Description

During operation, the CDOM Electrode emits high intensity UltraViolet (UV) Light. This is harmful to skin and eyes and protective glasses should be worn during the calibration process. Care should be taken to ensure the UV light does not operate without the sleeve installed and light doesn’t reflect off surfaces.

Top Tips for successful measurements using optical electrodes

• Use a non-fluorescent container for calibration solutions. Some plastics may fluoresce and interfere with calibration.
• Avoid strong artificial lighting during calibration. The alternating nature of artificial lights (especially fluorescent tubes) can interfere with calibration.
• Use a reasonably deep container for calibration in order to ensure a fast temperature response. The calibration solution should preferably be up to the blue line on the Probe.
• Always keep the measurement chamber and electrode lenses clean.
• Always fit the sleeve and end cap during both calibration and measurement.
• Always allow the readings to settle completely during both calibration and measurement.
• Always try to eliminate air bubbles by agitating the Probe after insertion both during calibration and measurement.
• Always calibrate and zero the electrode as close to your sample temperature as possible.
• Always zero the electrode just prior to use in clean water (bottled still mineral water is ideal).

Calibrating the Electrode

In order to ‘calibrate’ the CDOM electrode, a 100ppb solution of Quinine Sulphate in sulphuric acid can be used. However, since Quinine Sulphate is extremely expensive and sulphuric acid is dangerous to handle, a formulated equivalent, non toxic standard for use during CDOM electrode calibration is available in 600mL bottles.

Zero Point Calibration

This calibration should be carried out before each day’s use.

• Step 1: Prepare Calibration Bottle. Fill a calibration bottle with clean water (bottled still mineral water is recommended). Never use sparkling or carbonated water.
• Step 2: Insert Probe. Wash the Probe in clean water, then insert it all the way into the calibration bottle. Ensure the Sleeve End Cap is fitted. Gently agitate the Probe several times to remove any clinging air bubbles.
• Step 3: Power On and Stabilise. Switch the Aquameter, or BlueLink Device, on and wait until the temperature and solutions readings are stable. If readings are high, re-agitate the Probe to remove any air bubbles.
• Step 4: Navigate to Calibration Menu. Press the MENU key, then select “Calibration”. The screen will display calibration options including “ZERO?” and “Pt-2”.
• Step 5: Select Zero Calibration. Select “ZERO”. The Meter will display “PLEASE WAIT Stabilising” and a progress counter.
• Step 6: Complete Calibration. Once the calibration is successful, the counter will reach 100%, and “Calibrating 100% Press [OK]” will be displayed, along with the voltage output in mV. This value is not stored in the memory, so a manual record should be made for future reference. Press OK to continue.
• Step 7: Verify Zero Calibration. After calibrating, remove the Probe from the bottle, reinsert it, agitate, and allow the reading to settle.

Calibrating the High Point (Pt-2)

The probe should be removed from the zero solution and dry outer sleeve with a soft cloth.

• Step 1: Prepare Calibration Solution. Pour 300ml of CDOM calibration solution in to a clean calibration cup. Gently lower the Probe into the solution all the way. Agitate the Probe several times to remove air bubbles.
• Step 2: Access Calibration Menu. Press the MENU key, then select “Calibration”.
• Step 3: Select Calibration. Select “Pt-2”. The screen will display “PLEASE WAIT Stabilising” and a progress counter. The Meter will wait for stability, then calibrate.
• Step 4: Complete Calibration. After successful calibration, the “Calibrating 100% Press [OK]” screen will appear with the voltage output in mV. This value is not stored in the memory, so a manual record should be made. Press OK to continue.

Any significant difference in the mV values to previous readings could highlight an issue with the electrode. This may just be a dirty lens, incorrectly prepared solution, change in temperature, air bubbles or changes in the measurement chamber. Repeating the calibration after the probe has been cleaned, may resolve any issues.