1 producing a supply of clean, wet air – LumaSense Technologies 3434i SF6 Leak Detector User Manual

Chapter 12

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BE6028-14

3434i SF6 Leak Detector

LumaSense Technologies A/S

Page 146 of 191

tube. This condition must be avoided because atmospheric air will

be drawn into the Teflon tube system via the flow meter and

cause dilution of the calibration gas. This will affect the accuracy

of your calibration.

·

It functions as an escape valve. When the pressure of the gas in

the tubing becomes greater than atmospheric pressure, gas flows

out to the atmosphere via the flow meter. This ensures that the

gas entering the analysis cell is as close to atmospheric pressure

as possible, and this prevents damage to the very sensitive

microphones in the analysis cell.

WARNING!: The analysis cell of the monitor is equipped with

sensitive microphones, and therefore NO direct connection between

the Monitor’s air-inlet and the pressure-valve on a gas cylinder is

allowed. Under NO circumstances should the pressure of the air in

the analysis cell be allowed to exceed 0.1 bar above the ambient

pressure.

1. Attach the Teflon tubing to the Air Inlet Filter at the back of the

monitor. This is described in detail in

section 4.2

.

2.

a. Connect the free-end of the length of tubing attached to the

air-inlet to one of the branches of the “Y”-piece (see

attachment point no. 1 in

Fig.12.4

).

b. Cut off another 1m length of Teflon tubing and connect one

of its ends to attachment point no. 2 of the “Y”-piece (see

Fig.12.4

) and its other end to a flow-meter.

3. Connect a 1m length of tubing to attachment point no. 3 of the

“Y”-piece (see

Fig.12.4

).

12.4.1 Producing a Supply of Clean, Wet Air

When humidity-interference calibrations are performed, clean, wet

air is required. This can be produced in the following manner.

We suggest that you bubble zero-gas (e.g. pure nitrogen) through a

thermostatically-controlled water-bath to produce a supply of clean,

wet air to the Monitor during humidity-interference calibration of the

filters (see

Fig. 12.6

). Notice that the thermostatically-controlled

water bath is linked up to an extra “empty” flask. This is to prevent a

situation where the level of water in the controlled water-bath rises

and covers the outlet tube “A” and draws water, via the “Y”-piece,

directly into the Monitor’s analysis cell. Water will seriously damage

the cell. To avoid such a situation, we suggest that the wet air from

the water-bath outlet tube is fed into an extra empty flask before

being fed to the air-inlet of the Monitor. Note the length of the