harbor
Chemical
- Sep 23, 2003
- 5
I'm looking for verification of an explanation that was given to me regarding the use of an ORP Controller to feed a sulfide (NaHS, DTC, etc.) to remove metals.
I'm aware that ORP measures the Oxidation/Reduction Potential, so using an ORP Controller to feed bleach or metabisulfite to a treatment system makes sense.
Here is the reasoning I was given for using ORP to feed sulfide based metal removal chemicals.
..." your not so much measuring Oxidation/Reduction as you are measuring the water's ability to conduct electricity due to the amount of dissolved metal in the water. If the pH remains constant, as the dissolved metal concentration increases, the ORP reading increases (in mV). As the metal is precipitated and removed, the conductivity (in mV) is reduced. For example, if you have a mix of dissolved metals in the water the ORP reading may be +200 mV; as you add the sulfide the metals are precipitated and the corresponding ORP reading is decreased until all the metals have been precipitated and removed - and now the ORP is at a lower value - maybe +10 mV..."
This description seems to make sense - until I think that the meter is designed to measure Oxidation or Reduction reactions.
It’s been suggested that a proportional chemical metering pump might work, except I worry that the dissolved metal concentration in the untreated waste water changes at various times (e.g. 9AM - Cu = 10 ppm, 11AM - Cu = 0.5 ppm, 3PM - Cu = 35 ppm). The OPR meter is hyped as a cure to metal fluctuations - when the metal concentration is high the chemical pump keeps pumping until the metals are gone; if the metals are low the chemical pump shuts off sooner. It seems to make sense and offers something the proportional pump maybe can't address.
My issue is with the explanation of how the ORP meter works - and how it relates to Oxidation / Reduction Potential.
Any enlightenment on how ORP "really" works in these applications would be greatly appreciated?
I'm aware that ORP measures the Oxidation/Reduction Potential, so using an ORP Controller to feed bleach or metabisulfite to a treatment system makes sense.
Here is the reasoning I was given for using ORP to feed sulfide based metal removal chemicals.
..." your not so much measuring Oxidation/Reduction as you are measuring the water's ability to conduct electricity due to the amount of dissolved metal in the water. If the pH remains constant, as the dissolved metal concentration increases, the ORP reading increases (in mV). As the metal is precipitated and removed, the conductivity (in mV) is reduced. For example, if you have a mix of dissolved metals in the water the ORP reading may be +200 mV; as you add the sulfide the metals are precipitated and the corresponding ORP reading is decreased until all the metals have been precipitated and removed - and now the ORP is at a lower value - maybe +10 mV..."
This description seems to make sense - until I think that the meter is designed to measure Oxidation or Reduction reactions.
It’s been suggested that a proportional chemical metering pump might work, except I worry that the dissolved metal concentration in the untreated waste water changes at various times (e.g. 9AM - Cu = 10 ppm, 11AM - Cu = 0.5 ppm, 3PM - Cu = 35 ppm). The OPR meter is hyped as a cure to metal fluctuations - when the metal concentration is high the chemical pump keeps pumping until the metals are gone; if the metals are low the chemical pump shuts off sooner. It seems to make sense and offers something the proportional pump maybe can't address.
My issue is with the explanation of how the ORP meter works - and how it relates to Oxidation / Reduction Potential.
Any enlightenment on how ORP "really" works in these applications would be greatly appreciated?