Abstract image of a woman sitting on books and studying on a laptop

Capacitance on transmission line

Download as PPT, PDF
V
vishalgohel12195

The document discusses capacitance on transmission lines. It explains that capacitance occurs between parallel conductors due to potential differences, similar to capacitor plates, and depends on conductor size and spacing. For short power lines under 80km, capacitance is minor but becomes important for longer, higher voltage lines. It then examines the capacitance of three-phase lines with both equilateral and unsymmetrical conductor spacing, noting calculations are simpler if the line is transposed so each conductor occupies the same positions over cycles.

Engineering
1 of 13
Downloaded 258 times
1
2
Most read
3
Most read
4
5
6
7
8
9
10
11
Most read
12
13
Topic: Capacitance on transmission line
INTRODUCTION • Capacitance of a transmission line is the result of the potential difference between the conductors; it causes them to be charged in the same manner as the plates of a capacitor when there is a potential difference between them. • The capacitance between the conductor is the charge per unit of potential difference. • capacitance between parallel conductors is a constant depending on the size and spacing of the conductors. • For power lines less than about 80 km long the effect of capacitance is slight and is usually neglected. • For longer lines of higher voltage, capacitance becomes increasingly important.
Capacitance on transmission line I. Capacitance of three phase line with equilateral spacing. II. Capacitance of three phase line with unsymmetrical spacing.
CAPACITANCE OF THREE PHASE LINE WITH EQUILATERAL SPACING Figure show the three phase line composed of three identical conductors of radius r placed in equilateral configuration
 We shall find the capacitance from line conductor to neutral in this symmetrically spaced line.
• Since there are no vicinity ,the sum of charges on the three conductor is zero .
Capacitance on transmission line
CAPACITANCE OF A THREE PHASE LINE WITH UNSYMMETRICAL SPACING  The calculation of capacitance in case of conductors in three phase system which are not equally spaced is difficult.  If the line is untransposed the capacitances of each phase to neutral is not same.
• In case of transposed line the average capacitance of each line to neutral over a complete transposition cycle is same as the average capacitance to neutral of any other phase. • Each conductor occupies the same position of every other conductor after equal distance. • The effect of unsymmetry between the lines is small and calculations are carried out by considering transposition of lines.
When phase 'a' is in position 1, 'b' in position 2 and 'c' is in position 3 When phase 'a' is in position 2, 'b' in position 3 and 'c' is in position 1. When phase 'a' is in position 3, 'b' in position 1 and 'c' is in position 2.
Average voltage between conductors 'a' and 'b' is given by
Similarly average voltage drop between a and c is given by, We have, Vab + Vac = 3 Van
 For balanced circuit (qa + qb + qc ) = 0

More Related Content

PPTX
Unit-1 Per Unit System.pptx
SanjeevKumarkumar11
 
PPTX
Visit to 400 kV substation, Hadala
Nandan Desai
 
DOC
DISTANCE PROTECTION RELAY
Raviraj solanki
 
PPT
Representation of short & medium transmission lines
vishalgohel12195
 
PPTX
Objectives of shunt compensation
Ayyarao T S L V
 
PPT
BUSBAR PROTECTION
Dinesh Sarda
 
PDF
Power flow solution
Balaram Das
 
PPTX
Ppt of ehv ac transmission
Sumit Kumar
 
Unit-1 Per Unit System.pptx
SanjeevKumarkumar11
 
Visit to 400 kV substation, Hadala
Nandan Desai
 
DISTANCE PROTECTION RELAY
Raviraj solanki
 
Representation of short & medium transmission lines
vishalgohel12195
 
Objectives of shunt compensation
Ayyarao T S L V
 
BUSBAR PROTECTION
Dinesh Sarda
 
Power flow solution
Balaram Das
 
Ppt of ehv ac transmission
Sumit Kumar
 

What's hot (20)

PPT
power system analysis PPT
Ziyaulhaq
 
PPTX
Electric substation
ANNU KUMAR
 
PPTX
Ps ppt by saran
saran saran
 
PPTX
Simplified analysis of graetz circuit copy - copy
Vert Wheeler
 
PPTX
SUBSTATION OVERVIEW - A presentation on substation
raiamitesh8
 
PPTX
Differential Protection Relay
kishore kish
 
DOCX
Directional over current relay
CS V
 
PPTX
Firing Angle Control & Constant Current Control
Kaushik Naik
 
PPTX
Firing angle control
jawaharramaya
 
PPTX
Methods of voltage control
v Kalairajan
 
PPT
Electric power system
Khurram Burjees
 
PPTX
Generation of High D.C. Voltage (HVDC generation)
RP6997
 
PPTX
Analysis, design and modeling of dc dc converter
Shrikanth Raparthi
 
PPTX
Series & shunt compensation and FACTs Devices
khemraj298
 
PPTX
SCR~ Two Transistor Analogy
Paras Trivedi
 
PDF
Transformer protection
jawaharramaya
 
PPTX
Distribution Factor, Concentrated Windings, Distributed Windings
Abdullah Khan Afridi
 
