Carlos Melim
Member
- Location
- Funchal - Madeira
- Occupation
- Engineer
ood afternoon everybody.
I am involved in a project and I want to calculate the fault currents on several locations to validate the short-circuit power needed for each panel and the upstream trip switches nominal currents and its types A, B, C or D.
I use the impedances method and determine all the impedances ( resistances and reactances ), and add them up from the power transformer of the secondary substation, to the selected location.
To chose the protection devices short-circuit power, I consider a bolted three-phase short circuit;
For the the validation of the upstream trip switches nominal currents and types, I consider a single phase short-circuit, the fault current;
Please check an attached draft.
If the feeder cable of a panel is long I get a low fault current.
But if the feeder of a downstream panel is short the fault current is higher, even if the distance to the secondary substation is higher.
All the calculations that I´ve come across consider the three phase feeders of the panels as totally balanced. No neutral currents.
So the single phase short-circuit fault loop starts and ends on the upstream panel.
Is this calculation method valid?
What really happens to the neutral current during a single-phase short-circuit?
It should close on the neutral bar of the power transformer.
All help and enlightening will be much appreciated.
Best regards.
Carlos Melim
I am involved in a project and I want to calculate the fault currents on several locations to validate the short-circuit power needed for each panel and the upstream trip switches nominal currents and its types A, B, C or D.
I use the impedances method and determine all the impedances ( resistances and reactances ), and add them up from the power transformer of the secondary substation, to the selected location.
To chose the protection devices short-circuit power, I consider a bolted three-phase short circuit;
For the the validation of the upstream trip switches nominal currents and types, I consider a single phase short-circuit, the fault current;
Please check an attached draft.
If the feeder cable of a panel is long I get a low fault current.
But if the feeder of a downstream panel is short the fault current is higher, even if the distance to the secondary substation is higher.
All the calculations that I´ve come across consider the three phase feeders of the panels as totally balanced. No neutral currents.
So the single phase short-circuit fault loop starts and ends on the upstream panel.
Is this calculation method valid?
What really happens to the neutral current during a single-phase short-circuit?
It should close on the neutral bar of the power transformer.
All help and enlightening will be much appreciated.
Best regards.
Carlos Melim
