Flame ionization detector operation – INFICON DataFID Portable Flame Ionization Detector for Leak Detection and Repair (LDAR) User Manual

074-578-P1A

15

Flame Ionization Detector Operation

The DataFID uses a flame ionization detector for the measurement of combustible organic compounds in
air at parts-per million levels. The permanent air gases (argon, carbon dioxide, nitrogen, oxygen, water
vapor, etc.) are not ionized by the flame and thus are not measured.

When the DataFID is flamed on, the internal pump draws air in through the DataFID inlet. This sample air
provides the oxygen necessary for combustion in the hydrogen fed flame.

Figure 1:. Flame Ionization Detector

When the proper ratio of hydrogen to air is present in the combustion chamber, the flame is started
automatically with a glow plug. A thermocouple is used to monitor the status of the flame.

When the sample passes through the flame, the combustible organic compounds in the sample will be
ionized. After the compounds have been ionized by the flame, the ionized particles are subjected to a
continuous electric field between the repeller electrode at the jet (+75V) and the collector electrode.

The ions move in the electric field, generating a current, which is proportional to the concentration of the
ionized molecules in the ionization chamber. An electrometer circuit converts the current to a voltage that
is then fed to the microprocessor.

After the sample passes through the flame and has become ionized, it is vented from the detector through
a flame arrestor, also known as exhaust frit. The flame arrestor prevents the flame from igniting any
flammable gases present in the sampling location.

Electrometer

Repeller Electrode

(Jet +75 Volts)

Collector Electrode

Sample In

Exhaust Out

Flame Arrestor

Flame Arrestor

Microprocessor

Combustion Chamber

Glow Plug

Thermocouple