A lot of web pages claim that sugar caramelizes at ~160C. But also a lot of recipes caramelize sugar in a simmering water. The boiling point of water is only 100C. So how can these recipes succeed so well in practice?
3see this excellent video by Minutephysics on why there's no single melting point for sugar– JornMay 31, 2020 at 10:40
Are you truly trying to caramelize the sugar or are you trying to melt the sugar to make caramel?– JoeMay 31, 2020 at 15:07
a lot of recipes caramelize sugar in a simmering water.
Calling the solution "simmering water" isn't a good characterization. The boiling point of pure water is 100C. But the boiling point rises as the concentration of sugar in the solution increases. Once you're above 75% or so, the boiling point increases significantly. For 90% sugar (still 10% water remaining), it's up to around 120C.
As the water evaporates, the sugar concentration, the boiling point, and therefore the temperature all increase. When you reach 160C, there's probably less than 1% water and the decomposition of the sugar (carmelization) rate starts to increase significantly.
There are some charts/tables for different concentrations here, but they only goes up to 90%
2Incidentally I started from solid sugar. It boils just fine.– JoshuaMay 31, 2020 at 16:51
Recipes that call for water to be added to the sugar for making a caramel do so to help all the sugar melt, by dissolving some or all of it in the water. This prevents premature crystallization of the sugar. When you keep heating the mixture, all the water will evaporate, at which point the temperature of the (now pure) molten sugar will rise above 100 °C and will go through its different cooking stages. The sugar will caramelize when it reaches a temperature of 160 °C.
6A process sometimes described as “wet caramel”. “Dry caramel” heats the sugar crystals directly in the pot or pan.– Stephie ♦May 30, 2020 at 17:21
But from my personal observation, the caramelization (coloring) starts before the water is entirely evaporated, which can be told from the volume change? May 30, 2020 at 23:09
4@Fermat'sLittleStudent, why would you assume anything has a uniform temperature, especially when it has a heat source on one side (stove) and a heat sink on the other (atmosphere)? Here is a exercise to prove that a temperature gradient exists in your pan: Heat a greased pan on high until water will dance, add frozen meat, cook until lightly burnt. Notice that the meat is still raw in the middle and probably frozen. Same thing.– hildredMay 31, 2020 at 0:16
@hildred Not quite the same thing, as in the sugar-water mixture convection helps to equilibriate the temperature, especially as the stuff is boiling. There will still be some effect, though.– LSchoonMay 31, 2020 at 8:00
1@Fermat'sLittleStudent for the same reason, I am a little sceptical of determining whether there is water left by change in volume, as the boiling mixture will expand some due to the bubbles. A much more accurate way to tell if the water has evaporated is to look at the size of the bubbles, which will change when the water is gone.– LSchoonMay 31, 2020 at 8:01
While the other answers are right, it should be pointed out that caramelisation does not happen at 160°C - not only at that temperature, at least. Thermal decomposition happens as both a factor of temperature and time. In fact, it is possible for sugar to undergo thermal decomposition well under 160°C: Stella Parks over at Serious Eats does it at 150°C, and Harold McGee has done it at 125°C
Like Agos says, thermal decomposition definitely starts happening below 160°C
I spent a lot of time playing around trying to make Caramel a less dangerous process (ever try making 20lbs of caramel when you're doing it at 160°C? Good luck :D)
In 2017, I came up with an alternative caramel process that never goes above 125°C
It takes hours instead of minutes, but ... it's really easy to do, and doesn't require any thermometer.
Dry carmelization is a colour thing. Melt all the sugar and watch for colour changes. Dry sugar can not and will not prematurely recrystallize as crystalization is a function of sugar coming out of solution in water. Melted sugar is not the same as sugar dissolved in water.
To start wet and keep heating is where crystallization can happen. Indeed you can cook till all moisture is gone at which point you have no more dissolved sugar but melting sugar at which time you can proceed to raise the temp till it colours.
You need to stir so vigorously with dry melted sugar that taking temp would be awkward and dangerous. Some make caramel wet and stop at a pre determined temperature to determine the finished firmness but this is not caramelization but the mallard reaction. Real caramelization of sugar happens 150 or higher.
Try cooking dry sugar (which will require vigorous stirring) till it colours like old copper. Off heat slowly whisk in heavy cream until it is good and fluid and then boil to your terminal temperature of say 118 for caramel for apple dipping and see the difference in flavour.
My point: many confuse the colouring of dairy products in a caramel with the caramelization of sugar which happens way up there in temperature.
1There will not be significant Maillard browning in a sugar water solution. The Maillard reaction requires amino acids, which are only present in trace amounts in white sugar.– SneftelMar 29, 2021 at 20:19