3 phase and Grid tie... what will happend?

I bet if you look hard enough you will find many rural places united states that could have saved money and used a swer line instead of a conventional but didnt because of regulatory issues or complete unfamiliarity.

Well ad to that Canada (Saskatchewan), Brazil, New Zealand, Laos, Cambodia, Vietnam, South Africa and soon to be Mozambique.

500 miles is just ridiculous. On average they are way way shorter than that.

OK so I said it wrong. No Place in the lower 48.

.Some where Lower 48 came up and that is what I ran with. Alaska and Australia are the only two places I know of that use SWER. The reason they do has already been discussed.

So Alaska is not part of the USA?

Because there is no place in the USA with just 2 customers out away 500 miles away from the city and the general public where power is generated. We don't use public funds to do that, at least for now we are a Republic. If you want to be that much a hermit, you are on your own.

Im not sure how efficiency minded they really are. Does the transformer on your street have an amorphous metal core? Why dont we see SWER in the rural areas of the lower 48?

Well from a POCO POV transmission efficiency is everything. You can even apply that to a country point of view also. Less loss is better for everyone. The difference in motor winding, transformer, and capacitor sizes is minimal compared the the transmission losses. If size were that important we would use 400 Hz like aircraft where transformers, generators, motors are 1/5 the size and weight of their 50 and 60 Hz cousins.

That is called a SWER (Single Wire Earth Return) system and only used to my knowledge in Australia and Alaska in extremely remote areas, a long ways from the generation plants with very little population density.

or use a single 3 phase transformer and those 4 transmission wires use less copper than 3 or 2 wires!

I guess there might be some basis to that argument because in rural Australia they run only a single wire and use the earth as a return for single phase. The have to use isolation transformers and some efficiency loss but the cost is less is less the extra wire.

60hz is more efficient in motors not 50hz, electronics requires smaller transformers and caps etc. 50hz was chosen because it was half of 100. 120v was chosen here because it was good for primitive light bulbs and primitive insulation. Neither system is optimal. A few countries like south korea run 60hz and 240v. To bad thats not going to happen here oh and sockets that are receesed into the wall are safer and stronger than flush mounted. Round pins plugs dont bend as easily as our flat ones.

Yes 50hz is better than 60hz for veery long transmission lines but then HVDC is better for those.

I understand that, and I did not mean to imply there are no 3-phase systems in residential. It is just rare in the USA, and you will see some in older homes like yours.

From the POCO point of view it is not economical to install 3-phase to a residence for small loads. The reason is simple, it takes 3 transformers for a 3-phase system and an extra conductor (4), versus a single transformer and 3 wires for single phase.

As for the Europeans, they actually have a better electrical architectural than the USA in my professional opinion. For residential they use 240 volt at 50 Hz. Only down side, and it is minor, by operating at 50 Hz requires physically large transformers, but 50 Hz is a little more efficient than 60 Hz. The big advantage is at balanced 240 volts you can double the power for a given size current. That means a lot fewer circuits you have to run from your breaker box. In addition since it is balanced power you do not have the harmonics and electrical noise problems you get with unbalanced 120 volt systems we use in the USA.

It depends on the country, i've heard small 3 phase sytems are popular in france.

Well, I have 3ph in my 2000 sq ft McMansion in the USA. In my neighborhood, in the 1950s, any AC installation 3-ton or bigger got 3ph. Many people have heard of 3ph

Here as a residential customer we pay per kWh - not for reactive power.

When the electrician connected the loads to the various phases he just went one after the other with no questions about use or thought about it either I am sure.

Thanks again!
Russ

Unbalanced does not affect the bill, but you might have overlooked something.

As I said earlier 3-phase is typically used for industrial and commercial users. With those customers they typically have very large motor and non linear loads which results in low power factor. Here in the USA utilities do not charge residential customers for reactive power, only resistive or the real power because in a home you just do not have large reactive loads that a electric utility is concerned about.

However utilities do charge commercial and industrial users for reactive power. The lower the power factor (more reactive), the more the utility charges. The higher the power factor (less reactive), the less they charge. This is why large industrial users have capacitor banks to correct the power factor, it saves them large amounts of cash, and save the utility a lot of generating capacity. In other words the utilities penalize the users for low power factors. Both benefit when the power factor is closer to 1.

To take it one step further, the power factor correction devices you see marketed to residential customers is fraud because the utilities do not charge residential customers for VAR's.

@ Sunking - Thanks for the explanation with details and you are right - the math quickly gets quite confusing!

What I was trying to determine is how the unbalanced load would affect my power bill. Would it be any less if balanced. As I understand from your explanation the 3 phases are only cumulative and it would not.

Best Regards,
Russ