GasDistEng
Mechanical
- May 20, 2002
- 25
I am trying to calculate the flow rate of natural gas through an upstream valve on a block and bleed set up on a large boiler. The purpose of this is to determine the flow rate so that I can size the vent line off the bleed-off.
Here is what I am working with:
P_atm = 14.7 PSIA
P_base = 14.7 PSIA
P_inlet = 2.0 PSIG
Known Cv = 32
SG = .6
T_base = 60 F
Q = iterated (9730 SCFH)
I used the Flow Calculations for Gases through Valves method as described at
You need to go to the bottom of the page at this link to see it.
Step #1 Determine if choked or Sub Critical Flow
Choked = (P_inlet+P_atm)>or=2((P_inlet-0.5)+Pb) = FALSE
Sub-Critical = P_inlet+P_atm)<2((P_inlet-0.5)+Pb) = TRUE
Step #2 Choose sub-critical Cv equation for compressible flow:
Cv = [Q[((SG)(T_base+459.67))^0.5)]/816(P_inlet+P_atm]^0.5
For a Q of 9730 SCFH I calculate a Cv of 32. I iterated Q until I got a Cv of 32.
Any suggestions?
Here is what I am working with:
P_atm = 14.7 PSIA
P_base = 14.7 PSIA
P_inlet = 2.0 PSIG
Known Cv = 32
SG = .6
T_base = 60 F
Q = iterated (9730 SCFH)
I used the Flow Calculations for Gases through Valves method as described at
You need to go to the bottom of the page at this link to see it.
Step #1 Determine if choked or Sub Critical Flow
Choked = (P_inlet+P_atm)>or=2((P_inlet-0.5)+Pb) = FALSE
Sub-Critical = P_inlet+P_atm)<2((P_inlet-0.5)+Pb) = TRUE
Step #2 Choose sub-critical Cv equation for compressible flow:
Cv = [Q[((SG)(T_base+459.67))^0.5)]/816(P_inlet+P_atm]^0.5
For a Q of 9730 SCFH I calculate a Cv of 32. I iterated Q until I got a Cv of 32.
Any suggestions?
