4. A short three phase transmission line with length of 10km and the line impedance is...

1- A 69-kV, three-phase short transmission line is 16 km long. The line has a per...

1- A 69-kV, three-phase short transmission line is 16 km long. The line has a per phase series impedance of 0.125 + j0.4375 ohm per km. Determine the sending end voltage, voltage regulation, the sending end power, and the transmission efficiency when the line delivers a. 70 MVA, 0.8 lagging power factor at 64 kV b. 120 MW, unity power factor at 64 kV 2-three-phase, completely transposed 345-kV, 200 km line has two 795,000- cmil 26/2 ACSR conductor per bundle...

1- 30-kV, three-phase transmission line has a per phase series impedance of z = 0.05+j0.45 ohm...

1- 30-kV, three-phase transmission line has a per phase series impedance of z = 0.05+j0.45 ohm per Km and a per phase shunt admittance of y = j3.4x10-6 siemens per km. The line is 80 km long. Using the nominal π model, determine a The transmission line ABCD constants. b Find the sending end voltage and current, voltage regulation, the sending end power and the transmission efficiency when the line delivers 1. 200 MVA, 0.8 lagging power factor at 220...

A 3- phase, 2 pole Y-connected synchronous machines has a line-line voltage of 6,000V in 60Hz...

A 3- phase, 2 pole Y-connected synchronous machines has a line-line voltage of 6,000V in 60Hz power line, has an armature reactance of 2ohms/ phase and negligible armature resistance. Compute the following A) In case of generating action if the line current is 385 A at a leading power factor of 0.8, the armature voltage per phase is 3464V, Compute the voltage per phase and power angle. B) Draw the phasor diagram. C) If the losses in the machine is...

A 100 km long, three phase 50 hz transmission line has resistance per phase per km...

A 100 km long, three phase 50 hz transmission line has resistance per phase per km of 0.1 ohms, reactance per phase per km of 0.5 ohms, susceptance per phase per km of 10 x 10-6 siemens. If the line supplies a load of 20 MW at 0.9 pf lagging at 66 KV at the receiving end, calculate the regulation and efficiency of the line using the following assumptions: a. nominal pi vector solution b. nominal T vector solution c....

A 250 km , three- phase , 50 Hz transmission line is delivering 25 MVA at...

A 250 km , three- phase , 50 Hz transmission line is delivering 25 MVA at 0.8 lagging power factor to a balanced load at 132 KV ( line-line) . The conductor resistance is 0.11 ohm/km . The line inductance per phase is 1.24 mH/km and the line to neutral capacitance is given as 9.4 x 10 – 9 F/km. a ) find the nominal – Л representation. b) find the sending end voltage , VS by nominal – Л...

a 200km, 300kv, 50Hz transmission line has a reactance of 0.4 ohms per km and a...

a 200km, 300kv, 50Hz transmission line has a reactance of 0.4 ohms per km and a distributed capacitance of 400000 ohms per km. Draw an equivalent circuit of the line per phase. Calculate the line current per phase at the sender end when the receiver is open. What is the reactive power supplied to the sender?

A Wye-Delta transformer is connected to a 66 kV input three-phase transmission line. Each transformer is...

A Wye-Delta transformer is connected to a 66 kV input three-phase transmission line. Each transformer is rated at 1000 kVA and has a step-down ratio of 8:1. The bank supplies a balance load having a power factor of 0.8 lag with a load current of 70 A. Assume ideal transformer, determine. The primary line and phase voltages The secondary line and phase voltages The secondary line and phase currents The apparent and active power at the load Total kVA capacity...

4. The three phase 400kV transmission line is 180km long. The end-of-line voltage is 410 kV...

4. The three phase 400kV transmission line is 180km long. The end-of-line voltage is 410 kV and the load is 400 MVA with a power factor of 0.8 ind. The cable parameters are: r = 0.026 Ω / km, x = 0.33Ω / km, g = 0.023µS / km and b = 3.57µS / km. Calculate the cable transfer constants A, B, C, and D using the appropriate modeling method. Use a + i * b syntax for your answers....

A 100 MVA, 13.2 kV three phase generator (G) having a synchronous reactance of 10% is...

A 100 MVA, 13.2 kV three phase generator (G) having a synchronous reactance of 10% is connected to a three phase Y-Y transformer T1 which feeds a 132 kV 10 miles transmission line having an impedance per phase of 2 + j5 ?/mile. At the receiving end of the transmission line is a Y-Y step down transformer T2. Three loads are connected to the secondary side of the transformer T2. Loads are as follows: Load#1 40 MVA at 0.8 pf...

•The 3-phase system consists of a generator, circuit breaker, power transformer and extra high voltage transmission...

•The 3-phase system consists of a generator, circuit breaker, power transformer and extra high voltage transmission line. •The generator is rated at 60Hz, 1559Mva and 24kV. The sub-transient reactance is 2*%. The winding connection is wye with the neutral grounded. •The transformer is a 1550Mva, 3-phase, shell type, 2-winding transformer with a 24kV delta winding and a 525kV grounded wye winding. Neglect saturation and core losses. The exciting current is 1.0% of the rated current. The capacitance of each low...