If the per-phase line loss in a 60-km-long transmission line is not to exceed 60 KW while it is delivering 100 A per phase, compute the required conductor diameter, if the resistivity of the conductor material is 1.72 x 10-8 Qm.

Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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**Problem Statement**

If the per-phase line loss in a 60-km-long transmission line is not to exceed 60 kW while it is delivering 100 A per phase, compute the required conductor diameter, if the resistivity of the conductor material is \(1.72 \times 10^{-8}\, \Omega \text{m}\).

**Explanation**

This exercise involves calculating the necessary diameter of a conductor to ensure that the power loss remains within a specified limit for a given length of a transmission line. The parameters provided include:

- Length of the transmission line: 60 km
- Maximum allowed line loss: 60 kW
- Current per phase: 100 A
- Resistivity of the conductor material: \(1.72 \times 10^{-8}\, \Omega \text{m}\)

Students will need to apply principles of electrical engineering, specifically the formulas involving power loss, resistivity, and physical properties of conductors, to solve for the conductor diameter.
Transcribed Image Text:**Problem Statement** If the per-phase line loss in a 60-km-long transmission line is not to exceed 60 kW while it is delivering 100 A per phase, compute the required conductor diameter, if the resistivity of the conductor material is \(1.72 \times 10^{-8}\, \Omega \text{m}\). **Explanation** This exercise involves calculating the necessary diameter of a conductor to ensure that the power loss remains within a specified limit for a given length of a transmission line. The parameters provided include: - Length of the transmission line: 60 km - Maximum allowed line loss: 60 kW - Current per phase: 100 A - Resistivity of the conductor material: \(1.72 \times 10^{-8}\, \Omega \text{m}\) Students will need to apply principles of electrical engineering, specifically the formulas involving power loss, resistivity, and physical properties of conductors, to solve for the conductor diameter.
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