Teledyne T201 manual Theory of Operation, Outlined in the following equations

T201 Ammonia Analyzer

Teledyne API Model T201 NH3 Analyzer Operator Manual

The resulting nitric oxide is then measured by the chemiluminescent

reaction with ozone. Consult Section 10.1 in the T200 manual (provided

with this instrument) for more details on the nitric oxide measurement.

The analyzer uses two converters to oxidize the different sample gases. A

high temperature catalytic converter, the M501 NH3, converts NH3 and

NOx into NO creating the TNx channel. A second converter, housed inside

the T201 analyzer and consisting of heated molybdenum, converts all of

the NOx in the sample to NO producing the NOx channel. The nitric oxide

channel is measured while bypassing both the M501 NH3 and

molybdenum converter. A Nafion® drier operated in reflux mode, is

installed prior to the molybdenum converter and the AutoZero valve. The

drier removes ammonia and water from the switched stream. The

ammonia would have otherwise been converted by the molybdenum and

registered as NOx. This location provides the drier with continuous flow,

thereby allowing it to stabilize faster.

Note

Due to the Nafion® drier, the analyzer has a maximum ammonia range of

2.0 PPM.

The calculated gas concentrations, ammonia and nitrogen dioxide, are

computed from the differences between the measured channels, as

outlined in the following equations:

NO (Nitric Oxide) Concentration = Measured

TNx (Total Nitrogen) Concentration = Measured (NH3 + NO2 + NO)

NOx (Total Nitrogen – Ammonia) Concentration =

Measured

(NO2 + NO)

NH3 (Ammonia) Concentration = Calculated as follows:

[(TNx - NOx) / (NH3_CE_FACTOR1)]

NO2 (Nitrogen Dioxide) Concentration = Calculated as follows:

[(NOx – NO) / (NO2_CE_FACTOR1)]

Note

The nitrogen dioxide efficiency factor (NO2_CE_FACTOR1) must be

calculated by conducting a GPT (gas phase titration) as described in Section

10

07271B DCN6646