mechanical design of overhead lines

04/08/2023Md. Forhad Zaman, Lecturer, Dept. of EEE, RUET

1

Mechanical Design of Overhead Lines

INTRODUCTIONAdvantages of Overhead lines with comparison of Underground Cables


2

Main Components of Overhead Lines

Conductors

Supports

Insulators

Cross arms

Miscellaneous items

•Copper•Aluminum•Steel-cored aluminum•Galvanized steel •Cadmium copper


3

Overhead Lines: Wooden poles

• Tendency to rot below the ground level

•Comparatively smaller life (20-25 years)

•Cannot be used for voltages higher than 20

kv

•Less mechanical strength and

•Require periodical inspection


4

Overhead Lines: RCC poles

High cost of transport owing to their heavy Weight


5

Overhead Lines: Steel Towers

•Long distance transmission at higher

voltage

•Greater mechanical strength

•Longer life

•Can withstand most severe climatic

conditions

•Permit the use of longer spans


6

Insulators

PropertiesHigh mechanical

StrengthHigh electrical

ResistanceHigh relative permittivity

non-porous, free from impurities and cracks


7

Insulators: Pin type insulators

Used for TD upto 33 kV


8

Insulators: Suspension type insulators

Used for TD greater than 33 kV

AdvantagesCheaper

Can be repaired

FlexibilityProtect

from lightning


9

Insulators: Strain insulators

Used in dead end of the line


10

Insulators: Shackle insulators

Used only in Distribution line


11

Potential Distribution over Suspension Insulator String

Mutual Capacitance/

Self Capacitance

Shunt Capacitance

Voltage does not distribute itself uniformly

The disc nearest to the conductor has maximum voltage

D.C. voltage distributes uniformly


12

String Efficiency

The ratio of voltage across the whole string to the product of number of discs and the voltage across the disc nearest to the conductor is known as string efficiency.

The greater the string efficiency, the more uniform is the voltage distribution


13

String Efficiency: Mathematical expression

•Self capacitance of each disc

is C

•Shunt capacitance C1

•Where C1 = KC

33 V

VefficiencyString

Inequality in voltage distribution increases with the increase of number of discs.Shorter string has more efficiency than the larger one.

The greater the value of K (= C1/C), the more non-uniform is the

potential.

Nearest to the conductor has maximum voltage


14

Methods of Improving String Efficiency

By using longer cross-arms

By grading the insulators

By using a guard ring


15

Important Points

The maximum voltage appears across the disc nearest to the conductor (i.e., line conductor).

The voltage across the string is equal to phase voltage i.e.,

Voltage across string=Voltage between line and earth = Phase Voltage

Line Voltage= √3 × Voltage across string

Assignment(Submit before the next class)

Example 8.1, 8.2, 8.3, 8.4, 8.5, 8.6, 8.7, 8.8, 8.9, 8.10, 8.11, 8.12


16

Corona

The phenomenon of violet glow, hissing noise and production of ozone gas in an overhead transmission line is known as corona.

THEORY OF CORONA FORMATION


17

Factors Affecting Corona

Atmosphere

Conductor size

Spacing between conductors

Line voltage


18

Important Terms

Critical disruptive voltage


19

Important Terms

Visual critical voltage


20

Important Terms

Power loss due to corona


21

Advantages and Disadvantages of Corona

Advantages

Virtual diameter of the conductor is increased

Reduces the effects of transients produced by surges

Disadvantages

Lost of Energy

Ozone is produced by corona

Non-sinusoidal voltage drop and hence inductive interference with neighboring communication lines


22

Methods of Reducing Corona Effect

By increasing conductor size

By increasing conductor spacing


23

Sag in Overhead Lines

The difference in level between points of supports and the lowest point on the conductor is called sag

Conductor sag and Tension


24

Calculation of Sag

When supports are at equal levels

T

wl

T

lwSSag

82

)2/(,

22


25

Calculation of Sag

When supports are at unequal levels


26

Effect of wind and ice loading

i

w

ww

w

tan T

lwSSag t

2,

2

cosSSagverticalThe

Assignment(Submit before the next class)

Example 8.17, 8.17, 8.19, 8.20, 8.21 , 8.22, 8.23, 8.24, 8.25, 8.26, 8.26