ProSoft Technology MVI56-AFC User Manual

MVI56-AFC ♦ ControlLogix Platform

Reference

Liquid and Gas Flow Computer

User Manual

ProSoft Technology, Inc.

Page 275 of 316

February 25, 2011

14.2.1 Basic Metering According to Meter type

Orifice (Include V-cone): Uses AGA3 1992 / ISO 5167.
A V-cone meter is like an orifice meter, except that the V-cone is an obstruction

in the center of the pipe while an orifice is an aperture. V-cone calculation differs

from orifice calculation in the following respects:
1 The orifice Beta ratio is actually the square root of the ratio of aperture cross-

section to pipe cross-section hence for the V-cone it is calculated differently

from the two diameters.

2 The V-cone Coefficient of Discharge is entered as configuration and not

calculated. Expansion Factor (Y) is calculated differently.

Output of the calculation is mass flow rate, which is divided by density to get

volume and then integrated over time for accumulation.

Pulse: Both Gas and Liquid
Gross Volume is (pulses) / (K-factor) * (meter factor), according to API MPMS Ch

12 sec 2 1981 and 1995. Output of the standard calculation is volume flow

increment, which is then multiplied by density to get mass increment. Flow rate is

calculated in parallel to flow increment by applying to (pulse frequency) process

input the same calculation as is applied to (pulses); this technique is employed

instead of flow increment differentiation because the pulse frequency available

from the counter card in the processor is not subject to variations of timing

caused by scheduling delays in processor backplane transfer and in the firmware

of the module, thus yielding a smoother flow rate.

Correction Factors According to Product Phase

Gas
Compressibility is calculated according to the Detail Characterization Method of

AGA8 (1992). Gas density is a byproduct of this calculation. Essential input for

this calculation is molar analysis. The compressibility Z is a factor in the gas

equation PV=ZNRT, which is the rule by which gas volumes are corrected to

reference conditions.

Liquid
Temperature and pressure correction factors are calculated according to API

MPMS Ch 11 and applied according to the rules given in MPMS Ch 12. Essential

input for this calculation is Liquid Density (page 36) at either standard or flowing

conditions.

Gas Pulse Measurement
The standard applied is AGA7, which is merely a combination of the gross

volume calculation (page 275) and the gas law (PV=ZNRT) which includes

compressibility. It also specifies calculation of some intermediate factors, which

are now idiosyncratic and vestigial, having been imported from an earlier AGA3

(1985 and before) which used the "factor" method to calculate gas flow and

which has been superseded by the completely overhauled 1990/1992 AGA3.