It does, but it’s super dangerous to do unless you have it wired up properly. Proper installations will use a special connector so you can’t plug anything else into that receptical, and will have it interlocked against the main breaker - you can’t plug anything in without disconnecting from the grid. The dangers of doing it amateur-hour are:
You now have a cable that you can unplug and have live ends exposed - which if you don’t realize is connected to an active generator is super dangerous, and even if you do one slip and you are now the ground conductor
If you connect the generator while still connected to the grid, your generator is almost certainly going to be out of phase. This will probably cause damage to your generator and anything else plugged in at the time
If you don’t have an interlock and run the generator while connected to the grid (say during a power outage) you will be back-feeding power into the grid. This is super dangerous for anyone coming to fix the outage, as things that they’ve isolated to fix can still end up being live
Note that this interlock is also required if you have solar - although it’s usually in the form of an automatic breaker that will disconnect and put the circuit into “island mode” if it detects a loss of grid supply
I did it last week. We were out of power for about 30 hours. But I actually have a degree in Computer Engineering, and I did it with a friend who is a professional Electrician.
It is indeed EXTREMELY dangerous. If you don’t know what you’re doing, or make a mistake, best case scenario, you fry your generator. Worst case, you electrocute a lineman from the power company, who isn’t expecting lines to be live when there’s an outage, because yes, if you feed power into your house, that will flow OUT of your house onto the main lines (to some extent), if you let it. You could end up trying to power your whole block on your little gas generator.
We made sure both the indoor and outdoor main power shutoffs for the house were turned off, as well as all breakers. Then we unplugged the oven, and used that for the feed from the generator. Then we gradually re-activated breakers so as not to add too much load to the generator at once. Ultimately, we were able to run the whole house, except for the AC compressor, which the generator actually would have had enough power to run, but not to kick-start.
The proper way to hook up a generator to feed your house is to install an “inlet” which is both nominatively and physically the opposite of an outlet: instead of holes going into a box, you have prongs sticking out of a box. Generally, it’ll be one of the big fat 4-pronged round cables, like what your oven might use. That’ll feed down to a large double-breaker, in the top-right slot of your breaker panel. That breaker stays off until you want to run a generator, and, to meet code, you have to also install a special bracket that prevents you from turning this breaker off without turning off the primary feed for the whole house. Still kinda dangerous, but they make those brackets surprisingly foolproof.
except for the AC compressor, which the generator actually would have had enough power to run, but not to kick-start.
This sentence triggered my PTSD. Imagine, if you will, a world where executives insist that datacenter AC be put on UPS battery. A world where those same executives declare that a different datacenter is just fine running at 95% power capacity because “it’s not 100%.” A world where inrush current does not exist. Except it does exist, but all professional advice is ignored until there are consequences. And even after such consequences are realized, one of those same executives still tries to run his home sump pump off of a desktop UPS during a power outage, pops it immediately, then goes and gets another from the office, which also pops immediately.
The sign in OP’s post will always be relevant somewhere.
People use them to make their generators power their homes, by adding power into an outlet.
So, whatever time of year power outages are likely to happen in this area.
Holy shit, does that work?
I’m only familiar with having a generator properly wired into the house system at the panel, not some electrical Uno Reverse.
It does, but it’s super dangerous to do unless you have it wired up properly. Proper installations will use a special connector so you can’t plug anything else into that receptical, and will have it interlocked against the main breaker - you can’t plug anything in without disconnecting from the grid. The dangers of doing it amateur-hour are:
Note that this interlock is also required if you have solar - although it’s usually in the form of an automatic breaker that will disconnect and put the circuit into “island mode” if it detects a loss of grid supply
I did it last week. We were out of power for about 30 hours. But I actually have a degree in Computer Engineering, and I did it with a friend who is a professional Electrician.
It is indeed EXTREMELY dangerous. If you don’t know what you’re doing, or make a mistake, best case scenario, you fry your generator. Worst case, you electrocute a lineman from the power company, who isn’t expecting lines to be live when there’s an outage, because yes, if you feed power into your house, that will flow OUT of your house onto the main lines (to some extent), if you let it. You could end up trying to power your whole block on your little gas generator.
We made sure both the indoor and outdoor main power shutoffs for the house were turned off, as well as all breakers. Then we unplugged the oven, and used that for the feed from the generator. Then we gradually re-activated breakers so as not to add too much load to the generator at once. Ultimately, we were able to run the whole house, except for the AC compressor, which the generator actually would have had enough power to run, but not to kick-start.
The proper way to hook up a generator to feed your house is to install an “inlet” which is both nominatively and physically the opposite of an outlet: instead of holes going into a box, you have prongs sticking out of a box. Generally, it’ll be one of the big fat 4-pronged round cables, like what your oven might use. That’ll feed down to a large double-breaker, in the top-right slot of your breaker panel. That breaker stays off until you want to run a generator, and, to meet code, you have to also install a special bracket that prevents you from turning this breaker off without turning off the primary feed for the whole house. Still kinda dangerous, but they make those brackets surprisingly foolproof.
This sentence triggered my PTSD. Imagine, if you will, a world where executives insist that datacenter AC be put on UPS battery. A world where those same executives declare that a different datacenter is just fine running at 95% power capacity because “it’s not 100%.” A world where inrush current does not exist. Except it does exist, but all professional advice is ignored until there are consequences. And even after such consequences are realized, one of those same executives still tries to run his home sump pump off of a desktop UPS during a power outage, pops it immediately, then goes and gets another from the office, which also pops immediately.
The sign in OP’s post will always be relevant somewhere.
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