I am too lazy to compute anything, but consider what is the foam?

The foam is a bubble of steam covered with a layer of water and sugar solution. If there is no foam the area of the pot exposed to air or evaporation is two dimensional, with maybe some big bubbles from the boil. Each little bubble in the multitude contributes more to the area exposed to the air where the surface cover water can evaporate, burst and release trapped steam, making way for the next bubble. It is a fractal problem,but the dimensions of the available evaporation surface are larger than 2 by far when there is foam.

Lets put it another way. The foam raises a film of hot water to contact with the air, without obstructing the trapped steam, so when a foam bubble breaks there is water out of the pot that would have been in the pot if there were no foam.

So the oldtimers are probably correct.This argument depends on the surface of the foam bubbles being a solution with water..

I am too lazy to compute anything, but consider what is the foam?

The foam is a bubble of steam covered with a layer of water and sugar solution. If there is no foam the area of the pot exposed to air or evaporation is two dimensional, with maybe some big bubbles from the boil. Each little bubble in the multitude contributes more to the area exposed to the air where the surface cover water can evaporate, burst and release trapped steam, making way for the next bubble. It is a fractal problem,but the dimensions of the available evaporation surface are larger than 2 by far when there is foam.

Lets put it another way. The foam raises a film of hot water to contact with the air, without obstructing the trapped steam, so when a foam bubble breaks there is water out of the pot that would have been in the pot if there were no foam, the extra surface of the foam increases the evaporation.

So the oldtimers are probably correct.This argument depends on the surface of the foam bubbles being a solution with water.Of course an experiment should be carried out with the specific liquid to decide on this.

I am too lazy to compute anything, but consider what is the foam?

The foam is a bubble of steam covered with a layer of water and sugar solution. If there is no foam the area of the pot exposed to air or evaporation is two dimensional, with maybe some big bubbles from the boil. Each little bubble in the multitude contributes more to the area exposed to the air where the surface cover water can evaporate, burst and release trapped steam, making way for the next bubble. It is a fractal problem,but the dimensions of the available evaporation surface are larger than 2 by far when there is foam.

So the oldtimers are probably correct.This argument depends on the surface of the foam bubbles being a solution with water..

I am too lazy to compute anything, but consider what is the foam?

The foam is a bubble of steam covered with a layer of water and sugar solution. If there is no foam the area of the pot exposed to air or evaporation is two dimensional, with maybe some big bubbles from the boil. Each little bubble in the multitude contributes more to the area exposed to the air where the surface cover water can evaporate, burst and release trapped steam, making way for the next bubble. It is a fractal problem,but the dimensions of the available evaporation surface are larger than 2 by far when there is foam.

Lets put it another way. The foam raises a film of hot water to contact with the air, without obstructing the trapped steam, so when a foam bubble breaks there is water out of the pot that would have been in the pot if there were no foam.

So the oldtimers are probably correct.This argument depends on the surface of the foam bubbles being a solution with water..