Yokogawa EJX930A User Manual

<2. About the EJX Multivariable Transmitter>

2-3

IM 01C25R01-01E

2.3 Flow Calculation (except

Modbus Communication

Type)

There are two flow calculation modes: auto

compensation mode and basic mode.
The FlowNavigator is required to configure auto

compensation mode.

(Please refer to IM 01C25R51-01E for FSA120.)
Sections 2.4 and 2.5 give an overview of the two

calculation functions and explain how to configure

them.

2.4 Auto Compensation

Mode (except Modbus

Communication Type)

Configuration of the fluid physical properties

and the primary device can be performed

from an FlowNavigator dialog window. In auto

compensation mode, all flow factors for flow

calculation are dynamically compensated to an

optimum value with a high level of accuracy. The

flow factors that are automatically compensated are

discharge coefficient, diameter of primary device,

upstream internal pipe diameter, gas expansion

factor, density, and viscosity.

Based Mass Flow Equation

Qm =

ε d

2

2∆Pρ

C

(1–β

4

)

4

C, β, ε, d and ρ are dynamically compensated

flow factor.
Qm: Mass Flow

C: Discharge coefficient

β: Diameter ratio

ε: Expansion factor

d: Diameter of primary device

∆P: Differential Pressure

ρ: Density of fluid

Volume Flow Equation

Qv = Qm / ρ

Physical propertyDB

Fluid condition

Flow calculation

standard

Primary element

information

Transmitter

coefficient

Flow

calculation

Transmitter

coefficient

DIPPR* (gas/liquid)

Steam Table

Natural Gas

Diff pressure (DP)

Static pressure (SP)

External Temperature(ET)

FlowNavigator

EJX910A/EJX930A

Sensor input (DP, SP, Temp )

Output for

selected PV.

DP, SP, ET

Mass flow

Optimization

F0203.ai

*: AIChE, DIPPR (Design Institute for Physical Properties) is

a registered trademark of American Institute of Chemical

Engineers.

Figure 2.3

Auto Compensation Mode Block Diagram