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Sprinkler water main gage and back flow preventor
- Thread starter cda
- Start date
Builder Bob
SAWHORSE
In my humble opinion, after the back-flow preventor ---- You want to ensure water pressure is at the base of the riser.........
mtlogcabin
SAWHORSE
What do you mean "If"?
Backflow preventers are required on all automatic fire suppression systems connected to a potable water system.
IPC
608.16.4 Connections to automatic fire sprinkler systems and standpipe systems.
The potable water supply to automatic fire sprinkler and standpipe systems shall be protected against backflow by a double check backflow prevention assembly, a double check fire protection backflow prevention assembly or a reduced pressure principle fire protection backflow prevention assembly.
Exceptions:
1. Where systems are installed as a portion of the water distribution system in accordance with the requirements of this code and are not provided with a fire department connection, isolation of the water supply system shall not be required.
2. Isolation of the water distribution system is not required for deluge, preaction or dry pipe systems.
FM William Burns
REGISTERED
In the thousands that I have worked with, the water pressure gauges are typically on the discharge side of the backflow and located on the supply and discharge sides of the alarm/check valve. The manufacturer's cut sheet will tell you how many pounds of Friction Loss you have with the backflow or RPZ assembly (typically 8 to 10 pounds). You can also see them on the supply and discharge sides of the backflow or RPZ.
Reason for the question
If you put the gauge meant to tell you what the city water main pressure is after or above the back flow preventor
Is that actually showing you the city water main pressure or the trapped pressure in the system ????
If you put the gauge meant to tell you what the city water main pressure is after or above the back flow preventor
Is that actually showing you the city water main pressure or the trapped pressure in the system ????
As in this riser stack
View attachment 995
View attachment 995
/monthly_2014_01/image.jpg.228b6add98838e6fb1e0740880ce1509.jpg
View attachment 995
View attachment 995
/monthly_2014_01/image.jpg.228b6add98838e6fb1e0740880ce1509.jpg
FM William Burns
REGISTERED
The one on the supply side of the alarm/check valve will show you the water system's static pressure +/- 10 psi for the backflow assembly. In this case it looks like an AMES Colt Series. So you would have about 9 psi loss according to Page 3:
http://media.wattswater.com/ES-A-C300-C300N.pdf
http://media.wattswater.com/ES-A-C300-C300N.pdf
Last edited by a moderator:
To me if you put the gauge for the city water main pressure on top of the backflow in the picture,FM William Burns said:
The pressure above the top of the backflow is trapped pressure and not a true indication of the city water main pressure.
If all you had was the backflow and no other check or alarm valve above it as in a shotgun riser, the gauge would be reading the system pressure. Which would fluctuate with the temp
FM William Burns
REGISTERED
I'm a bit confused. There should be an alarm check valve to make notification of water flow. NFPA 13 requires a pressure gauge above and below the alarm/check valve [7.1.1.2]. With regards to a "shotgun" riser, there should be alarm/check valves on each riser extending vertical from the horizontal supply.
The backflow meets the second part of your answerFM William Burns said:
8.16.1.1.3.2. 2010 edition
Than on a wet system just a regular flow switch to an alarm system or electric bell is good
No an alarm valve is not always required
Hay if the Feds say it is legal it must be
http://www.usfa.fema.gov/downloads/pdf/coffee-break/cb_fp_2012_33.pdf
http://www.usfa.fema.gov/downloads/pdf/coffee-break/cb_fp_2012_33.pdf
""""""A shotgun riser eliminates the need for an alarm check valve because the backflow prevention device stops water in the sprinkler pipe from flowing back into the potable supply, and the electric switch provides a water flow alarm.""""""
My point is the backflow traps the pressure and you do not get the true city pressure with only one gauge """"after"""" the backflow
My point is the backflow traps the pressure and you do not get the true city pressure with only one gauge """"after"""" the backflow
Builder Bob
SAWHORSE
true, but the back flow prevent or will indicate water pressure that is supplied from the city and the newer NFPA 13 requires pressure relievers to reduce the surge pressure.... If you do a short drain test with the gauge prior the preventors, are you getting a true water pressure reading when operating the main drains? I think not, the pressure would be higher since the pressure drops in preventors..... thus to get an accurate main drain test it would have to be after the preventors...
7.1 Wet Pipe Systems.
7.1.1 Pressure Gauges.
7.1.1.1 An approved pressure gauge conforming to 8.17.3 shall be installed in each system riser.
7.1.1.2 Pressure gauges shall be installed above and below each alarm check valve or system riser check valve where such devices are present.
7.1.1 Pressure Gauges.
7.1.1.1 An approved pressure gauge conforming to 8.17.3 shall be installed in each system riser.
7.1.1.2 Pressure gauges shall be installed above and below each alarm check valve or system riser check valve where such devices are present.
Builder Bob
SAWHORSE
Sounds like only one pressure gauge is required...... if the back-flow preventor is outside the building, then the fire sprinkler system doesn't start until is 12" AFF..... (SHOTGUN RISER ONLY ---- Black Pipe - riser with flow switch...)