Question 3: Distribution Systems The Figure shown below represents a single-line diagram of an AC ring distribution network. The loads of 36L-34°A, 48L-45°A and 54L-40°A are supplied at point b, c, and d, respectively. The interconnector has an impedance of 0.41+0.44j Q/phase. 0.39L66° Q 0.29L59° Q E= 3 kV, 0.44.74° Q 0.333L57.3° Q (a) Convert the delta branch acd to an equivalent star by determining the following: 29. The equivalent star impedance Zd (N). 30. The equivalent star impedance Za (N). 31. The equivalent star impedance Zc (N).

The module is Energy system 3

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Question 3: Distribution Systems The Figure shown below represents a single-line diagram of an AC ring distribution network. The loads of 36L-34°A, 48L-45°A and 54L-40°A are supplied at point b, c, and d, respectively. The interconnector has an impedance of 0.41+0.44j Qlphase. b a 0.39L66° Q 0.29L59° Q E = 3 kv 0.44L74° Q 0.333L57.3° Q (a) Convert the delta branch acd to an equivalent star by determining the following: 29. The equivalent star impedance Zd (0). 30. The equivalent star impedance Za (0). 31. The equivalent star impedance Zc (N).

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(b) Open circuit bc and determine the following parameters by applying Thevenin's theorem: 32. lan (A) 33. Vac (V) 34. Vak (V) 35. VтH (V) 36.ZTH (2) (c) After determining both the Thevenin's impedance and voltage in Question (35) and (36), determine the following: 37. The current in feeder bc (A) 38. The voltage-drop across feeder bc (V) 39. The current in feeder ab (A) 40. The voltage-drop across feeder ab (V)