I want to determine what happens to a circuits current and voltage when different size reactors/inductors are connected in series in each circuit to the same size load.
For instance lets say I have circuits 1 and 2 fed from a 480V supply each with a 100kVA transformer loaded to the the exact same amount. Now lets say that for particular reasons we insert an reactor in series with each transformer however the reactor size for circuit 1 is larger than that of circuit 2. Lets assume its double the size for the sake of conversation.
So with the two transformers loaded to the same amount would I have less current flowing in circuit 1 due to the fact that reactor would caused increased circuit impedance? Would I therefore also have reduced voltage on the primary of the transformer in the first circuit due to the fact that there would be a larger voltage drop across the reactor in the first circuit?
For either circuit, if the reactor was sized so it was 50% of transformer impedance then would % of circuit voltage would drop across reactor and what % would be left across transformer?
For instance lets say I have circuits 1 and 2 fed from a 480V supply each with a 100kVA transformer loaded to the the exact same amount. Now lets say that for particular reasons we insert an reactor in series with each transformer however the reactor size for circuit 1 is larger than that of circuit 2. Lets assume its double the size for the sake of conversation.
So with the two transformers loaded to the same amount would I have less current flowing in circuit 1 due to the fact that reactor would caused increased circuit impedance? Would I therefore also have reduced voltage on the primary of the transformer in the first circuit due to the fact that there would be a larger voltage drop across the reactor in the first circuit?
For either circuit, if the reactor was sized so it was 50% of transformer impedance then would % of circuit voltage would drop across reactor and what % would be left across transformer?