7
A note about dry-storage
The dry-storage consist of a stainless steel container filled with desiccant. The elec-
tropolished stainless steel sensor guard slides between the dry-storage and the sample
cell through a spring energized PTFE seal, assuring maximum possible gas tightness and
minimum gas transport between the two chambers when the sensor is moved. When in
dry-storage, the sensor guard is separated from the desiccant by a stainless steel wire
mesh with a thickness of 127µ (0.005”) and a mesh size of 100µ. This keeps the distance
between the sensor and the desiccant to a minimum, which is critical for fast and low dry-
downs, while protecting the sensor from contamination with desiccant particles. The
factory supplied desiccant provides dry-storage dewpoints as low as -80°C when fresh.
When the sensor is pushed into dry-storage it will take some time to dry down completely
and reach equilibrium with the dewpoint in the dry-storage. The dry-down time to
equilibrium depends on how wet the sensor was before it was returned to dry-storage, and
in case that it was completely wet, how long it had remained in wet condition. To take full
advantage of the dry-storage, make sure, that the dry-storage dewpoint is below the
expected dewpoint of the sample gas by periodically checking the indicated dewpoint after
the sensor has remained in dry-storage for an extended period of time, for example over
night. Replace the desiccant cartridge, if the dry-storage dewpoint is much higher than -
80°C and above your expected sample dewpoints.
Содержание XPDM
Страница 21: ...21 Apendix A Flow Diagram of User Interface in Operating State ...
Страница 22: ...22 Appendix B Flow Diagram of User Interface in Setup State ...
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Страница 25: ...25 Appendix D Uncertainty in LBS and PPMV calculations ...
