What is your static pressure at the base of the tower? ________________________
What is the static pressure loss through the last head (A)? ________________________
What is your friction loss for each of the following?
Pipe A __________________________
Pipe B __________________________
Pipe C __________________________
Main Line __________________________
Service Line __________________________
Fittings __________________________
(Assume this friction loss is equal to 10% of the friction loss of all pipes)
Valve __________________________
Meter __________________________
Total friction loss from point of connection (P.O.C.) to Head A when valve is operating:
__________________________
185' Elevation
Water
Meter
1”
100 PEB
Valve
Rotors
7.5 GPM Each
Service Line
1.25” Schedule 40
PVC 225'
19' Poly 1”
13' 1” Poly 18' Poly 3/4”
18' Poly 1/2”
Pipe
C
Pipe
B
Pipe
A
Main Line
Down 38 feet
Service Line
Up 17 feet
Main Line
No Change
Pipe C
Up 2 feet
Pipe B
Up 4 feet
Pipe A
Elevation Changes
1” A
P.O.C. Rain Bird Services Corporation - 6991 E. Southpoint Rd. – Tucson, AZ 85756
Dynamic Pressure at Head “A” when valve is operating: __________________________
2. Use the “Rule of Three” to calculate the maximum system working capacity for a site with 60 PSI
static pressure 5/8” water meter and a 3/4" type K copper service line:
Rule #1 ____________(GPM)
Rule #2 ____________(GPM)
Rule #3 ____________ (GPM)
Maximum system working capacity ____________ (GPM)
3. The loss of pressure as water moves through pipes, fittings, valves, and meters is due to
_______________________________.
4. The maximum velocity of water through a plastic pipe is _______________, and through a
metal pipe is
calculation of the static pressure in a water pipe line
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- Posts: 2
- Joined: Sun Oct 24, 2010 2:59 am
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- Posts: 2
- Joined: Sun Oct 24, 2010 2:59 am
Re: calculation of the static pressure in a water pipe line
:-400 RSsushmitarp wrote:What is your static pressure at the base of the tower? ________________________
What is the static pressure loss through the last head (A)? ________________________
What is your friction loss for each of the following?
Pipe A __________________________
Pipe B __________________________
Pipe C __________________________
Main Line __________________________
Service Line __________________________
Fittings __________________________
(Assume this friction loss is equal to 10% of the friction loss of all pipes)
Valve __________________________
Meter __________________________
Total friction loss from point of connection (P.O.C.) to Head A when valve is operating:
__________________________
185' Elevation
Water
Meter
1”
100 PEB
Valve
Rotors
7.5 GPM Each
Service Line
1.25” Schedule 40
PVC 225'
19' Poly 1”
13' 1” Poly 18' Poly 3/4”
18' Poly 1/2”
Pipe
C
Pipe
B
Pipe
A
Main Line
Down 38 feet
Service Line
Up 17 feet
Main Line
No Change
Pipe C
Up 2 feet
Pipe B
Up 4 feet
Pipe A
Elevation Changes
1” A
P.O.C. Rain Bird Services Corporation - 6991 E. Southpoint Rd. – Tucson, AZ 85756
Dynamic Pressure at Head “A” when valve is operating: __________________________
2. Use the “Rule of Three” to calculate the maximum system working capacity for a site with 60 PSI
static pressure 5/8” water meter and a 3/4" type K copper service line:
Rule #1 ____________(GPM)
Rule #2 ____________(GPM)
Rule #3 ____________ (GPM)
Maximum system working capacity ____________ (GPM)
3. The loss of pressure as water moves through pipes, fittings, valves, and meters is due to
_______________________________.
4. The maximum velocity of water through a plastic pipe is _______________, and through a
metal pipe is
Re: calculation of the static pressure in a water pipe line
I am not sure that I understand your problem completely. Can you please explain is a bit more.
Pipe flow calculations - since 2000