Hydrostatic test to fire pump
Hydrostatic test to fire pump
(OP)
Dears,
i need your advice
i made a design to ethylene tank and i liked with existing network with fire pumps.
i request from my client hydrostatic test to ensure that the flow and pressure will be suitable to the network.
he made test to two fire hydrants,
i want to know how to use this test papers to verify my network pressure and flow although the test result pressure and flow is for fire hydrants??
i need your advice
i made a design to ethylene tank and i liked with existing network with fire pumps.
i request from my client hydrostatic test to ensure that the flow and pressure will be suitable to the network.
he made test to two fire hydrants,
i want to know how to use this test papers to verify my network pressure and flow although the test result pressure and flow is for fire hydrants??





RE: Hydrostatic test to fire pump
It is a capital mistake to theorise before one has data. Insensibly one begins to twist facts to suit theories, instead of theories to suit facts. (Sherlock Holmes - A Scandal in Bohemia.)
RE: Hydrostatic test to fire pump
Remember - More details = better answers
Also: If you get a response it's polite to respond to it.
RE: Hydrostatic test to fire pump
Assuming instead of "hydrostatic," you mean you are looking for system pressure loss this should get you in the ball park.
A pipe system follows the relationship:
h = aF^2 + c
Where "h" is head loss in the system and "F" is the flow rate. "c" is the static head which can often be measured with a tape measure but should also include any tank pressure if different from the suction source.
Assuming your test results include a known flow "F" and head "h", you solve for "a". Then, use that "a" in the equation along with the required flow "F" to find your head loss "h" or visa versa.
Beware: You have to watch your units. head of water will be different from head of ethylene because of their difference in density. Likely the data was taken as a pressure. To adjust water pressure to ethylene pressure, multiply the water pressure value by the ethylene specific gravity. Then you will need to convert the pressure to head of ethylene to use in the equation.
RE: Hydrostatic test to fire pump
Remember - More details = better answers
Also: If you get a response it's polite to respond to it.
RE: Hydrostatic test to fire pump