Difference between revisions of "Chapter 25 Problem 35"

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==Problem==
 
==Problem==
 
<math></math>
 
<math></math>
An electric power plant can produce electricity at a fixed power <math>P</math>, but the plant operator is free to choose the voltage <math>V</math> at which it is produced. This electricity is carried as an electric current <math>I</math> through a transmission line (resistance <math>R</math>) from the plant to the user, where it provides the user with electric power <math>P^\prime</math>  
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An electric power plant can produce electricity at a fixed power <math>P</math>, but the plant operator is free to choose the voltage <math>V</math> at which it is produced. This electricity is carried as an electric current <math> I </math> through a transmission line (resistance <math>R</math>) from the plant to the user, where it provides the user with electric power <math>P^\prime</math>  
  
 
(a) Show that the reduction in power <math>\Delta P = P - P^\prime</math> due to transmission losses  is given by  
 
(a) Show that the reduction in power <math>\Delta P = P - P^\prime</math> due to transmission losses  is given by  
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==Solution==
 
==Solution==
 
===(a)===
 
===(a)===
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The current through the transmission line is <math>I=P/V</math>. The resistance of the wire will result in a transmission loss <math>I^2 R</math>
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  <math>\Delta P=I^2 R = P^2 R \big / V^2</math>
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Equivalently, the voltage drop due to resistance of the transmission line is <math>V^\prime=IR</math>. The end-user sees <math>V-V^\prime</math>, and thus, the power they receive is:
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<math>P^\prime=(V-V^\prime)I=VI-V^\prime I = VI -I^2R=P-I^2 R</math>
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The power loss is
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<math>\Delta P=P-P^\prime=P-(P-I^2 R)=I^2 R</math>
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  <math>=P^2 R \big / V^2</math>
  
 
===(b)===
 
===(b)===
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<math>\Delta P \propto \frac{1}{V^2}</math>
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thus <math>V</math> should be as large as possible

Latest revision as of 14:51, 6 April 2020

Problem

An electric power plant can produce electricity at a fixed power , but the plant operator is free to choose the voltage at which it is produced. This electricity is carried as an electric current through a transmission line (resistance ) from the plant to the user, where it provides the user with electric power

(a) Show that the reduction in power due to transmission losses is given by


(b) In order to reduce power losses during transmission, should the operator choose to be as large or as small as possible?

Solution

(a)

The current through the transmission line is . The resistance of the wire will result in a transmission loss

 

Equivalently, the voltage drop due to resistance of the transmission line is . The end-user sees , and thus, the power they receive is:

The power loss is

 

(b)

thus should be as large as possible