PPT
POWER SYSTEM PROTECTION
moiz89
 
PPTX
Skin effect, proximity effect, ferranti effect, corona discharge
RoungpaSukhe
 
PDF
Substation and It's Equipment
Chandan Kumar
 
power system analysis PPT
Ziyaulhaq
 
Electric substation
ANNU KUMAR
 
Ps ppt by saran
saran saran
 
Simplified analysis of graetz circuit copy - copy
Vert Wheeler
 
SUBSTATION OVERVIEW - A presentation on substation
raiamitesh8
 
Differential Protection Relay
kishore kish
 
Directional over current relay
CS V
 
Firing Angle Control & Constant Current Control
Kaushik Naik
 
Firing angle control
jawaharramaya
 
Methods of voltage control
v Kalairajan
 
Electric power system
Khurram Burjees
 
Generation of High D.C. Voltage (HVDC generation)
RP6997
 
Analysis, design and modeling of dc dc converter
Shrikanth Raparthi
 
Series & shunt compensation and FACTs Devices
khemraj298
 
SCR~ Two Transistor Analogy
Paras Trivedi
 
Transformer protection
jawaharramaya
 
Distribution Factor, Concentrated Windings, Distributed Windings
Abdullah Khan Afridi
 
POWER SYSTEM PROTECTION
moiz89
 
Skin effect, proximity effect, ferranti effect, corona discharge
RoungpaSukhe
 
Substation and It's Equipment
Chandan Kumar
 
Ad

Similar to Capacitance on transmission line (20)

PPT
Capacitance of transmission line.ppt
NANDHAKUMARA10
 
PDF
Unit 02 Capacitance of Transmission Line.pdf
lovemovies4747
 
PPT
EE504.9.ppt
Vara Prasad
 
PDF
EE313_Lect3_Electrical Paramters_Capacitance.pdf
KaybeeAbad
 
PPT
Transmission-Line-Constants power point.ppt
GetahunShankoKefeni
 
DOCX
Power System Simulation Laboratory Manual
Santhosh Kumar
 
PPT
Generalised circuit constants
Kaustubh Nande
 
PDF
Three phase Balanced System for power qu
RameshSudha
 
PPT
Lecture 6
Forward2025
 
PPTX
TOPIC 2A Transmission Line SLIDE LECTURE
NajiyahSaleh
 
PPT
Introduction electrical field of a long straight conductor potential differen...
vishalgohel12195
 
PPT
Introduction electrical field of a long straight conductor potential differen...
vishalgohel12195
 
PPTX
TRANSMISSION LINES and capacity.pptx
Satish Pydimarla
 
PPTX
Electrical power system(capacitance of transmission line)
Arshad Hussain
 
PPT
3 phase ac circuit
Rushikesh Raval
 
PDF
Capacitance and Cable Testing
Hussein Kassem
 
PPTX
Module-2 Short Line and Problems (1) - Copy.pptx
belali331522
 
PPTX
Chapter 3 transmission line performance
firaoltemesgen1
 
PDF
representation-of-transmission-lines.pdf
chauhangopal7354
 
PDF
Neutral sizing in harmonic-rich installations
Leonardo ENERGY
 
Capacitance of transmission line.ppt
NANDHAKUMARA10
 
Unit 02 Capacitance of Transmission Line.pdf
lovemovies4747
 
EE504.9.ppt
Vara Prasad
 
EE313_Lect3_Electrical Paramters_Capacitance.pdf
KaybeeAbad
 
Transmission-Line-Constants power point.ppt
GetahunShankoKefeni
 
Power System Simulation Laboratory Manual
Santhosh Kumar
 
Generalised circuit constants
Kaustubh Nande
 
Three phase Balanced System for power qu
RameshSudha
 
Lecture 6
Forward2025
 
TOPIC 2A Transmission Line SLIDE LECTURE
NajiyahSaleh
 
Introduction electrical field of a long straight conductor potential differen...
vishalgohel12195
 
Introduction electrical field of a long straight conductor potential differen...
vishalgohel12195
 
