PH, Alkalinity, and total carbonate concentration

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The discussion revolves around calculating alkalinity and total carbonate concentration in natural water with a pH of 7.8 and an alkalinity of 125 meq/L. The calculated alkalinity as mg/L CaCO3 is 6250 mg/L, derived from converting meq/L to eq/L and using the equivalent weight of CaCO3. There is a focus on understanding the relationship between alkalinity and carbonate concentration, emphasizing alkalinity as a measure of the water's buffering capacity. The conversation also highlights the need for a quantitative approach to determine total carbonate concentration (CT), with references to the contributions of bicarbonate, carbonate, hydroxide, and hydrogen ions. The discussion concludes with a mention of carbonic acid as the acid needing neutralization in this context.
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Homework Statement


If the pH of a natural water is 7.8 and the alkalinity was measured to be 125 meq/L, determine the following:
-Alkalinity as mg/L CaCO3: Answer = 6250 mg/l CaCO3
-Approximate the total carbonate concentration CT, in moles per liter: Answer = 0.125 moles per liter

Homework Equations


Not certain

The Attempt at a Solution


I was able to determine the alkalinity by finding the equivalent weight of CaCO3, 50 g/eq. I then converted 125 meq/L to eq/L. Then I multiplied (50 g/eq)(0.125 eq/L)(1000 mg/g) and got an answer of 6250 mg/L of CaCO3. I am having trouble approximating the total carbonate concentration. Could someone help please?
 
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What is the definition of alkalinity? How is it related to the carbonate concentration?
 
Well, alkalinity is the buffering capacity of the liquid. The resistance of the liquid to pH change. The greater the carbonate concentration the greater the buffering capacity.
 
Let me put it differently then. How is carbonate alkalinity measured and how - in result of the way it is measured - does it depend on the carbonate concentration?

I am not asking about qualitative description, but about a simple quantitative one.
 
I realize it is going to be something like this:

Alkalinity = (1 eq/mol)([HCO3]) + (2 eq/mol)([CO3]) + (1 eq/mol)([OH]) - (1 eq/mol)([H])

The influence of the OH and H are minimal and easy to calculate. [H+] = 10^(-7.8), [OH-] = (10^(-7.8))/(1 x 10^(-14))
 
Last edited:
I also know that ultimately we will get something like this:

Alkalinity = f1Ct + f2Ct + [OH-] - [H+]

f1 and f2 need to be calculated in order to ascertain Ct.
 
You start with pH of 7.8. What do you have to neutralize?

Note: I don't like the answer given, IMHO it is slightly off.
 
We have to neutralize an H+ donating acid.
 
Which is?

You are giving the simplest possible answer, one that doesn't require any insight, and you wait for another hint. Try harder.
 
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Carbonic Acid (H2CO3) I believe.
 

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