Operation Manual

ManualsBrandsYokogawa ManualsMiscellaneousDY Vortex Flowmeter

<6. PARAMETERS>

6-17

IM 01F06A00-01EN

(7) Item H (ADJUST)

This item for setting of adjustment.

NOTE

In case that Reynolds adjustment (H25), Gas

expansion correction (H30) or select a break

point correction (H40) is necessary to set,

D10: LOW CUT must be set after the items

for compensations (H25, H30, H40) are set to

“ACTIVE”.

[H10, H11:TRIM 4mA, TRIM 20mA] Triming

of 4mA and 20mA

Fine tuning adjustment of 4mA and 20mA output.

Fine tuning range is form -1.00% to 1.00%.

[H20:USER ADJUST] Conversion factor for

user setting.

Set conversion factor by user.

This conversion factor is converted into

measurement ﬂ owrate.

[H25:REYNOLDS ADJ] Reynolds

adjustment

Select the Reynolds adjustment.

This adjustment should be done in case of their

error compensation, because error of vortex

ﬂ owmeter should be increased when it come to low

reynolds numbers.

NOT ACTIVE(0): Not correction calculation

ACTIVE(1): Correction calculation

The following item should be set in case of

which “H25” is “ACTIVE”.

[H26:DENSITY f] Density at operating

condition

Set the density at operating condition.

[H27:VISCOSITY] Viscosity at standard

condition

Set the value of viscosity at standard conditions.

The values should be used for Reynolds

adjustment.

Reynolds number(Re) is calculated as shown in the

formula below.

Re = 354 ×

Q  

f

D  

Q : Volumetric ﬂ ow (m

3

/h)

D : Internal diameter (mm)



f

: Density at operating condition

 : Viscosity (m Pa · s (cp))

Flowrate error of vortex ﬂ owmeter increases as

Reynolds number decrease less than 20000.

By setting H25, H26, H27, it corrects the error.

[H30:EXPANSION FA] Gas expansion

correction.

When measuring a compressibility gas by mass

ﬂ ow (Steam M, Gas M) and standard condition

(Gas Qn), this expansion factor is useful to correct

the deviation from the ideal gas law.

[H40:FLOW ADJUST] Select a break point

correction

Select a break point correction for the instrumental

error from “NOT ACTIVE(0)” or “ACTIVE(1)”.

[H41 to H50] Instrumental Error Correction

 Correct the instrumental error in ﬂ owmeter

characteristics using 1 line-segment

approximation (with ﬁ ve correction factors).

(1) Flow frequency input at line segments needs to

be f1f2f3f4f5.

When four correction factors are available, line

segments need to be f4=f5 and d4=d5.

When three correction factors are available,

line segments need to be f3=f4=f5 and d3=d4=d5.

(2) When a ﬂ ow input of f1 or less is present,

correct the instrumental error as the corrected

value=d1.

(3) When a ﬂ ow input of f5 or more is present,

correct the instrumental error as the corrected

value=d5.

(4) Abscissa (f1 to f5) : Set the break-point

frequencies as parameters.

(5) Ordinate (d1 to d5) : Set the corrected value (%)

at each break-point as parameters.

Set value = -

Q

s

-I

100

I

Where

Q

s

: Correct ﬂ owrate determined by a reference

apparatus

I : Indication of vortex ﬂ owmeter