Last updated 11/2021
Created by Asad Ahmed
MP4 | Video: h264, 1280×720 | Audio: AAC, 44.1 KHz, 2 Ch
Genre: eLearning | Language: English + srt | Duration: 45 Lectures ( 2h 20m ) | Size: 1.43 GB
Distribution overhead power- lines & Transmission overhead power-lines
What you’ll learn:
Common Power-line definitions
Different structural design approaches to power-lines – Deterministic Design, Ultimate Design & Reliability based Design
Mechanical Loading Criteria- Weather loads, Failure Containment loading, Construction & Maintenance loads
Conductors and Overhead Ground wires- Different types and selection considerations
Wire tension limits and Sag-Tension calculations
Conductor Behaviour
Aeolian vibrations and Galloping
Power-line structures – Different configurations & Material types
Insulators- