Liquid Controls SP4000 User Manual
Page 105
SP4000 Flow Computer
102
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Uncompensated Flow Computation:
Pulse, Linear Case
input frequency • Time Scaling Factor
volume flow =
K-Factor • [1 - Meter Exp.Coeff. • ( Tf - T
cal
)]
Analog, Linear Case
Measured Input Flow
volume flow =
[1 - Meter Exp.Coeff. • ( Tf - T
cal
)]
Square Law Case
DP Factor
2•delta P
1/2
volume flow =
• Y •
[1 - Meter Exp.Coeff. • ( Tf - T
cal
)]
density
Square Law , Target Flowmeter Case
√
density cal.
volume flow = input flow •
√
density flowing
Pulse, Linearization Case
input frequency • Time Scaling Factor
volume flow =
K-Factor(Hz) • [1 - Meter Exp.Coeff. • ( Tf - T
cal
)]
Analog, Linearization Case
Input Flow • Correction Factor (Input Flow )
volume flow =
[1 - Meter Exp.Coeff. • ( Tf - T
cal
)]
Square Law, Linearization Case
DP Factor(RN)
2•delta P
1/2
volume flow =
• Y •
[1 - Meter Exp.Coeff. • (Tf - Tcal)]
density
Pulse, UVC Case
input frequency • Time Scaling Factor
volume flow =
K-Factor (Hz/cstks) • [1 - Meter Exp.Coeff. • ( Tf - T
cal
)]
Shunt Flow Bypass Flowmeter
input frequency • 457 • Epa • Y
m
volume flow =
√
flowing density • DC • bypass calibration favtor
Gilflo Flowmeter
volume flow
at flowing conditions
= input flow
at design conditions
•
NOTE:
Therm.Exp.Coef is 10
-6
7.3.12
Uncompensated
Flow Computa-
tion
calibration density
flowing density
√