When a Nitrogen containing sample is combusted at 1000 ℃, Nitrogen Oxide (NO) is formed: R-N + O2 --> NO + H2O + CO2
After conditioning of the combusted sample, the formed NO is led into a reaction chamber, where electronically generated Ozone is added which reacts with the Nitric Oxide which forms Nitrogen Dioxide in an excited state (NO2*). The excited NO2 emits light as it reverts to a lower level energy state. The emitted light is detected by a Photomultiplier Tube (PMT).
The amount of the emitted light which is detected, corresponds with the amount of NO. This represents the amount of Total Nitrogen present in the sample and is so-called the reduced pressure Chemiluminescence detection technique. Surplus of Ozone is converted to oxygen by a heated tube to avoid this will lead to the environment.
The equations for these reactions are:
NO + O3 --> NO2*
NO2* --> NO2 + hv
TSHR Combustion Elemental analyzers that make use of this detection technique are: TN 6000 and TN 7000 series models
and combined instrument configurations such like TN/TS 6000 and TN/TS 7000.