You’re right. I’m not a scientist. I’m not even a professional chef. What matters to me (and most American homeowners, which is who the article is the granular control available to me. I don’t much care what’s possible in a lab. It’s at least part of the reason why, as the article states, many of us are unwilling to give up the control we get with gas.
Gas stoves probably lose half their energy by heating the air all around the pot
I’ve seen that, too. I don’t believe it’s accurate (I’d like to see an unbiased verification of that 50% number), and it misses another advantage of gas: gas heats pots more evenly by distributing some heat up the sides. Elecric heats only the bottom directly, and sides are heated only through conduction. It also means that less of that heat is wasted: just because it isn’t hitting the bottom of the pot doesn’t mean it isn’t doing useful work. This also only considers pots. Pans usually have greater coverage of tye heating surface, and less heat escapes around the sides. This is relevant especially where high heat matters, such as searing. Finally, there are pots like my wok, which has a base that entirely covers the grill. It has holes, so it breathes, but it captures nearly all of the heat. Woks are particularly bad on conventional ranges, and having an electric range essentially eliminates woks as a viable tool.
As I think more about this, the more disadvantages of electric I see. Sauteing is better on gas. You can manipulate a pan, lift and tilt, and have many more options than simply having or not having applied heat.
I can see having a range with a few induction spots; most dishes don’t need the fine control; boiling water, cooking pasta, and steaming vegetables are all gross operations, but I’d still want at least one gas surface. It’s just better for anything that isn’t boiled food.
You’re right. I’m not a scientist. I’m not even a professional chef. What matters to me (and most American homeowners, which is who the article is the granular control available to me. I don’t much care what’s possible in a lab. It’s at least part of the reason why, as the article states, many of us are unwilling to give up the control we get with gas.
I’ve seen that, too. I don’t believe it’s accurate (I’d like to see an unbiased verification of that 50% number), and it misses another advantage of gas: gas heats pots more evenly by distributing some heat up the sides. Elecric heats only the bottom directly, and sides are heated only through conduction. It also means that less of that heat is wasted: just because it isn’t hitting the bottom of the pot doesn’t mean it isn’t doing useful work. This also only considers pots. Pans usually have greater coverage of tye heating surface, and less heat escapes around the sides. This is relevant especially where high heat matters, such as searing. Finally, there are pots like my wok, which has a base that entirely covers the grill. It has holes, so it breathes, but it captures nearly all of the heat. Woks are particularly bad on conventional ranges, and having an electric range essentially eliminates woks as a viable tool.
As I think more about this, the more disadvantages of electric I see. Sauteing is better on gas. You can manipulate a pan, lift and tilt, and have many more options than simply having or not having applied heat.
I can see having a range with a few induction spots; most dishes don’t need the fine control; boiling water, cooking pasta, and steaming vegetables are all gross operations, but I’d still want at least one gas surface. It’s just better for anything that isn’t boiled food.