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eutech-instruments carbon dioxide gas User Manual

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Instruction Manual 
 
Carbon Dioxide Electrode
 
 
11
 
Limits of Detection 
 
The upper limit of detection in pure carbon dioxide solutions is 1X10
-2
M. Carbon dioxide is rapidly 
lost to the air above a concentration of 1X10
-2
M. Dilution may be used if carbon dioxide 
concentrations are above 1M. Also dilute samples between 1M and 10
-2
M or calibrate the electrode 
at 4 or 5 intermediate points. 
 
The lower limit of detection is around 1X10
-4
M. Refer to Figure 1 for a comparison of the 
theoretical response to the actual response at low levels of carbon dioxide. Carbon dioxide 
measurements below 10
-4
M CO
2
 should employ low level procedures. 
 
pH Effects 
 
The carbon dioxide electrode can be used over the pH range 4.8 to 5.2. It is necessary to adjust the 
sample pH using the recommended ISA to convert all carbonate and bicarbonate species in solution 
to carbon dioxide. 
 
Electrode Life 
 
A carbon dioxide gas-sensing electrode will last six months in normal laboratory use. On-line 
measurements might shorten operational lifetime to several months. In time, the response time will 
increase and the calibration slope will decrease to the point calibration is difficult and membrane 
replacement is required. 
 
Electrode Storage 
 
If storing the carbon dioxide electrode overnight or over the weekend, immerse the tip of the 
electrode in the 0.1M NaCl storage solution. For longer periods of time, completely disassemble the 
electrode, rinse the inner body, the outer body, and the cap with distilled water. After drying, 
reassemble the electrode without filling solution. 
 
 
ELECTRODE THEORY 
 
Electrode Operation 
 
A gas-permeable membrane is used to separate the sample solution from the electrode's internal 
filling solution in the Eutech Carbon Dioxide Gas-Sensing Electrode. Dissolved carbon dioxide in 
the sample solution permeates the membrane until an equilibrium is reached between the partial 
pressure of the CO
2
 in the internal filling solution and the partial pressure of the CO
2
 in the sample 
solution. The partial pressure of carbon dioxide in any given sample will be proportional to the 
concentration of carbon dioxide. 
 
Diffusion across the membrane affects the level of hydrogen ions in the internal filling solution: 
 
 CO
+ H
2
⇔  H
+
 + HCO
3-
 
 
The relationship between the hydrogen ion, the bicarbonate ion, carbon dioxide, and water is given 
by the equation: