SlideShare uma empresa Scribd logo

TRANSMISSION LINE COMPONENTS

Transferir como PPT, PDF
S
singh1515

The document summarizes key aspects of transmission line design and components. It discusses the methodology for designing transmission lines, including gathering design data, selecting reliability levels, and calculating loads. It also covers the selection and design of various transmission line components such as conductors, insulators, towers, and grounding systems. Design considerations include voltage levels, safety clearances, mechanical requirements, and optimization of costs.

EducaçãoNegócios
1 de 44
TRANSMISSION LINE ,[object Object],[object Object]
Component of Transmission Line ,[object Object],[object Object],[object Object],[object Object],[object Object]
Design Methodology ,[object Object],[object Object],[object Object],[object Object],[object Object],[object Object],[object Object]
Reliability Levels ,[object Object],[object Object]
Selection of Transmission Voltage ,[object Object],[object Object],[object Object],[object Object],[object Object],[object Object],[object Object],[object Object],[object Object]
[object Object],[object Object],[object Object],[object Object]
Types of Towers ,[object Object],[object Object],[object Object],[object Object],[object Object],[object Object],[object Object],[object Object],[object Object],[object Object],[object Object],[object Object],[object Object],[object Object],[object Object]
Different Types of Towers
Selection of Tower Structure ,[object Object],[object Object],[object Object],[object Object],[object Object],[object Object]
Tower Design ,[object Object],[object Object],[object Object],[object Object],Fig. Typical 765 KV Tower Structure
Height of Tower Structure Height of tower is determine by- h 1 = Minimum permissible ground clearance h 2 = Maximum sag h 3 = Vertical spacing between conductors h 4 = Vertical clearance between earthwire and top conductor
Determination of Base Width ,[object Object],[object Object],[object Object],[object Object],Ryle Formula
Spacing and Clearances ,[object Object],Where- Minimum permissible ground clearance as per IE Rules, 1956,Rule 77(4) S.No. Voltage level Ground clearance(m) 1. ≤ 33 KV 5.20 2. 66 KV 5.49 3. 132KV 6.10 4. 220 KV 7.01 5. 400 KV 8.84
Clearance for Power Line Crossings ,[object Object],[object Object],[object Object],[object Object],Voltage Level Minimum Clearance(mm) ≤ 33 KV 2440 66KV 2440 132 KV 2740 220 KV 3050 400 KV 4880
[object Object],[object Object],[object Object],[object Object],Table. For un-electrified tracks or tracks electrified on 1,500 volts D.C. system System Voltage Level Broad Gauge Meter & Narrow Gauge Inside station limits(m) Out side station limits(m) Inside station limits(m) Out side station limits(m) ≤ 66 KV 10.3 7.9 9.1 6.7 132 KV 10.9 8.5 9.8 7.3 220 KV 11.2 8.8 10.0 7.6 400 KV 13.6 11.2 12.4 10.0
Table. Tracks electrified on 25 kV A.C. system ,[object Object],System Voltage Level Broad Gauge Inside station limits(m) Out side station limits(m) ≤ 66 KV 10.3 7.9 132 KV 10.9 8.5 220 KV 11.2 8.8 400 KV 13.6 11.2 System Voltage Level Clearance(m) ≤ 66 KV 2.40 132 KV 2.75 220KV 4.55 400 KV 6.00
[object Object],[object Object],[object Object],Where- V = Voltage of system in KV D = Diameter of Conductor in cm S = Sag in cm W = weight of conductor in Kg/m Where- V = Voltage of system in KV S = Sag in cm
[object Object],Where- l = Average span length(m) ,[object Object],Where- V = Voltage of system in KV S = Sag in cm L = Length of insulator string in cm
[object Object],Where- E = Line Voltage in KV S = Sag in cm ,[object Object],Where- E = Line Voltage in KV S = Sag in cm L = length of insulating string(cm)
[object Object],[object Object],[object Object],[object Object]
Clearances b/n Conductors SYSTEM VOLTAGE TYPE OF TOWER Vertical spacing b/n conductors(mm) Horizontal spacing b/n conductors(mm) 66 kV SINGLE CIRCUIT A(0-2°) 1080 4040 B(2-30°) 1080 4270 C(30-60°) 1220 4880 DOUBLE CIRCUIT A(0-2°) 2170 4270 B(2-30°) 2060 4880 C(30-60°) 2440 6000 132 KV SINGLE CIRCUIT A(0-2°) 4200 7140 B(2-30°) 4200 6290 C(30-60°) 4200 7150 D(30-60°) 4200 8820 DOUBLE CIRCUIT A(0-2°) 3965 7020 B(2-15°) 3965 7320 C(15-30°) 3965 7320 D(30-60°) 4270 8540
220 kV SINGLE CIRCUIT A(0-2°) 5200 8500 B(2-15°) 5250 10500 C(15-30°) 6700 12600 D(30-60°) 7800 14000 DOUBLE CIRCUIT A(0-2°) 5200 9900 B(2-15°) 5200 10100 C(15-30°) 5200 10500 D(30-60°) 6750 12600 400 KV SINGLE CIRCUIT A(0-2°) 7800 12760 B(2-15°) 7800 12760 C(15-30°) 7800 14000 D(30-60°) 8100 16200
Sag and Tension Calculation ,[object Object],[object Object],Span >300 m Sag & Tension Span ≤300 m
Types of Conductors ,[object Object],[object Object],[object Object]
Selection of Conductor Size ,[object Object],[object Object],[object Object],[object Object],[object Object],[object Object]
Electrical Requirement ,[object Object],[object Object],[object Object],[object Object],[object Object],[object Object],[object Object]
Continuous Current Rating. I 1 =current rating for temp rise ∆t 1 I 2 =current rating required to produced temp rise ∆t 2 R 1 = conductor resistance at conductor total temp T 1 (say 75°C) R 2 = conductor resistance at required conductor total temp T 2
Short Time Rating ,[object Object],[object Object],[object Object],[object Object]
Corona ,[object Object],[object Object],[object Object],[object Object],[object Object],[object Object],[object Object]
Voltage gradient at the surface of conductor at operating voltage- Corona discharge form at the surface of conductor if g 0 ≥ corona starting gradient i.e. (rms kv/cm) ,[object Object],[object Object]
Optimization of Conductor ,[object Object],[object Object],[object Object],[object Object],[object Object],[object Object],[object Object],[object Object],[object Object],[object Object],Annual energy generated 8760*maximum demand LF = ,[object Object],[object Object]
[object Object],[object Object],[object Object],[object Object],[object Object]
Some Others Consideration in Conductor Selection ,[object Object],[object Object],[object Object]
INSULATOR ,[object Object],[object Object],[object Object],[object Object],[object Object],[object Object],[object Object]
[object Object],[object Object],[object Object],[object Object],[object Object],[object Object]
[object Object],[object Object],[object Object],[object Object],[object Object]
INSULATOR STRING ,[object Object],[object Object],[object Object],[object Object],[object Object],Fig. single string Fig. Double string
Earth Wire ,[object Object],[object Object],[object Object],[object Object],[object Object],[object Object],[object Object],[object Object],[object Object],[object Object],[object Object]
A= Area(in mm 2 ) of cu conductor I =current in KA t = Time insecond ,[object Object],[object Object],[object Object],[object Object]
Mid span clearance: Direct distance b/n earth wire and top power conductor. As per IS 5613 following value of mid span clearance should be considered System voltage Mid span clearance(m) ≤ 66 KV 3.0 110 KV 4.5 132 KV 6.1 220 KV 8.5 400 KV 9.0
Tower Grounding ,[object Object],[object Object],[object Object]
Method of Tower Grounding ,[object Object],[object Object],[object Object],[object Object],[object Object],[object Object],[object Object],[object Object],[object Object],[object Object],[object Object],[object Object]
Reference Standards ,[object Object],[object Object],[object Object],[object Object],[object Object],[object Object],[object Object],Specification of Aluminium Conductor for Over Head Transmission Line(ACSR) Code of Practice for use of Structural Steel in over head Transmission Line Tower Specification of Aluminium Steel Core Wire for Aluminium Conductor Code Practice for Design and Construction of Foundation of Transmission Line Tower and Pole Specification of Design, Installation and Maintenance of Line above 11 KV and up to 220 KV Manual on Transmission Line Tower, Technical Report N0. 9, March 1977
Thank You….

