Figure below shows the one line diagram of a 3-o system. By selecting a common base of 100 MVA and 22 KV on the generator side, draw an impedance diagram showing all impedances including the load impedance in per unit. The data are given as follows: G: 100 MVA, 22 KV, X= 0.18 pu 22/220 KV, X= 0.1 pu TR1: 50 MVA, TR2: 40 MVA, 220/11 KV, X= 0.06 pu Load 1: 50 MVA, 0.8 pf lag Load 2: 50 MVA, 0.8 pf lead If volt at bus 4 equal 11 KV constant value : calculate i) volt at bus 1 EMF (Eg) of generator ii) ii) Transmission line current TR1 TR2 ZTL=j80 Q G1 3 Load 1 Load 2

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Figure below shows the one line diagram of a 3-o system. By
selecting a common base of 100 MVA and 22 KV on the generator
side, draw an impedance diagram showing all impedances including
the load impedance in per unit. The data are given as follows:
G: 100 MVA,
22 KV,
X= 0.18 pu
22/220 KV, X= 0.1 pu
TR1: 50 MVA,
TR2: 40 MVA, 220/11 KV, X=0.06 pu
Load 1: 50 MVA, 0.8 pf lag
Load 2: 50 MVA, 0.8 pf lead
If volt at bus 4 equal 11 KV constant value : calculate
i)
volt at bus 1
ii)
EMF (Eg) of generator
ii)
Transmission line current
TR1
TR2
ZTL=j80 2
G1
3.
4
Load 1
Load 2
Transcribed Image Text:Figure below shows the one line diagram of a 3-o system. By selecting a common base of 100 MVA and 22 KV on the generator side, draw an impedance diagram showing all impedances including the load impedance in per unit. The data are given as follows: G: 100 MVA, 22 KV, X= 0.18 pu 22/220 KV, X= 0.1 pu TR1: 50 MVA, TR2: 40 MVA, 220/11 KV, X=0.06 pu Load 1: 50 MVA, 0.8 pf lag Load 2: 50 MVA, 0.8 pf lead If volt at bus 4 equal 11 KV constant value : calculate i) volt at bus 1 ii) EMF (Eg) of generator ii) Transmission line current TR1 TR2 ZTL=j80 2 G1 3. 4 Load 1 Load 2
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