TRANSMISSION LINES and capacity.pptx
Satish Pydimarla
 
Electrical power system(capacitance of transmission line)
Arshad Hussain
 
3 phase ac circuit
Rushikesh Raval
 
Capacitance and Cable Testing
Hussein Kassem
 
Module-2 Short Line and Problems (1) - Copy.pptx
belali331522
 
Chapter 3 transmission line performance
firaoltemesgen1
 
representation-of-transmission-lines.pdf
chauhangopal7354
 
Neutral sizing in harmonic-rich installations
Leonardo ENERGY
 
Ad

More from vishalgohel12195 (20)

PPTX
Variable frequency drive and variable frequency control
vishalgohel12195
 
PPTX
Self control of synchronous motor drives
vishalgohel12195
 
PPTX
Owen’s bridge and measurement of increment inductance
vishalgohel12195
 
PPT
Initial and final condition for circuit
vishalgohel12195
 
PPTX
FSK , FM DEMODULATOR & VOLTAGE REGULATOR ICS
vishalgohel12195
 
PPTX
Differential equations of first order
vishalgohel12195
 
PPTX
Cost for production including breaking analysis
vishalgohel12195
 
PPTX
Concept of general terms pertaining to rotating machines
vishalgohel12195
 
PPT
Transfer function and mathematical modeling
vishalgohel12195
 
PPT
armature Winding
vishalgohel12195
 
PPTX
Switching regulators
vishalgohel12195
 
PPT
Sag in overhead transmission line, sag calculation & string chart
vishalgohel12195
 
PPT
Rectifier
vishalgohel12195
 
PPT
Protection against overvoltage
vishalgohel12195
 
PPT
Pantograph,catenary wire,smothing reactor
vishalgohel12195
 
PPT
On load tap changer in a.c. locomotive transformer & air blast circuit b...
vishalgohel12195
 
PPT
Logical instruction of 8085
vishalgohel12195
 
PPT
Effect of non sinusoidal waveform of a.c. machine performance
vishalgohel12195
 
PPT
Disadvantages of corona, radio interference, inductive interference between p...
vishalgohel12195
 
PPT
Design, Planning and Layout of high voltage laboratory
vishalgohel12195
 
Variable frequency drive and variable frequency control
vishalgohel12195
 
Self control of synchronous motor drives
vishalgohel12195
 
Owen’s bridge and measurement of increment inductance
vishalgohel12195
 
Initial and final condition for circuit
vishalgohel12195
 
FSK , FM DEMODULATOR & VOLTAGE REGULATOR ICS
vishalgohel12195
 
Differential equations of first order
vishalgohel12195
 
Cost for production including breaking analysis
vishalgohel12195
 
Concept of general terms pertaining to rotating machines
vishalgohel12195
 
Transfer function and mathematical modeling
vishalgohel12195
 
armature Winding
vishalgohel12195
 
Switching regulators
vishalgohel12195
 
Sag in overhead transmission line, sag calculation & string chart
vishalgohel12195
 
Rectifier
vishalgohel12195
 
Protection against overvoltage
vishalgohel12195
 
Pantograph,catenary wire,smothing reactor
vishalgohel12195
 
On load tap changer in a.c. locomotive transformer & air blast circuit b...
vishalgohel12195
 
Logical instruction of 8085
vishalgohel12195
 
Effect of non sinusoidal waveform of a.c. machine performance
vishalgohel12195
 
Disadvantages of corona, radio interference, inductive interference between p...
vishalgohel12195
 
Design, Planning and Layout of high voltage laboratory
vishalgohel12195
 

Recently uploaded (20)

PPTX
wireless networks, mobile computing.pptx
DayaFlorance
 
PDF
Exploratory_Data_Analysis_Fundamentals.pdf
Ashutosh Satapathy
 
PDF
MLpara ingenieira CIVIL, meca Y AMBIENTAL
MarceloArielTisera
 
PDF
UEFA_Embodied_Carbon_Emissions_Football_Infrastructure.pdf
tuchinad02
 
PPTX
mechattonicsand iotwith sensor and actuator
hrtec3
 
PDF
distributed database system" (DDBS) is often used to refer to both the distri...
Hemlathadhevi Annadhurai
 
PDF
August -2025_Top10 Read_Articles_ijait.pdf
ijait
 
PDF
Computer System Architecture 3rd Edition-M Morris Mano.pdf
Nune SrinivasRao
 
PPTX
ASME PCC-02 TRAINING -DESKTOP-NLE5HNP.pptx
laxmikantvjawale
 
PDF
Soil Improvement Techniques Note - Rabbi
rahmatideal000
 
PDF
UEFA_Carbon_Footprint_Calculator_Methology_2.0.pdf
tuchinad02
 
PDF
Design Guidelines and solutions for Plastics parts
ferdinand937933
 
PDF
20250617 - IR - Global Guide for HR - 51 pages.pdf
JanBaumann6
 
PDF
Abrasive, erosive and cavitation wear.pdf
nfandraden
 
PPTX
tack Data Structure with Array and Linked List Implementation, Push and Pop O...
usham61
 