Recomendados

Conductors used in transmission line
Conductors used in transmission lineConductors used in transmission line
Conductors used in transmission lineSourabh sharma
 
Electrical transmission line
Electrical transmission lineElectrical transmission line
Electrical transmission lineDhananjay Jha
 
Overhead line work ppt
Overhead line work pptOverhead line work ppt
Overhead line work pptDemsew Mitiku
 
Presentation topic is transmission line
Presentation topic is transmission linePresentation topic is transmission line
Presentation topic is transmission linemd muzahidul haque
 
Sag and tension
Sag and tensionSag and tension
Sag and tensionrajendrachoudhary123
 
Construction EHV Transmission Line
Construction EHV Transmission LineConstruction EHV Transmission Line
Construction EHV Transmission LineSURESH GOPAL
 
Types of-tower
Types of-towerTypes of-tower
Types of-towerJitendra Rajora
 
Sag in overhead transmission line, sag calculation & string chart
Sag in overhead transmission line, sag calculation & string chartSag in overhead transmission line, sag calculation & string chart
Sag in overhead transmission line, sag calculation & string chartvishalgohel12195
 

Recomendados

Conductors used in transmission line
Conductors used in transmission lineConductors used in transmission line
Conductors used in transmission lineSourabh sharma
 
Electrical transmission line
Electrical transmission lineElectrical transmission line
Electrical transmission lineDhananjay Jha
 
