So I'm trying to work out some cable calcs for a sub main leaving LV Side distribution equipment sited adjacent to a 800Kva transformer , any ideas what the Ze is likely to be ? I would think it will be really low
So I'm trying to work out some cable calcs for a sub main leaving LV Side distribution equipment sited adjacent to a 800Kva transformer , any ideas what the Ze is likely to be ? I would think it will be really low
Well if you mean by 800kVA, one where the voltage drops by (say for an easy figures example) 5% at full load, you can immediately say that at 20 times that load current, 100% of the voltage is dropped, and under no condition will that fault current be exceeded, as that is the 'spanner on the terminals' condition. Then, as you move further down the sub main cables these conductors are added in the increasing fault loop, the Zs rises and the available fault current falls... as I'm sure you know.
So each line carries about 1200 amps full load, and if the droop was 5%, then the PSSC would be 24kA on any one phase, equivalent to a Ze of 9 milliohms (0.009 ohms)
Real transformers usually do a bit better than 5% output droop at full chat, but the fact the 5x20=100% makes for an especially easy illustration. The actual percentage is often printed on the transformer rating plate, if you can see it. An example from abroad with 4% internal impedance. (at 4% the ratio of steady state fully loaded current to the max fault current is 25, rather than 20, but the idea is the same)
Mike
Mike.
Well if you mean by 800kVA, one where the voltage drops by (say for an easy figures example) 5% at full load, you can immediately say that at 20 times that load current, 100% of the voltage is dropped, and under no condition will that fault current be exceeded, as that is the 'spanner on the terminals' condition. Then, as you move further down the sub main cables these conductors are added in the increasing fault loop, the Zs rises and the available fault current falls... as I'm sure you know.
So each line carries about 1200 amps full load, and if the droop was 5%, then the PSSC would be 24kA on any one phase, equivalent to a Ze of 9 milliohms (0.009 ohms)
Real transformers usually do a bit better than 5% output droop at full chat, but the fact the 5x20=100% makes for an especially easy illustration. The actual percentage is often printed on the transformer rating plate, if you can see it. An example from abroad with 4% internal impedance. (at 4% the ratio of steady state fully loaded current to the max fault current is 25, rather than 20, but the idea is the same)
Mike
Mike.