The question is asking for a double line fault. Double line faults are calculated with positive and negative sequence impedances. The question states that Z1=Z2 for all components (generator and transformer).
There is no need to convert the impedances to a common base since the generator is 1.0 MVA, 13.8 kV and the transformer is 1.0 MVA, 13.8 kV (on the high side). However the fault occurs on the low side of the XFMR which means we will need a base current.
So, the total positive impedances would be (0.15+0.08) = 0.23 pu.
Since Z1=Z2 (as stated in the problem) then the total negative impedances would be 0.23 pu.
We are working in per-unit so the full voltage is 1.0 pu.
The current at Bus 2 would be (1.0 pu - votlage at full load)/(Z1+Z2) - Total impedance for positive and negative sequences.
Therefore, the totalcurrent (in per-unit) would be (1/(0.23+0.23)) = 2.17 pu.
To convert the per unit value to the actual value then we need the base. Remember in per unit - actual value/base value. So, actual value = per unit value x base value.
The base value on the low side of the transformer is the transformer's full load current:
1.0 MVA/(1000kV * root(3)) = 577 A.
577A * 2.17 pu = 1,252 A (for a single line) which is I1.
I1 = (1/3) IA * (1-a) where (1-a) is the vector property root (3) < -30 degrees.
So, Ia = 1252A * (3/root (3) < -30 degrees)) = 2,168A which is the short circuit current.