Overhead line work ppt
Overhead line work pptOverhead line work ppt
Overhead line work pptDemsew Mitiku
 
Presentation topic is transmission line
Presentation topic is transmission linePresentation topic is transmission line
Presentation topic is transmission linemd muzahidul haque
 
Sag and tension
Sag and tensionSag and tension
Sag and tensionrajendrachoudhary123
 
Construction EHV Transmission Line
Construction EHV Transmission LineConstruction EHV Transmission Line
Construction EHV Transmission LineSURESH GOPAL
 
Types of-tower
Types of-towerTypes of-tower
Types of-towerJitendra Rajora
 
Sag in overhead transmission line, sag calculation & string chart
Sag in overhead transmission line, sag calculation & string chartSag in overhead transmission line, sag calculation & string chart
Sag in overhead transmission line, sag calculation & string chartvishalgohel12195
 
Ppt of ehv ac transmission
Ppt of ehv ac transmissionPpt of ehv ac transmission
Ppt of ehv ac transmissionSumit Kumar
 
Electrical power transmission system
Electrical power transmission systemElectrical power transmission system
Electrical power transmission systemAbdul Wahab Malik
 
Chapter 2 transmission line parameters
Chapter 2 transmission line parametersChapter 2 transmission line parameters
Chapter 2 transmission line parametersfiraoltemesgen1
 
Over head power lines
Over head power linesOver head power lines
Over head power linesIbtisam Ul Hassan Hassan
 
Under ground cables presention
Under ground cables presentionUnder ground cables presention
Under ground cables presentionRazu Khan
 
Principles of Cable Sizing
Principles of Cable SizingPrinciples of Cable Sizing
Principles of Cable SizingLeonardo ENERGY
 
Structure of power system
Structure of power systemStructure of power system
Structure of power systemRevathi Subramaniam
 
Classification of transmission lines
Classification of transmission linesClassification of transmission lines
Classification of transmission linesHamzaAbbas43
 
INSULATORS AND ITS TYPES
INSULATORS AND ITS TYPESINSULATORS AND ITS TYPES
INSULATORS AND ITS TYPESRaviteja Damerla
 
Conductor material and ferranti effect
Conductor material and ferranti effectConductor material and ferranti effect
Conductor material and ferranti effectAbhishekLalkiya
 
33kv substation
33kv substation33kv substation
33kv substationAbhishek Dawachya
 
PPt on 220 kV substation
PPt on 220 kV substationPPt on 220 kV substation
PPt on 220 kV substationIshank Ranjan
 
220KV Substation Training Report
220KV Substation Training Report220KV Substation Training Report
220KV Substation Training ReportSWAPNILKUMARGUPTA
 
Switchgear and protection 1
Switchgear and protection 1Switchgear and protection 1
Switchgear and protection 1Md Irshad Ahmad
 
220 Kv / 132 Kv GSS PPT
220 Kv / 132 Kv GSS PPT220 Kv / 132 Kv GSS PPT
220 Kv / 132 Kv GSS PPTRahul Prajapati
 
1.substation layouts
1.substation layouts1.substation layouts
1.substation layoutsayyadurai SHANMUGAM
 
Transmission Line Towers and details
Transmission Line Towers and detailsTransmission Line Towers and details
Transmission Line Towers and detailsMahesh Sontyal
 
Facts devices
Facts devicesFacts devices
Facts devicesVinod Srivastava
 
Transmission Line
Transmission LineTransmission Line
Transmission LinePRITAM DEBNATH
 
Chapter 4 mechanical design of transmission lines
Chapter 4 mechanical design of transmission linesChapter 4 mechanical design of transmission lines
Chapter 4 mechanical design of transmission linesfiraoltemesgen1
 
Wheel alignment
Wheel alignmentWheel alignment
Wheel alignmentAdams Harry
 
2021 Competitor Analysis of Global Automotive Keyless Entry System Market
2021 Competitor Analysis of Global Automotive Keyless Entry System Market2021 Competitor Analysis of Global Automotive Keyless Entry System Market
2021 Competitor Analysis of Global Automotive Keyless Entry System MarketRanjith Rama
 

Mais conteúdo relacionado

Mais procurados

Ppt of ehv ac transmission
Ppt of ehv ac transmissionPpt of ehv ac transmission
Ppt of ehv ac transmissionSumit Kumar
 
Electrical power transmission system
Electrical power transmission systemElectrical power transmission system
Electrical power transmission systemAbdul Wahab Malik
 
Chapter 2 transmission line parameters
Chapter 2 transmission line parametersChapter 2 transmission line parameters
Chapter 2 transmission line parametersfiraoltemesgen1
 
Under ground cables presention
Under ground cables presentionUnder ground cables presention
Under ground cables presentionRazu Khan
 
Principles of Cable Sizing
Principles of Cable SizingPrinciples of Cable Sizing
Principles of Cable SizingLeonardo ENERGY
 
Classification of transmission lines
Classification of transmission linesClassification of transmission lines
Classification of transmission linesHamzaAbbas43
 
