Power Loss in a 10kV, 5ohm Transmission Line

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SUMMARY

The power loss in a 10 kV transmission line with a resistance of 5 ohms is calculated to be 4 MW when transmitting 10,000 kW. The current flowing through the line is determined using Ohm's Law, resulting in a current of 2000 A. The power loss formula used is P = I^2 * R, confirming that significant power loss occurs due to resistance in transmission lines. This emphasizes the necessity of minimizing resistance to enhance transmission efficiency.

PREREQUISITES
  • Understanding of Ohm's Law (V = I * R)
  • Familiarity with power loss calculations (P = I^2 * R)
  • Knowledge of electrical transmission systems
  • Basic concepts of voltage and current in electrical engineering
NEXT STEPS
  • Research advanced techniques for minimizing resistance in transmission lines
  • Learn about high-voltage transmission line design principles
  • Explore the impact of power factor on transmission efficiency
  • Investigate the use of superconductors in reducing power loss
USEFUL FOR

Electrical engineers, power system designers, and anyone involved in optimizing electrical transmission efficiency will benefit from this discussion.

DB
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-A transmission line has a resistance of 5 ohms. Calculate the power loss in the line when 10 000 kW are transmitted at 10 kV...

I don't know where to start, what formula am I supposed to use? I'm sure the second I find out its going to be soo easy, but any help would be apreciated.

Thanks in Advance
 
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DB said:
-A transmission line has a resistance of 5 ohms. Calculate the power loss in the line when 10 000 kW are transmitted at 10 kV...

I don't know where to start, what formula am I supposed to use? I'm sure the second I find out its going to be soo easy, but any help would be apreciated.
Use:

[tex]P = VI = I^2R[/tex] where V is the voltage drop over the transmission line and I is the current it conducts, and R is the resistance of the line.
What is the current if the 10 kV line is conducting 10,000 kW (that is just P = VI)?

AM
 


To calculate the power loss in a transmission line, we can use the formula P = I^2 * R, where P is the power loss, I is the current, and R is the resistance. In this case, we are given the voltage (10 kV) and power (10,000 kW), but we need to find the current in order to use the formula. We can use Ohm's Law, V = I * R, to solve for the current.

10 kV = I * 5 ohms
I = 10 kV / 5 ohms
I = 2000 A

Now, we can plug in the current into the power loss formula.

P = (2000 A)^2 * 5 ohms
P = 4,000,000 W or 4 MW

Therefore, the power loss in the transmission line is 4 MW. This means that 10,000 kW (or 10 MW) of power is being transmitted, but 4 MW is being lost due to the resistance in the line. This highlights the importance of minimizing resistance in transmission lines to reduce power loss and improve efficiency.
 

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