Calculating 3-Phase current requirements where (2) 1-phase transformers are installed?

[Tip DS]

Weird situation: Normal 480V 3-Phase loads total 21.6A
In addition, there are (2) 25kVA 1-Phase transformers connected using different power legs (one of them shared, obviously.)

I get the 25kVA single phase each requires 25,000VA/480V = 52.1A

The issue is the leg that's shared between the two single phase transformers. I wouldn't expect them to double the current on the shared leg to 104.2A, but I also know it won't be the 52.1A alone added to the other 3-Phase loads. I was half inclined to treat the scenario as though there was 25kVA across each par of legs for a total of 75kVA and calculate it as a 3-Phase transformer for 75,000VA/(480*sqrt(3)) = 90.2A and add that to the 21.6A.

What say you?

 

[wwhitney]

The issue is the leg that's shared between the two single phase transformers. I wouldn't expect them to double the current on the shared leg to 104.2A, but I also know it won't be the 52.1A alone added to the other 3-Phase loads.

If you assume that those two single phase transformers are seeing loads with comparable phase shifts between current and voltage (e.g. all loads resistive, so 0 phase shift), then the two currents you add in the shared leg are 60 degrees out of phase, so the sum has a magnitude of 52.1A * sqrt(3).

I was half inclined to treat the scenario as though there was 25kVA across each par of legs for a total of 75kVA and calculate it as a 3-Phase transformer for 75,000VA/(480*sqrt(3)) = 90.2A and add that to the 21.6A.

Indeed, that will give you the same result as above.

Cheers, Wayne

 

[Flicker Index]

https://www.tescometering.com/wp-content/uploads/2024/02/MSU-Meter-School-_Polyphase-Metering-101_Tom-Lawton_2.20.24.pdf

You may find the general discussion there useful.

If the 480 3ph user is a VFD elevator, and the single phasers are lighting or common load, normal calculations won't work.

 

[winnie]

The issue is the leg that's shared between the two single phase transformers. I wouldn't expect them to double the current on the shared leg to 104.2A, but I also know it won't be the 52.1A alone added to the other 3-Phase loads. I was half inclined to treat the scenario as though there was 25kVA across each par of legs for a total of 75kVA and calculate it as a 3-Phase transformer for 75,000VA/(480*sqrt(3)) = 90.2A and add that to the 21.6A.

What say you?

That is the easiest way to get a good approximation.

The true answer will likely be lower since the 25kVA transformers are likely not fully loaded.

As @wwhitney describes, the currents on the shared leg are out of phase, so they don't simply add.

 

[jim dungar]

It looks like the OP is describing a 3-phase open delta configuration using equally sized transformers. For balanced 3-phase loading this will look like it was a 43.25kVA transfomer (.577x75).

 

[wwhitney]

It looks like the OP is describing a 3-phase open delta configuration using equally sized transformers.

I believe the OP is talking about sizing a feeder that supplies 21.6A of 3-phase loads and (the primary side of) two single phase transformers.

Cheers, Wayne