Conductor material and ferranti effect
Conductor material and ferranti effectConductor material and ferranti effect
Conductor material and ferranti effectAbhishekLalkiya
 
PPt on 220 kV substation
PPt on 220 kV substationPPt on 220 kV substation
PPt on 220 kV substationIshank Ranjan
 
220KV Substation Training Report
220KV Substation Training Report220KV Substation Training Report
220KV Substation Training ReportSWAPNILKUMARGUPTA
 
Switchgear and protection 1
Switchgear and protection 1Switchgear and protection 1
Switchgear and protection 1Md Irshad Ahmad
 
Transmission Line Towers and details
Transmission Line Towers and detailsTransmission Line Towers and details
Transmission Line Towers and detailsMahesh Sontyal
 
Chapter 4 mechanical design of transmission lines
Chapter 4 mechanical design of transmission linesChapter 4 mechanical design of transmission lines
Chapter 4 mechanical design of transmission linesfiraoltemesgen1
 

Mais procurados (20)

Ppt of ehv ac transmission
Ppt of ehv ac transmissionPpt of ehv ac transmission
Ppt of ehv ac transmission
 
Electrical power transmission system
Electrical power transmission systemElectrical power transmission system
Electrical power transmission system
 
Chapter 2 transmission line parameters
Chapter 2 transmission line parametersChapter 2 transmission line parameters
Chapter 2 transmission line parameters
 
Over head power lines
Over head power linesOver head power lines
Over head power lines
 
Under ground cables presention
Under ground cables presentionUnder ground cables presention
Under ground cables presention
 
Principles of Cable Sizing
Principles of Cable SizingPrinciples of Cable Sizing
Principles of Cable Sizing
 
Structure of power system
Structure of power systemStructure of power system
Structure of power system
 
Classification of transmission lines
Classification of transmission linesClassification of transmission lines
Classification of transmission lines
 
INSULATORS AND ITS TYPES
INSULATORS AND ITS TYPESINSULATORS AND ITS TYPES
INSULATORS AND ITS TYPES
 
Conductor material and ferranti effect
Conductor material and ferranti effectConductor material and ferranti effect
Conductor material and ferranti effect
 
33kv substation
33kv substation33kv substation
33kv substation
 
PPt on 220 kV substation
PPt on 220 kV substationPPt on 220 kV substation
PPt on 220 kV substation
 
220KV Substation Training Report
220KV Substation Training Report220KV Substation Training Report
220KV Substation Training Report
 
Switchgear and protection 1
Switchgear and protection 1Switchgear and protection 1
Switchgear and protection 1
 
220 Kv / 132 Kv GSS PPT
220 Kv / 132 Kv GSS PPT220 Kv / 132 Kv GSS PPT
220 Kv / 132 Kv GSS PPT
 
1.substation layouts
1.substation layouts1.substation layouts
1.substation layouts
 
Transmission Line Towers and details
Transmission Line Towers and detailsTransmission Line Towers and details
Transmission Line Towers and details
 
Facts devices
Facts devicesFacts devices
Facts devices
 
Transmission Line
Transmission LineTransmission Line
Transmission Line
 
Chapter 4 mechanical design of transmission lines
Chapter 4 mechanical design of transmission linesChapter 4 mechanical design of transmission lines
Chapter 4 mechanical design of transmission lines
 

Destaque

2021 Competitor Analysis of Global Automotive Keyless Entry System Market
2021 Competitor Analysis of Global Automotive Keyless Entry System Market2021 Competitor Analysis of Global Automotive Keyless Entry System Market
2021 Competitor Analysis of Global Automotive Keyless Entry System MarketRanjith Rama
 
Automatic transmission.ppt
Automatic transmission.pptAutomatic transmission.ppt
Automatic transmission.pptsgrsoni45
 
Know About Your Car Engine
Know About Your Car EngineKnow About Your Car Engine
Know About Your Car EngineShaun Hale
 
Automatic Transmission
Automatic TransmissionAutomatic Transmission
Automatic TransmissionNizam Anuar
 
Transmission media
Transmission mediaTransmission media
Transmission mediakinish kumar
 

Destaque (11)

Wheel alignment
Wheel alignmentWheel alignment
Wheel alignment
 
2021 Competitor Analysis of Global Automotive Keyless Entry System Market
2021 Competitor Analysis of Global Automotive Keyless Entry System Market2021 Competitor Analysis of Global Automotive Keyless Entry System Market
2021 Competitor Analysis of Global Automotive Keyless Entry System Market
 
Automatic transmission.ppt
Automatic transmission.pptAutomatic transmission.ppt
Automatic transmission.ppt
 
Alignment for car
Alignment for carAlignment for car
Alignment for car
 
Know About Your Car Engine
Know About Your Car EngineKnow About Your Car Engine
Know About Your Car Engine
 
Automobile Sector
Automobile SectorAutomobile Sector
Automobile Sector
 
Gear box –industrial applications
Gear box –industrial applicationsGear box –industrial applications
Gear box –industrial applications
 
