Ratios make me feel like an idiot - help me mix up some Coca-Cola

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I may be over-complicating things, but something doesn't seem right (and I swear this isn't homework, I'm friggin 30 years old :P).

I want to see what it will cost me to make a TWO liter of Coca-Cola using coke syrup and CO2 (assume the water is free). Assume CO2 costs 0.21usd per liter of water (25usd for 120 liters).

The coke syrup needs to be diluted at a "5.4:1" ratio with the carbonated water. So how much will it cost me to make my own 2-liter?

Here's what I've done so far:

syrup cost per liter = C / ((G * D) * 3.785)

where

  • C is the cost of G gallons of coke syrup
  • D is the dilution (5.4), and
  • 3.785 converts gallons to liters

For a 65.00usd box of 5 gallons of coke syrup, I get a cost of 0.64usd per liter. Along with CO2 cost, that makes it 1.69usd for a 2-liter.

That seems very, very costly, given that 2-liters in the store usually cost much less. If I'm wrong, where am I going wrong? If I'm right, why don't restaurants use 2-liters instead of fountain machines to increase their profits/lower their costs? I know they charge a lot for a glass of coke (and refills), not a 2-liter, but it still seems like it would make them more money.

I put that equation into an Excel sheet, and it seems like the syrup would have to be 30usd in order to get the cost down to 1.00usd/2-liter, and that doesn't even seem like much of a gain over buying 2-liter bottles from a grocery (especially with the equipment overhead costs). I spoke to a restaurant manager, and his cost is 56usd for a 5-gallon box, which puts the per 2-liter cost at $1.51 by my calculations, so that's when I suspected I was doing something wrong.

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3 Answers

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With a $5.4:1$ ratio of carbonated water to syrup, assuming that the quantities are additive (mixing 5.4 units of carbonated water with 1 unit of syrup yields 6.4 units of the mixture), I get: $$5\text{ gallons of syrup}\times\frac{6.4\text{ gallons of mixture}}{1\text{ gallon of syrup}}\times\frac{3.785\text{ liters}}{1\text{ gallon}}\approx 121\text{ liters of mixture}.$$ At $\$65$ per box, $$\frac{\$65}{121\text{ liters}}\approx\$0.54\text{ per liter}.$$ This is all ignoring the cost of carbonating the water, because around me, a 2-liter bottle of Coke goes on sale for 99 cents with enough regularity that it already doesn't make sense to mix at home.

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Just to confuse things a little more - you have to make sure your beginning assumptions are correct - unfortunately your ratio for Coke is not correct. The recommended ration is 5:1. So your self-made is even more expensive than you think.

Stores do loss leaders to get people to come into the store, so your not going to save money doing self-made.

However, given a good setup, your system has tha ability to provide much better taste - fresh and with full carbonation (if you keep it all very cold!). You should also be able to adjust the ratio to your personnal taste.

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I realize this is an old topic. It seems as though the estimation of the price of carbonation is quite high.

$5$ gallons of syrup - $65.00$ or $18.9270589$ litres - $65.00$ to calculate the price per litre we divide the price by the number of litres. So $65/18.9270589 = 3.434$ per litre of syrup.

I get (using your figures) $1$ litre of syrup at $3.434, 1$ litre of carbonated water at $0.21$ (this seems too high, seems to me it ought to be more like $0.05$/ litre).

To make $6$ liters of cola - ($5.4$ liters of $CO_2$ water @ $.21$/liter) + ($1$ liter of syrup @ $3.434.29) = (5.4 * .21) + (3.434) = (1.134) + (4.434) = 4.568$ for $6$ litres. Now we divide by $3$ to get $2$ liters $4.568/3 = 1.52$ for $2$ litres. Or if we assume a complete additive nature of cola syrup and water we get $4.568$ for $6.4$ liters. Then dividing we get $0.713$ per liter or $2$ liters for $1.43. $

However, if we assume a value that I think is closer to the price per litre of carbonated water of $0.05$ we get something much more reasonable.

($5.4$ litres of $CO_2$ water @ $0.05$/liter) + (1 liter of syryp @ $3.434) = (5.4 * .05) + (3.434) = (0.27) + (3.434) = 3.71$ for $6.4$ litres. Now we divide by $6.4$ to get $0.58$ per liter. That gives us a price of $1.16$ for $2$ liters.

There is, of course, a lot of rounding in my calculations for sake of ease.

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