Gas stoves fill the air in your home with particulate matter (pm), which has been found to increase cancer risk in the long term.
So next time you buy a stove, consider choosing an induction stove.
Btw, gas stoves being better or faster than induction is a myth. They have certain specific advantages, but they are actually slower.
Obligatory Technology Connections video:
https://www.youtube.com/watch?v=eUywI8YGy0Y
So this is 4000 watts? What household circuit can support that?
A random Better Homes and Gardens article clocks a 2000 square ft (185 square meters) home with central air conditioning at nearly 19,000 watts.
https://www.bhg.com/home-improvement/electrical/how-to-check-your-homes-electrical-capacity/
So I think most homes could handle that in general, but I don’t know about specific wiring requirements to handle that kind of power draw from just the kitchen. So do these things require that level of retrofit?
I’ve never had an induction stove, but I grew up with an electric stove - IIRC, it was on a separate fuse from the rest of the kitchen, and it had a weird plug because it needed a different voltage than most other appliances.
I would assume the requirements for an induction stove are more or less the same… Switching from regular electric to induction would probably be easy, but gas to induction would take a lot more work.
Uhhh, tons of people in Europe are on 240V 3 phase power.
My oven is 3100W and that is just fine. 3 phase consumer induction cooktops can easily go that high or higher.
Once my 3 phase charging pole is put in, my car will charge at >10000W on a household circuit.
Plenty can. Just need a 240v 30a outlet or higher
Which isn’t a thing in the states anyway.
Yes it is? The US very much has 220v for power hungry stuff. Things like ev chargers, central ac units, water heaters, electric clothes dryers, etc. It uses quite the variety of different plugs for the various amperages
Edit: technically its 220v*
That is exactly what I have running to my traditional electric stove and I live in USA.
I’m confused as to why you’re so confident. The US has 3-phase power and homes get 120V from line 1 to the neutral (split-phase). If you use line 1 and 2, you get 240V. More than enough to power an oven. This is the case in every modern residential home in the US because they have a national building code.
Yes, I’m aware that you can do this but there are not readily available outlets throughout a home for this, lol. Yes, let me move my stove or dryer so I can plug my wok induction stove in.
…You do know that an oven needs a dedicated outlet, yes? As in, if you don’t have a 30-50A receptacle in your home, one must be installed in order for you to have an oven. All new builds and most existing buildings have this dedicated outlet.
Edit: I see that you’re using stove and oven separately. I am talking about a range (oven and stovetop combined), since where I live these are most common and “oven” and “stovetop” are roughly interchangeable. Apologies for any confusion.
Idk about my math but most American household circuits require stoves to be on a (220V) dual phase 18 amp circuit. Which should output around 8kW (18A * 220V)
Should be a lot more than 18A. Should be closer to 30A-50A to account for usage. 18A is what a kitchen receptacle would require and is so low that an oven on a 18A breaker would trip constantly. I’m Canadian so I mostly know the CEC but the NEC requirements in the USA are very similar.
More info if you’re interested.
I was thinking of a single dual phase outlet. Is it also higher amperage as well as voltage?
I have to correct you (sorry) when you say “dual-phase” because homes in Canada (my country) and the US don’t have dual-phase electricity and haven’t for many, many decades. What you are talking about is called “split-phase” and is actually just a single phase that’s been split using a neutral/return conductor.
To actually answer your question, yes, it’s higher amperage and higher voltage. Every circuit breaker is really just a “tap” into the panel in order to create a parallel circuit at the applied voltage (usually 120V) and whatever amperage the breaker is rated for (after ensuring that you’re using the correct size of breaker, of course).
The main reason why amperage is really important for larger appliances is because the cable used to plug them in (whether that’s by literally plugging it in or by hardwiring it into the panel) needs to be thick enough not to overheat from regular use. When precautions aren’t taken, it’s pretty easy for the cable jacket to melt (happens around 90 degrees C) and for the bare wires to eventually short and/or start a fire.
Obviously, a 18A breaker would prevent this, but it would also prevent you from using the oven.
Thanks for the answer!
Here in Italy most houses used to have contacts allowing max 3kW, but nowadays it’s more common to have 4.5kW (with smart utility meters which allow 30% over current for 3 hours).
Still have to be careful if you’re running a washing machine or something like that, but it’s doable.
Of course old houses may have insufficiently-sized wires, and that’s another can of worms.