vsv101
Chemical
- Dec 12, 2002
- 2
This is the first time I am sizing a hydropneumatic tank with multiple pumps. I will highly appreciate any help from our experienced members who have executed similar jobs.
I am sizing a hydropneumatic tank for a distribution system with multiple pumps. The pump capacities are 2 ea.x 70 gpm @ 75 psi TDH, 1 ea. x 285 gpm @ 75 psi TDH and 1 ea. x 425 gpm @ 75 psi TDH.
I used the formula Vt = (P1 + 14.7)/(P1-P2)* 15(Qp)(MF)/Nc
Where : Vt = Volume of Hydropneumatic tank, U.S.gallons
P1 = Max. system Pressure @75 psig
P2 = Minimum system pressure @ 50 psig
Nc = Desired no.of pump start/stop per hr.@10X
(Note: the recommended no. was 6X, however, I had
used 10X in dozens of installations without any
problem)
MF = 1.1
Qp = Pump capacity, USGPM
My problem is which pump capacity shall I use for Qp. I am inclined to assume the biggest pump capacity, 425 GPM since the smallest pump can act as jockey pumps. Am I correct in my assumption.
Thanks a lot for any help from our members who are expert on this field.
VSV
I am sizing a hydropneumatic tank for a distribution system with multiple pumps. The pump capacities are 2 ea.x 70 gpm @ 75 psi TDH, 1 ea. x 285 gpm @ 75 psi TDH and 1 ea. x 425 gpm @ 75 psi TDH.
I used the formula Vt = (P1 + 14.7)/(P1-P2)* 15(Qp)(MF)/Nc
Where : Vt = Volume of Hydropneumatic tank, U.S.gallons
P1 = Max. system Pressure @75 psig
P2 = Minimum system pressure @ 50 psig
Nc = Desired no.of pump start/stop per hr.@10X
(Note: the recommended no. was 6X, however, I had
used 10X in dozens of installations without any
problem)
MF = 1.1
Qp = Pump capacity, USGPM
My problem is which pump capacity shall I use for Qp. I am inclined to assume the biggest pump capacity, 425 GPM since the smallest pump can act as jockey pumps. Am I correct in my assumption.
Thanks a lot for any help from our members who are expert on this field.
VSV
