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Topic: Oxygen presence in sodium bisulfite solution  (Read 1678 times)

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Offline k_amy21

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Oxygen presence in sodium bisulfite solution
« on: November 16, 2020, 04:00:55 AM »
Hello,

I am curious about one thing: Sodium bisulfite (SBS) is commonly used as oxygen scavenger. Therefore, I would expect no oxygen to be present inside a sodium bisulfite solution. Well... it seems that my SBS solution contains ca. 0.5 mg/L oxygen, measured with an oxygen probe. How come there is oxygen? I would expect that all oxygen is consumed by the reaction with bisulfite. Is it just a delay in the reaction? Or there is another explanation? I would appreciate if someone can clarify this to me.

Thank you in advance. :)


Regards
Amy

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Re: Oxygen presence in sodium bisulfite solution
« Reply #1 on: November 16, 2020, 04:22:30 AM »
Have you tried to estimate equilibrium concentration of oxygen from redox potentials?
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Offline k_amy21

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Re: Oxygen presence in sodium bisulfite solution
« Reply #2 on: November 16, 2020, 05:46:40 AM »
Borek, thank you for your quick reply and suggestion. If I understand well, using the redox potential for each half cell reaction (HSO3-/HSO4- and O2/O2-), I would calculate standard cell potential E, which would allow me to calculate equilibrium constant K (E=0.0592/n x log K). The value of the K would give me an indication of the reaction rate between HSO3- and O2. Is this what you were thinking?

Unfortunately, I am not able to find redox potential for the HSO3-/HSO4- half reaction. But I did find a paper about reaction rate of HSO3- and O2 in seawater vs. in fresh water. Seems the latter is much slower due to less dissolved species and hence, lower conductivity. This is exactly my case; SBS is dissolved in deionized water. Therefore, some oxygen would easily be measured inside this solution when left in the open air. Is this correct way of thinking?

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Re: Oxygen presence in sodium bisulfite solution
« Reply #3 on: November 16, 2020, 08:04:24 AM »
If I understand well, using the redox potential for each half cell reaction (HSO3-/HSO4- and O2/O2-), I would calculate standard cell potential E, which would allow me to calculate equilibrium constant K (E=0.0592/n x log K).

Yes.

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The value of the K would give me an indication of the reaction rate between HSO3- and O2. Is this what you were thinking?

No, you are mistaking equilibrium with kinetics, these are two different things.

Quote
Unfortunately, I am not able to find redox potential for the HSO3-/HSO4- half reaction.

You should be able to find redox potential for SO42-/SO2(aq) - the latter is more or less what bisulfite solution is, should be good enough for a rough estimate.

But in a way you are right that kinetics can play a role here too, especially if the solution is open to the air.
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Offline k_amy21

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Re: Oxygen presence in sodium bisulfite solution
« Reply #4 on: November 17, 2020, 03:10:42 AM »
I found the redox potential for SO42-/SO2 and O2/O2- and calculated the K to be 3 x 1039. Borek, if you could explains what this value means now I would appreciate it.  :-[

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Re: Oxygen presence in sodium bisulfite solution
« Reply #5 on: November 17, 2020, 09:23:13 AM »
calculated the K to be 3 x 1039

Looks way too high for me.

Broadly speaking when you have equilibrium constant you can estimate equilibrium concentrations. You probably know starting concentration of bisulfite, you probably know pH (if not, do some reasonable guesses), you can assume some fraction of bisulfite got oxidized (to make things easier: assume exactly half). Just solve for the oxygen concentration, plug and chug.
« Last Edit: November 17, 2020, 10:54:47 AM by Borek »
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Offline k_amy21

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Re: Oxygen presence in sodium bisulfite solution
« Reply #6 on: November 17, 2020, 10:55:34 AM »
Ooh ok, I think I got it now; how to calculate the concentration of a specie based on the K and concentrations of other species in the reaction. Thanks a lot for the tips and leading mean to the "solution". :) I'll check once again the calculation of K, I might have messed up something knowing my clumsiness. ;)

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Re: Oxygen presence in sodium bisulfite solution
« Reply #7 on: November 17, 2020, 01:24:17 PM »
Standard redox potential for SO2/SO42- seems to be around 0.17 V, reduction of oxygen takes place at 0.40 V, so the Ecell is in the 0.2V range, that should yield log(K) in the 0.2/0.059 range (a lot of handwaving here, but I am talking just about estimating an order of magnitude, 1039 is for cells with EMF over 2V).
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