Automatic Transmission
Automatic TransmissionAutomatic Transmission
Automatic Transmission
 
Automatic transmission system ppt
Automatic transmission system pptAutomatic transmission system ppt
Automatic transmission system ppt
 
Transmission media
Transmission mediaTransmission media
Transmission media
 
Company profile
Company profileCompany profile
Company profile
 

Semelhante a TRANSMISSION LINE COMPONENTS

Transmission Line presentation______.ppt
Transmission Line presentation______.pptTransmission Line presentation______.ppt
Transmission Line presentation______.pptssuserc3b807
 
Concept of energy transmission & distribution
Concept of energy transmission & distribution Concept of energy transmission & distribution
Concept of energy transmission & distribution ZunAib Ali
 
Cigre test system description justifications and simulation results v3
Cigre test system description justifications and simulation results v3Cigre test system description justifications and simulation results v3
Cigre test system description justifications and simulation results v3sebden
 
ELECTRICAL POWER TRANSMISSION-3.pptx
ELECTRICAL POWER TRANSMISSION-3.pptxELECTRICAL POWER TRANSMISSION-3.pptx
ELECTRICAL POWER TRANSMISSION-3.pptxamitpandey509058
 
Design aspects of high voltage transmission line
Design aspects of high voltage transmission lineDesign aspects of high voltage transmission line
Design aspects of high voltage transmission linejournalBEEI
 
Cable ampacity calculations iec
Cable ampacity calculations iecCable ampacity calculations iec
Cable ampacity calculations iecJoe Khan
 
cable ampacity calculations- IEC
cable ampacity calculations- IECcable ampacity calculations- IEC
cable ampacity calculations- IECJoe Khan
 
Power upgrading of transmission line by combining ac dc transmission
Power upgrading of transmission line by combining ac dc transmissionPower upgrading of transmission line by combining ac dc transmission
Power upgrading of transmission line by combining ac dc transmissionShailesh Senta
 
Power upgrading of transmission line by combining ac dc transmission
Power upgrading of transmission line by combining ac dc transmissionPower upgrading of transmission line by combining ac dc transmission
Power upgrading of transmission line by combining ac dc transmissionShailesh Senta
 
High_Voltage_Engineering.ppt
High_Voltage_Engineering.pptHigh_Voltage_Engineering.ppt
High_Voltage_Engineering.ppteshetchaf
 
High voltage engineering
High voltage engineeringHigh voltage engineering
High voltage engineeringHari Kumar
 
POWER SYSTEMS – II chapter 1 transmission line modelling.pptx
POWER SYSTEMS – II chapter 1 transmission line modelling.pptxPOWER SYSTEMS – II chapter 1 transmission line modelling.pptx
POWER SYSTEMS – II chapter 1 transmission line modelling.pptxMaipaliJyoshnaDevi
 
General condition-relating-to-electricity new
General condition-relating-to-electricity newGeneral condition-relating-to-electricity new
General condition-relating-to-electricity newDineshsenthil
 
UNIT IV design of Electrical Apparatus
UNIT IV design of Electrical ApparatusUNIT IV design of Electrical Apparatus
UNIT IV design of Electrical Apparatusnganesh90
 

Semelhante a TRANSMISSION LINE COMPONENTS (20)

Transmission Line presentation______.ppt
Transmission Line presentation______.pptTransmission Line presentation______.ppt
Transmission Line presentation______.ppt
 
Akt tl design01
Akt tl design01Akt tl design01
Akt tl design01
 
Concept of energy transmission & distribution
Concept of energy transmission & distribution Concept of energy transmission & distribution
Concept of energy transmission & distribution
 
Ehv ac transmission line
Ehv ac transmission lineEhv ac transmission line
Ehv ac transmission line
 
Ehv line design
Ehv line designEhv line design
Ehv line design
 
Cigre test system description justifications and simulation results v3
Cigre test system description justifications and simulation results v3Cigre test system description justifications and simulation results v3
Cigre test system description justifications and simulation results v3
 
ELECTRICAL POWER TRANSMISSION-3.pptx
ELECTRICAL POWER TRANSMISSION-3.pptxELECTRICAL POWER TRANSMISSION-3.pptx
ELECTRICAL POWER TRANSMISSION-3.pptx
 
2581
25812581
2581
 
Design aspects of high voltage transmission line
Design aspects of high voltage transmission lineDesign aspects of high voltage transmission line
Design aspects of high voltage transmission line
 
Cable ampacity calculations iec
Cable ampacity calculations iecCable ampacity calculations iec
Cable ampacity calculations iec
 
cable ampacity calculations- IEC
cable ampacity calculations- IECcable ampacity calculations- IEC
cable ampacity calculations- IEC
 
Power upgrading of transmission line by combining ac dc transmission
Power upgrading of transmission line by combining ac dc transmissionPower upgrading of transmission line by combining ac dc transmission
Power upgrading of transmission line by combining ac dc transmission
 
