Improving joints and connections - energy loss, Electrical Engineering

Improving Joints and Connections - Energy Loss

Improper joints are a source of energy loss in both overhead and underground systems. The conductivity of joint should not be less than an equal length of the conductor. Joints should be capable of carrying maximum fault current without failure or deterioration for the time needed for the protective system to operate. The life of the joint should be equivalent to that of the conductors without deterioration either mechanically or electrically.

Posted Date: 2/6/2013 6:05:23 AM | Location : United States







Related Discussions:- Improving joints and connections - energy loss, Assignment Help, Ask Question on Improving joints and connections - energy loss, Get Answer, Expert's Help, Improving joints and connections - energy loss Discussions

Write discussion on Improving joints and connections - energy loss
Your posts are moderated
Related Questions
Execution of Digital Logic Circuits A safety circuit is employed on a lathe to prevent the motor turning if it is not safe to operate. A series of 2 switches are used to check

Q. A single-phase, 3-kVA, 220:110-V, 60-Hz transformer has a high-voltage winding resistance of 0.3 , a low-voltage winding resistance of 0.06 , a leakage reactance of 0.8  on i

Give three reasons why a chamfer shouldn't be considered an "unimportant" dimension. When conducting an audit, what is the first step and what is its purpose? Why will calcul

disadvantage of series & shunt clipper

Q. An 8-bit A/D converter is driven by a 1-MHz clock. Estimate the maximum conversion time if: (a) It is a counter-controlled A/D converter. (b) It is a successive-approximat

what is quantization noise

Thermocouples are used for the measurement of (A)  Humidity.                                   (B) Pressure. (C) Temperature.                               (D) Density.

1. Derive the necessary formula/method to determine the effective value or RMS of a triangular wave. Use either a similar method to the class example of the RMS determination

Q. Consider the op-amp circuit of Figure. Sketch the waveforms of v S and v o , if v S is a sinusoidal voltage source with a peak value of 2.

Output Characteristics The output  or drain  characteristic of N - Channel  power MOSFET. When gate  is made positive with respect to the source an N type  channel  is formed