8 conversion factors – Bronkhorst Mass Flow User Manual

BRONKHORST HIGH-TECH B.V.

1.8 Conversion factors

1.8.1 Gas conversion factors

The general formula for determining the relationship between signal and mass flow is:

V

K c

K c

signal

p

m

p

v

= ⋅

⋅

= ⋅

⋅ ⋅

Φ

Φ

ρ

in which:

V

signal

= output signal

K

= constant

ρ

= density

c

p

= specific heat

Φ

m

= mass flow

Φ

v

= volume flow

As soon as the c

p

value and density of the gas to be metered change, the signal must be corrected. The

conversion factor C is:

C

c

c

p

p

=

⋅

⋅

1

2

1

2

ρ

ρ

in which:

c

p

= specific heat

ρ

n

= density at normal conditions

(1) gas calibrated

(2) gas to be measured

Note:

The c

p

value used for the calculation of the conversion factor must be taken at a temperature approx. 50°C.

higher than the required temperature.

This factor is called c

p

cal.

The conversion factors for commonly used gases related to N

2

at normal conditions are stated in the Gas

Conversion Table in the appendix 1.

Example:

Meter calibrated on N

2

(200 ml

n

/min).

Gas flow passing the meter is CO

2

.

Output signal reads 80.0%.

Actual CO

2

flow = 80.0

⋅ 0.74

1.00

= 59.2%

so

59 2

100

. ⋅

200 = 118.4 ml

n

/min

*

n means normal conditions

At normal conditions volumes are converted to a temperature of 0°C and pressure of 1 atm

or 1013,25 mbar. (760 Torr)

Note:

Best accuracy is always achieved by performing calibration under operating conditions. Should this not be

possible or practical, then the use of a theoretical conversion factor is a means to determine the flow rate of

the instrument on the gas to be metered, however, it will introduce inaccuracies.

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