Maximum Dissolved Oxygen Concentration Saturation Table
The concentration of dissolved oxygen
(DO) in water is influenced by a number of factors,including water temperature,
salinity and atmospheric pressure. The relationship betweenwater temperature
and DO is inverse: Cold water is able to “hold” more DO and warm water. The
following table is based on zero salinity (for lakes), and 760 millimeters of
mercury (1Standard Atmosphere). Actual atmospheric pressure can be compensated
for when calibratingdissolved oxygen meters by entering feet above sea level,
or in some meters, an internal barometer compensates for changes in pressure
automatically – provided that the barometer is properly calibrated.
Dissolved oxygen values shown in the
table represent “saturation” for the corresponding temperature. This value is
generally used during DO meter calibration, based on the assumption that
saturated conditions exist in the calibration chamber, there are no air bubbles
under the membrane and that no water
droplets are present on the actual probe. Older analog
meters require the user to manually
adjust the DO value according to the temperature; newermeters perform a self‐calibration
at the touch of a button and this chart is used to verify the accuracy of the
calibration. If a DO value is off by more than =/‐ 0.3 ppm, check the probe forair
bubbles or water droplets, blow off droplets and/or replace the membrane,
replace the calibration chamber, wait 15‐20 minutes for the air within the
chamber to be saturated with water vapor, then recalibrate. Values on the chart
are also used to double check the surface DO reading. Most surface DO readings
are within 0.5 ppm of saturation, except under bloom conditions, when the lake
is highly colored, or when the atmospheric pressure is changing rapidly. If
surface readings DO are off by more than 1.0 ppm, recalibration is often
necessary.If surface readings are off by more than
2.0 ppm, there is most likely some problem with the probe or meter.
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