Power upgrading of transmission line by combining ac dc transmission
Power upgrading of transmission line by combining ac dc transmissionPower upgrading of transmission line by combining ac dc transmission
Power upgrading of transmission line by combining ac dc transmission
 
High_Voltage_Engineering.ppt
High_Voltage_Engineering.pptHigh_Voltage_Engineering.ppt
High_Voltage_Engineering.ppt
 
High voltage engineering
High voltage engineeringHigh voltage engineering
High voltage engineering
 
POWER SYSTEMS – II chapter 1 transmission line modelling.pptx
POWER SYSTEMS – II chapter 1 transmission line modelling.pptxPOWER SYSTEMS – II chapter 1 transmission line modelling.pptx
POWER SYSTEMS – II chapter 1 transmission line modelling.pptx
 
General condition-relating-to-electricity new
General condition-relating-to-electricity newGeneral condition-relating-to-electricity new
General condition-relating-to-electricity new
 
UNIT IV design of Electrical Apparatus
UNIT IV design of Electrical ApparatusUNIT IV design of Electrical Apparatus
UNIT IV design of Electrical Apparatus
 
Line upgrade
Line upgradeLine upgrade
Line upgrade
 
Voltage Drop Calculation.pdf
Voltage Drop Calculation.pdfVoltage Drop Calculation.pdf
Voltage Drop Calculation.pdf
 

Último

BAG TECHNIQUE Bag technique-a tool making use of public health bag through wh...
BAG TECHNIQUE Bag technique-a tool making use of public health bag through wh...BAG TECHNIQUE Bag technique-a tool making use of public health bag through wh...
BAG TECHNIQUE Bag technique-a tool making use of public health bag through wh...Sapna Thakur
 
Ecosystem Interactions Class Discussion Presentation in Blue Green Lined Styl...
Ecosystem Interactions Class Discussion Presentation in Blue Green Lined Styl...Ecosystem Interactions Class Discussion Presentation in Blue Green Lined Styl...
Ecosystem Interactions Class Discussion Presentation in Blue Green Lined Styl...fonyou31
 
Separation of Lanthanides/ Lanthanides and Actinides
Separation of Lanthanides/ Lanthanides and ActinidesSeparation of Lanthanides/ Lanthanides and Actinides
Separation of Lanthanides/ Lanthanides and ActinidesFatimaKhan178732
 
mini mental status format.docx
mini mental status format.docxmini mental status format.docx
mini mental status format.docxPoojaSen20
 
APM Welcome, APM North West Network Conference, Synergies Across Sectors
APM Welcome, APM North West Network Conference, Synergies Across SectorsAPM Welcome, APM North West Network Conference, Synergies Across Sectors
APM Welcome, APM North West Network Conference, Synergies Across SectorsAssociation for Project Management
 
Sanyam Choudhary Chemistry practical.pdf
Sanyam Choudhary Chemistry practical.pdfSanyam Choudhary Chemistry practical.pdf
Sanyam Choudhary Chemistry practical.pdfsanyamsingh5019
 
social pharmacy d-pharm 1st year by Pragati K. Mahajan
social pharmacy d-pharm 1st year by Pragati K. Mahajansocial pharmacy d-pharm 1st year by Pragati K. Mahajan
social pharmacy d-pharm 1st year by Pragati K. Mahajanpragatimahajan3
 
Russian Call Girls in Andheri Airport Mumbai WhatsApp 9167673311 💞 Full Nigh...
Russian Call Girls in Andheri Airport Mumbai WhatsApp 9167673311 💞 Full Nigh...Russian Call Girls in Andheri Airport Mumbai WhatsApp 9167673311 💞 Full Nigh...
Russian Call Girls in Andheri Airport Mumbai WhatsApp 9167673311 💞 Full Nigh...Pooja Nehwal
 
JAPAN: ORGANISATION OF PMDA, PHARMACEUTICAL LAWS & REGULATIONS, TYPES OF REGI...
JAPAN: ORGANISATION OF PMDA, PHARMACEUTICAL LAWS & REGULATIONS, TYPES OF REGI...JAPAN: ORGANISATION OF PMDA, PHARMACEUTICAL LAWS & REGULATIONS, TYPES OF REGI...
JAPAN: ORGANISATION OF PMDA, PHARMACEUTICAL LAWS & REGULATIONS, TYPES OF REGI...anjaliyadav012327
 
POINT- BIOCHEMISTRY SEM 2 ENZYMES UNIT 5.pptx
POINT- BIOCHEMISTRY SEM 2 ENZYMES UNIT 5.pptxPOINT- BIOCHEMISTRY SEM 2 ENZYMES UNIT 5.pptx
POINT- BIOCHEMISTRY SEM 2 ENZYMES UNIT 5.pptxSayali Powar
 
