Det-Tronics 505 Combustible Gas Detector Transmitter with Combustible Gas Sensor CGS User Manual

3

95-8472

3.1

A brief exposure to any of these materials may temporarily

increase the sensitivity of the sensor due to etching of the

catalytic surface. This practice is not recommended,

since it is unreliable and may give a false sense of
security.

Exposure to high concentrations of gas for extended

periods can introduce stress to the sensing element and

seriously affect its performance. After exposure to a high

concentration of combustible gas, re-calibration should

be performed and, if necessary, the sensor should be

replaced.

The degree of damage to a catalytic sensor is determined

by the type of contaminant, its concentration in the

atmosphere, and the length of time the sensor is exposed.

When a sensor has been exposed to a contaminant or to

a high level of combustible gas, it should be re-calibrated

at the time, followed by an additional calibration a few

days later to determine whether a significant shift in

sensitivity has occurred.

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CONTROLLER

DISPLAY

READING

(%LFL)

PERCENT OF METHANE (BY VOLUME)

LOWER FLAMMABLE LIMIT

(100% LFL)

UPPER FLAMMABLE LIMIT

C1125

Figure 2—Typical Response of a Catalytic Sensor over a Range of 0 to 100% Methane by Volume

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CONTROLLER

DISPLAY

READING

(%LFL)

PERCENT OF OXYGEN IN MIXTURE (BY VOLUME)

B1126

50% LFL METHANE IN STANDARD AIR

4.5% METHANE

2.5% METHANE

90% LFL METHANE IN STANDARD AIR

Figure 3—Effect of Oxygen Enriched and Deficient Atmospheres