C-Value) is 150.
Assume a flow of 920 gpm just to make things easy.
Your input should look like this
When you calculate the answer pops up like this
At 920 gpm the head loss will be 1.9 psi per 100 feet.
Doing the same thing for 600 gpm we determine the loss to be .90 psi per 100 feet..
Assuming there's not any fire hydrants downstream the city tap we will not have to add the hose stream demand until we get to the city tap. This makes a huge difference as all we will be needing is somewhere around 250 to 300 gpm for sprinkler. Let's figure worst case at 300 gpm.
At 300 gpm our head loss is .20 psi per 100 feet which is pratically negligable.
At 300 gpm the friction loss is .002 or just 2.0 psi per thousand feet.
What we need to do now is figure the total equivalent feet and since I didn't see the actual figures I will make some assumptions and you can follow it through yourself.
Count up the linear feet of pipe from the point of city connection to the flange and spigot piece. Let's assume it's 450 feet.
Now count the total equivalent feet for fittings using this table
Let's say we have two 6" tees, a gate valve and four elbows. One of these tees is the actual tapping sleeve.
From the table Joe, I love this sort of thing.
Nice little utility for solving head loss.
More then likely the pipe is c-900 DR-18 which can be found here
PDF file of same
6" Class 150 has in inside diameter of 6.134".
The design coefficient (we call this C-Value) is 150.
Assume a flow of 920 gpm just to make things easy.
Your input should look like this
When you calculate the answer pops up like this
At 920 gpm the head loss will be 1.9 psi per 100 feet.
Doing the same thing for 600 gpm we determine the loss to be .90 psi per 100 feet..
Assuming there's not any fire hydrants downstream the city tap we will not have to add the hose stream demand until we get to the city tap. This makes a huge difference as all we will be needing is somewhere around 250 to 300 gpm for sprinkler. Let's figure worst case at 300 gpm.
At 300 gpm our head loss is .20 psi per 100 feet which is pratically negligable.
At 300 gpm the friction loss is .002 or just 2.0 psi per thousand feet.
What we need to do now is figure the total equivalent feet and since I didn't see the actual figures I will make some assumptions and you can follow it through yourself.
Count up the linear feet of pipe from the point of city connection to the flange and spigot piece. Let's assume it's 450 feet.
For purposes of example we will assume you have one tee, one gate valve and four elbows.
Now count the total equivalent feet for fittings using this table
A 6" tee is 30', each elbow (being underground these are considered long turn elbows) is 9' and the gate valve is 3' for a total equivalent fitting length of 69' which, since we are using a C-Value of 150, must be multiplied by a factor of 1.51 and our actual equivalent length is 104'.
104' of fittings plus 450 feet of pipe gives us a total equivalent length of 554'.
Flowing 300 gpm our total head loss will be just (554*.002) = 1.1 psi. This is very little loss.
At 600 gpm our total head loss would be (554 * .009) = 5.0 psi.
Word of caution that has bitten me in the ass before. Be very careful when assigning equivalent lengths to tapping sleeves; while shaped like a tee they are anything but.
Typically the "coupon" from a 6" tap is going to be around 5" and it's going to be a sharp radius turn. To be on the safe side I would count the equivalent fitting length of the tee at 200 feet instead of the 30' shown on the chart. In other words the total equivalent feet I would use would be 811'. At 811' the loss at 300 gpm is 1.6 psi and 7.3 psi for 600 gpm.
This might be useful.
Let me post this and I will do a followup. (And double check my math... it's the end of the day, my back hurts and I don't feel like double checking myself. If it were my job I would check it three times but....