Q4-W6-Restating Informational Text Grade 3
Q4-W6-Restating Informational Text Grade 3Q4-W6-Restating Informational Text Grade 3
Q4-W6-Restating Informational Text Grade 3JemimahLaneBuaron
 
Accessible design: Minimum effort, maximum impact
Accessible design: Minimum effort, maximum impactAccessible design: Minimum effort, maximum impact
Accessible design: Minimum effort, maximum impactdawncurless
 
Nutritional Needs Presentation - HLTH 104
Nutritional Needs Presentation - HLTH 104Nutritional Needs Presentation - HLTH 104
Nutritional Needs Presentation - HLTH 104misteraugie
 
The byproduct of sericulture in different industries.pptx
The byproduct of sericulture in different industries.pptxThe byproduct of sericulture in different industries.pptx
The byproduct of sericulture in different industries.pptxShobhayan Kirtania
 
Organic Name Reactions for the students and aspirants of Chemistry12th.pptx
Organic Name Reactions for the students and aspirants of Chemistry12th.pptxOrganic Name Reactions for the students and aspirants of Chemistry12th.pptx
Organic Name Reactions for the students and aspirants of Chemistry12th.pptxVS Mahajan Coaching Centre
 
CARE OF CHILD IN INCUBATOR..........pptx
CARE OF CHILD IN INCUBATOR..........pptxCARE OF CHILD IN INCUBATOR..........pptx
CARE OF CHILD IN INCUBATOR..........pptxGaneshChakor2
 
The basics of sentences session 2pptx copy.pptx
The basics of sentences session 2pptx copy.pptxThe basics of sentences session 2pptx copy.pptx
The basics of sentences session 2pptx copy.pptxheathfieldcps1
 
Sports & Fitness Value Added Course FY..
Sports & Fitness Value Added Course FY..Sports & Fitness Value Added Course FY..
Sports & Fitness Value Added Course FY..Disha Kariya
 

Último (20)

BAG TECHNIQUE Bag technique-a tool making use of public health bag through wh...
BAG TECHNIQUE Bag technique-a tool making use of public health bag through wh...BAG TECHNIQUE Bag technique-a tool making use of public health bag through wh...
BAG TECHNIQUE Bag technique-a tool making use of public health bag through wh...
 
Ecosystem Interactions Class Discussion Presentation in Blue Green Lined Styl...
Ecosystem Interactions Class Discussion Presentation in Blue Green Lined Styl...Ecosystem Interactions Class Discussion Presentation in Blue Green Lined Styl...
Ecosystem Interactions Class Discussion Presentation in Blue Green Lined Styl...
 
Separation of Lanthanides/ Lanthanides and Actinides
Separation of Lanthanides/ Lanthanides and ActinidesSeparation of Lanthanides/ Lanthanides and Actinides
Separation of Lanthanides/ Lanthanides and Actinides
 
mini mental status format.docx
mini mental status format.docxmini mental status format.docx
mini mental status format.docx
 
APM Welcome, APM North West Network Conference, Synergies Across Sectors
APM Welcome, APM North West Network Conference, Synergies Across SectorsAPM Welcome, APM North West Network Conference, Synergies Across Sectors
APM Welcome, APM North West Network Conference, Synergies Across Sectors
 
Sanyam Choudhary Chemistry practical.pdf
Sanyam Choudhary Chemistry practical.pdfSanyam Choudhary Chemistry practical.pdf
Sanyam Choudhary Chemistry practical.pdf
 
social pharmacy d-pharm 1st year by Pragati K. Mahajan
social pharmacy d-pharm 1st year by Pragati K. Mahajansocial pharmacy d-pharm 1st year by Pragati K. Mahajan
social pharmacy d-pharm 1st year by Pragati K. Mahajan
 
Russian Call Girls in Andheri Airport Mumbai WhatsApp 9167673311 💞 Full Nigh...
Russian Call Girls in Andheri Airport Mumbai WhatsApp 9167673311 💞 Full Nigh...Russian Call Girls in Andheri Airport Mumbai WhatsApp 9167673311 💞 Full Nigh...
Russian Call Girls in Andheri Airport Mumbai WhatsApp 9167673311 💞 Full Nigh...
 
JAPAN: ORGANISATION OF PMDA, PHARMACEUTICAL LAWS & REGULATIONS, TYPES OF REGI...
JAPAN: ORGANISATION OF PMDA, PHARMACEUTICAL LAWS & REGULATIONS, TYPES OF REGI...JAPAN: ORGANISATION OF PMDA, PHARMACEUTICAL LAWS & REGULATIONS, TYPES OF REGI...
JAPAN: ORGANISATION OF PMDA, PHARMACEUTICAL LAWS & REGULATIONS, TYPES OF REGI...
 