PDF
null (2) bgfbg bfgb bfgb fbfg bfbgf b.pdf
Ramez Hosny
 
PPTX
Chapter 2 -Technology and Enginerring Materials + Composites.pptx
garciajeremiah070
 
PPTX
CN_Unite_1 AI&DS ENGGERING SPPU PUNE UNIVERSITY
versetooni85
 
PPTX
Graph Data Structures with Types, Traversals, Connectivity, and Real-Life App...
usham61
 
PPTX
Information Storage and Retrieval Techniques Unit III
jeyamohan2519
 
wireless networks, mobile computing.pptx
DayaFlorance
 
Exploratory_Data_Analysis_Fundamentals.pdf
Ashutosh Satapathy
 
MLpara ingenieira CIVIL, meca Y AMBIENTAL
MarceloArielTisera
 
UEFA_Embodied_Carbon_Emissions_Football_Infrastructure.pdf
tuchinad02
 
mechattonicsand iotwith sensor and actuator
hrtec3
 
distributed database system" (DDBS) is often used to refer to both the distri...
Hemlathadhevi Annadhurai
 
August -2025_Top10 Read_Articles_ijait.pdf
ijait
 
Computer System Architecture 3rd Edition-M Morris Mano.pdf
Nune SrinivasRao
 
ASME PCC-02 TRAINING -DESKTOP-NLE5HNP.pptx
laxmikantvjawale
 
Soil Improvement Techniques Note - Rabbi
rahmatideal000
 
UEFA_Carbon_Footprint_Calculator_Methology_2.0.pdf
tuchinad02
 
Design Guidelines and solutions for Plastics parts
ferdinand937933
 
20250617 - IR - Global Guide for HR - 51 pages.pdf
JanBaumann6
 
Abrasive, erosive and cavitation wear.pdf
nfandraden
 
tack Data Structure with Array and Linked List Implementation, Push and Pop O...
usham61
 
null (2) bgfbg bfgb bfgb fbfg bfbgf b.pdf
Ramez Hosny
 
Chapter 2 -Technology and Enginerring Materials + Composites.pptx
garciajeremiah070
 
CN_Unite_1 AI&DS ENGGERING SPPU PUNE UNIVERSITY
versetooni85
 
Graph Data Structures with Types, Traversals, Connectivity, and Real-Life App...
usham61
 
Information Storage and Retrieval Techniques Unit III
jeyamohan2519
 

Capacitance on transmission line

  • 1. Topic: Capacitance on transmission line
  • 2. INTRODUCTION • Capacitance of a transmission line is the result of the potential difference between the conductors; it causes them to be charged in the same manner as the plates of a capacitor when there is a potential difference between them. • The capacitance between the conductor is the charge per unit of potential difference. • capacitance between parallel conductors is a constant depending on the size and spacing of the conductors. • For power lines less than about 80 km long the effect of capacitance is slight and is usually neglected. • For longer lines of higher voltage, capacitance becomes increasingly important.
  • 3. Capacitance on transmission line I. Capacitance of three phase line with equilateral spacing. II. Capacitance of three phase line with unsymmetrical spacing.
  • 4. CAPACITANCE OF THREE PHASE LINE WITH EQUILATERAL SPACING Figure show the three phase line composed of three identical conductors of radius r placed in equilateral configuration
  • 5.  We shall find the capacitance from line conductor to neutral in this symmetrically spaced line.
  • 6. • Since there are no vicinity ,the sum of charges on the three conductor is zero .
  • 8. CAPACITANCE OF A THREE PHASE LINE WITH UNSYMMETRICAL SPACING  The calculation of capacitance in case of conductors in three phase system which are not equally spaced is difficult.  If the line is untransposed the capacitances of each phase to neutral is not same.
  • 9. • In case of transposed line the average capacitance of each line to neutral over a complete transposition cycle is same as the average capacitance to neutral of any other phase. • Each conductor occupies the same position of every other conductor after equal distance. • The effect of unsymmetry between the lines is small and calculations are carried out by considering transposition of lines.
  • 10. When phase 'a' is in position 1, 'b' in position 2 and 'c' is in position 3 When phase 'a' is in position 2, 'b' in position 3 and 'c' is in position 1. When phase 'a' is in position 3, 'b' in position 1 and 'c' is in position 2.
  • 11. Average voltage between conductors 'a' and 'b' is given by
  • 12. Similarly average voltage drop between a and c is given by, We have, Vab + Vac = 3 Van

Editor's Notes

  • #5: <number>