A 3-phase, 60 Hz, 30 km long overhead line supplies 525 kW at 22 kV, 0.9 p.f. lagging. The line resistance is 3 0 per phase and line inductance is 10 mH per phase. Calculate the Reactance of the Line, Current flowing through the transmission line, Sending end voltage, Voltage regulation and Efficiency of transmission. Inductive Reactance Current flowing through the transmission line Sending end Voltage Voltage Regulation of Transmission line Transmission line efficiency

A 3-phase, 60 Hz, 30 km long overhead line supplies 525 kW at 22 kV, 0.9 p.f. lagging. The line resistance is 3 0 per phase and line inductance is 10 mH per phase. Calculate the Reactance of the Line, Current flowing through the transmission line, Sending end voltage, Voltage regulation and Efficiency of transmission. Inductive Reactance Current flowing through the transmission line Sending end Voltage Voltage Regulation of Transmission line Transmission line efficiency

Power System Analysis and Design (MindTap Course List)

6th Edition

ISBN:9781305632134

Author:J. Duncan Glover, Thomas Overbye, Mulukutla S. Sarma

Publisher:J. Duncan Glover, Thomas Overbye, Mulukutla S. Sarma

Chapter4: Transmission Line Parameters

Section: Chapter Questions

Problem 4.8P: A 60-Hz, single-phase two-wire overhead line has solid cylindrical copper conductors with a 1.5 cm...

See similar textbooks

Similar questions

A 60-Hz, single-phase two-wire overhead line has solid cylindrical copper conductors with a 1.5 cm diameter. The conductors are arranged in a horizontal configuration with 0.5 m spacing. Calculate in mH/km (a) the inductance of each conductor due to internal flux linkages only, (b) the inductance of each conductor due to both internal and external flux linkages, and (c) the total inductance of the line.
An 11 KV, 3-phase transmission line has a resistance of 1.5 Ω and reactance of 4 Ω per phase.Calculate the percentage regulation and efficiency of the line when a total load of 5000 KVA at 0.8 lagging power factor is applied at 11KV at the distant end.
A 30 mile, 3-phase transmission line delivers 8,000 kW at 33 kV, p.f. 0.8 lagging. The resistance and reactance of single conductor are 0.6 ohm and 0.72 ohm respectively per mile. Find the voltage at the sending end in kV.
The resistance and reactance of the single-phase 60Hz transmission line conductors are 7.6 ohm and 6.6 ohm respectively. The transmission line delivers 20MW at a power factor of 0.66 lagging to the load with 54kV receiving end voltage. Determine the following a) The inductance of the transmission line in mH b) Sending end power factor c) Percentage voltage regulation d) Percentage Efficiency
A load of 1,250 kVA at 0.8 p.f. lagging is received at the end of a 3-phase line 20 km long. The resistance and reactance of each conductor are 0.25ohm and 0.28 ohms per km. If the receiving end line voltage is maintained at 11 kV, calculate : (a) sending end voltage (line-to-line) (b) percentage regulation (c) transmission efficiency
An overhead 3-phase transmission line delivers 1200KW at 22KV at 0.8 power factor lagging. The length of the line is 25 Km . The resistance and reactance of conductor are 0.25ohm per Km and 0.30ohm per Km. Determine: 1) Sending end voltage 2) Percentage regulations 3) Sending end power factor 4) Transmission efficiency
A 25 kilometer long three phase transmission line has conductors 2.5cm in diameter and are separated by a distance of 2 meter. The resistance of the line is 4 Ω and it delivers 15MW at 33kV, 0.7 power factor lagging. Estimate i. Inductive reactance ii. Sending end voltage iii. Voltage regulation iv. Transmission line efficiency
Problem 5. An 11 kV, 3-phase transmission line has a resistance of 1·5 Ω and reactance of 4 Ω per phase. Calculate the percentage regulation and efficiency of the line when a total load of 5000 kVA at 0.8 lagging power factor is supplied at 11 kV at the distant end.
A short 3 phase transmission line, connected to a 33kV, 50 Hz generating station at the sending end is required to supply a load of 10Megawatts at 0.8 power factor lagging, 30kV at the receiving end. If the minimum transmission line efficiency is to be limited to 96%, estimate the per phase values of resistance and inductance of the line.
470 kVA load at 12 kV. Its resistance is 7 Ω and inductive reactance is 7 Ω if the load power factor is 0.9 lagging. Determine the Current through the line , Sending end voltage , Sending end power factor , Regulation of transmission line , Efficiency of transmission line Note:please do not handwriting
A 3-ph, 60 Hz, 200 km long, 220 kV transmission line has per km per phase constants of resistance 0.033 Ω, inductive reactance 0.33 Ω, capacitive susceptance 3.3x10 -6 mho. The load at the receiving end of the line is 500 MW at 0.95 power factor leading and voltage has dropped to 209 kV. Using the PI model, calculate the voltage, current and power factor at the sending end. Please answer in typing format solution please only typing format Please I will like it please reply to
An overhead 1 phase transmission line delivers 1100kW at 33kV at 0.8 pf lagging. The resistance and reactance of each conductor is 10Ω and 15Ω respectively. Determine: Sending End Voltage Sending End Power Factor. Receiving End Power Factor. Regulation in Percentage Transmission Line Efficiency