Cooking Noodles with Boiling Water & Salt

In summary: salt... is providing sites for the water molecules to form a solid, which would account for why it changes the boiling point.
  • #36
Originally posted by arcnets
I have done some more experiments.
First, I used pure water (just simmering) and tried to reproduce the effect with salt, then with sand.
Observation: No effect(!)
Then I remembered, in the original experiment I had some molten butter in the water.
I tried to reproduce that.
Observation: With salt only a small effect (if any), with sand no effect.
Next, I thought, what else was there in the original experiment? The noodles, of course. But also 2 spoons of 'Instant Fleischbrühe' (German for 'meat extract powder').
Sorry to bother you with these 'unphysical' ingrediences, but what influences may they have?

Still puzzled...

Several points (of many possible): 1) you are dealing with a heat transfer process, and the degree of superheat you can establish in the pan/pot/cauldron is going to be proportional to the magnitude of the enhanced boiling effect you observe --- translated to English, turn the burner up to full blast; 2) the butter and noodles may have contributed to the superheat at simmer by quenching the pot's built in nucleation sites with butter, and by reduced thermal conductivity of the water-butter-noodle system; 3) butter on the surface is probably going to quench nucleation sites on sand as it enters the mix; 4) "3)" suggests a couple other experiments you can try (I hope you're treating this with the respect due something that can scald you rather severely) --- at full heat (max superheat), try the salt, the sand, and wetted salt and wetted sand (I'd say a slurry in a teaspoon with enough water that you can dump the slurry rather than having to snap it into the water); 5) once you get the sand to work, if you've got a thermometer that let's you read to tenths of a degree at 100 C, try measuring temperature at the bottom of the pan for a) water, b) water plus salt, c) water plus salt plus sand, and d) for the last mess after you've let it cool, and brought it back to a boil.

Don't run your utility bill up too much, but have fun.
 
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  • #37
Bystander,
thanks indeed for your very detailed analysis on my little 'crazy cooking scientist' experiment. Don't worry, I won't burn myself - I have enough experience with making e.g. 'fish in beer batter' in a pan full of oil (boy, can that stuff explode... ).

OK. If I read you correctly, then the thermometer should show well above 100°C because of the fat, and the salt/sand is there to provide nucleation sites to make the water evaporate, right? Let's see...
 
  • #38
What noodles are you using? What is the gluten content? Are you using rice noodles? Have the noodles been artificially colored? Do they contain eggs? Have you considered the fact that they may contain insect parts? Are you sea level? (See Boyle's law).
 
  • #39
The nucleation theory IS the whole story.

Adding salt to water RAISES the boiling point. Period. In fact, adding _anything_ that dissolves will raise the boiling point of any solvent.
 
  • #40
"The thread that wouldn't die." Absolute statements have the absolutely nasty habit of turning around and biting people who make them --- depending upon the solute, the boiling temperature of an aqueous solution at 1 atm can be increased, decreased, or totally unaffected; the partial pressure of water measured over such a solution may be greater than, equal to, or less than the product of water mole fraction and the vapor pressure of pure water at the temperature of the boiling solution. Interested parties may consult King, Rowlinson, Lewis & Randall, Klotz, Glasstone, or PM me for a longer bibliography of less commonly available sources on the topic (dead serious interest in the topic for the latter case --- I ain't digging into that mess for free).
 
  • #41
I feel I should give an exact recipe that guarantees to reproduce this effect. I'll try...
 
  • #42
"Nucleate(d) boiling" is a heat transfer problem, and been the subject of much study for the past century and a half or so, remains the subject of much study, and will remain such; don't kick yourself too hard if you can't come up with a precise recipe --- if you do, don't report it here, patent it and sell it to the chemical process industries. You were more than specific enough in your description of the phenomenon of interest --- anyone who's ever been near a kitchen with eyes and ears open has seen and heard the water in a clean pot "bump."
 

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