MechEngNBallValves
Mechanical
- Aug 24, 2012
- 2
Hi all,
I'm developing software to be able to size our ball valves properly for compressible & incompressible flow. I've been searching for easy methods to calculate choked pressure drop (to compare it to actual pressure drop & determine if flow is choked) and I haven't had too much luck.
I have searched through these forums and have found a link: Link
which seems useful, but we do not have cavitation index the formula calls for.
I'm currently using this equation: FL^2 (P1 - FF * PV) FL - some kind of shape factor ~0.55-0.60 for ball valves (not sure where this came from), P1 - inlet pressure, FF in ISA S75.01-1985 Annex G as 0.96-0.28(vapor pressure/critical pressure)^1/2, PV - vapor pressure.
I need to know if this is OK by ISA standards. My company has been using this equation, but in order to use it in the software I need to prove that it is valid by some credible reference. I'm not entirely sure where the equation came from, but we have been using it for a while.
Is this equation OK or is there something else I should be using? Please assume I have little to no empirical data about our valves and am unable to attain data.
Thanks in advance,
K
I'm developing software to be able to size our ball valves properly for compressible & incompressible flow. I've been searching for easy methods to calculate choked pressure drop (to compare it to actual pressure drop & determine if flow is choked) and I haven't had too much luck.
I have searched through these forums and have found a link: Link
which seems useful, but we do not have cavitation index the formula calls for.
I'm currently using this equation: FL^2 (P1 - FF * PV) FL - some kind of shape factor ~0.55-0.60 for ball valves (not sure where this came from), P1 - inlet pressure, FF in ISA S75.01-1985 Annex G as 0.96-0.28(vapor pressure/critical pressure)^1/2, PV - vapor pressure.
I need to know if this is OK by ISA standards. My company has been using this equation, but in order to use it in the software I need to prove that it is valid by some credible reference. I'm not entirely sure where the equation came from, but we have been using it for a while.
Is this equation OK or is there something else I should be using? Please assume I have little to no empirical data about our valves and am unable to attain data.
Thanks in advance,
K