POINT- BIOCHEMISTRY SEM 2 ENZYMES UNIT 5.pptx
POINT- BIOCHEMISTRY SEM 2 ENZYMES UNIT 5.pptxPOINT- BIOCHEMISTRY SEM 2 ENZYMES UNIT 5.pptx
POINT- BIOCHEMISTRY SEM 2 ENZYMES UNIT 5.pptx
 
Q4-W6-Restating Informational Text Grade 3
Q4-W6-Restating Informational Text Grade 3Q4-W6-Restating Informational Text Grade 3
Q4-W6-Restating Informational Text Grade 3
 
Código Creativo y Arte de Software | Unidad 1
Código Creativo y Arte de Software | Unidad 1Código Creativo y Arte de Software | Unidad 1
Código Creativo y Arte de Software | Unidad 1
 
Accessible design: Minimum effort, maximum impact
Accessible design: Minimum effort, maximum impactAccessible design: Minimum effort, maximum impact
Accessible design: Minimum effort, maximum impact
 
Nutritional Needs Presentation - HLTH 104
Nutritional Needs Presentation - HLTH 104Nutritional Needs Presentation - HLTH 104
Nutritional Needs Presentation - HLTH 104
 
The byproduct of sericulture in different industries.pptx
The byproduct of sericulture in different industries.pptxThe byproduct of sericulture in different industries.pptx
The byproduct of sericulture in different industries.pptx
 
Organic Name Reactions for the students and aspirants of Chemistry12th.pptx
Organic Name Reactions for the students and aspirants of Chemistry12th.pptxOrganic Name Reactions for the students and aspirants of Chemistry12th.pptx
Organic Name Reactions for the students and aspirants of Chemistry12th.pptx
 
Advance Mobile Application Development class 07
Advance Mobile Application Development class 07Advance Mobile Application Development class 07
Advance Mobile Application Development class 07
 
CARE OF CHILD IN INCUBATOR..........pptx
CARE OF CHILD IN INCUBATOR..........pptxCARE OF CHILD IN INCUBATOR..........pptx
CARE OF CHILD IN INCUBATOR..........pptx
 
The basics of sentences session 2pptx copy.pptx
The basics of sentences session 2pptx copy.pptxThe basics of sentences session 2pptx copy.pptx
The basics of sentences session 2pptx copy.pptx
 
Sports & Fitness Value Added Course FY..
Sports & Fitness Value Added Course FY..Sports & Fitness Value Added Course FY..
Sports & Fitness Value Added Course FY..
 

TRANSMISSION LINE COMPONENTS

  • 1.
  • 2.
  • 3.
  • 4.
  • 5.
  • 6.
  • 7.
  • 9.
  • 10.
  • 11. Height of Tower Structure Height of tower is determine by- h 1 = Minimum permissible ground clearance h 2 = Maximum sag h 3 = Vertical spacing between conductors h 4 = Vertical clearance between earthwire and top conductor
  • 12.
  • 13.
  • 14.
  • 15.
  • 16.
  • 17.
  • 18.
  • 19.
  • 20.
  • 21. Clearances b/n Conductors SYSTEM VOLTAGE TYPE OF TOWER Vertical spacing b/n conductors(mm) Horizontal spacing b/n conductors(mm) 66 kV SINGLE CIRCUIT A(0-2°) 1080 4040 B(2-30°) 1080 4270 C(30-60°) 1220 4880 DOUBLE CIRCUIT A(0-2°) 2170 4270 B(2-30°) 2060 4880 C(30-60°) 2440 6000 132 KV SINGLE CIRCUIT A(0-2°) 4200 7140 B(2-30°) 4200 6290 C(30-60°) 4200 7150 D(30-60°) 4200 8820 DOUBLE CIRCUIT A(0-2°) 3965 7020 B(2-15°) 3965 7320 C(15-30°) 3965 7320 D(30-60°) 4270 8540
  • 22. 220 kV SINGLE CIRCUIT A(0-2°) 5200 8500 B(2-15°) 5250 10500 C(15-30°) 6700 12600 D(30-60°) 7800 14000 DOUBLE CIRCUIT A(0-2°) 5200 9900 B(2-15°) 5200 10100 C(15-30°) 5200 10500 D(30-60°) 6750 12600 400 KV SINGLE CIRCUIT A(0-2°) 7800 12760 B(2-15°) 7800 12760 C(15-30°) 7800 14000 D(30-60°) 8100 16200
  • 23.
  • 24.
  • 25.
  • 26.
  • 27. Continuous Current Rating. I 1 =current rating for temp rise ∆t 1 I 2 =current rating required to produced temp rise ∆t 2 R 1 = conductor resistance at conductor total temp T 1 (say 75°C) R 2 = conductor resistance at required conductor total temp T 2
  • 28.
  • 29.
  • 30.
  • 31.
  • 32.
  • 33.
  • 34.
  • 35.
  • 36.
  • 37.
  • 38.
  • 39.
  • 40. Mid span clearance: Direct distance b/n earth wire and top power conductor. As per IS 5613 following value of mid span clearance should be considered System voltage Mid span clearance(m) ≤ 66 KV 3.0 110 KV 4.5 132 KV 6.1 220 KV 8.5 400 KV 9.0
  • 41.
  • 42.
  • 43.