Difference between revisions of "Open chamber"
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To maintain signal stability and protection from contamination this is NOT done by leaving the chamber open (no stoppers) but by creating a defined gas phase in the chamber between liquid phase and stopper using the a [[stopper spacer]]. | To maintain signal stability and protection from contamination this is NOT done by leaving the chamber open (no stoppers) but by creating a defined gas phase in the chamber between liquid phase and stopper using the a [[stopper spacer]]. | ||
This procedure is described in detail in the chapter "Air calibration" in [[http://www.oroboros.at/index.php?id=o2k-o2calibration MiPNet12.08]]. | This procedure is described in detail in the chapter "Air calibration" in [[http://www.oroboros.at/index.php?id=o2k-o2calibration MiPNet12.08]]. | ||
See also: | |||
[[Air Calibration]] | |||
[[Closed chamber]] | |||
{{#set:Technical service= Chamber| Technical service= POS calibration}} | {{#set:Technical service= Chamber| Technical service= POS calibration}} |
Revision as of 15:13, 21 September 2010
The term "open chamber" is used to denote a situation in which the liquid phase is in equilibrium with the atmosphere, resulting in a net zero O2 flux at open chamber. To maintain signal stability and protection from contamination this is NOT done by leaving the chamber open (no stoppers) but by creating a defined gas phase in the chamber between liquid phase and stopper using the a stopper spacer. This procedure is described in detail in the chapter "Air calibration" in [MiPNet12.08].
See also: Air Calibration Closed chamber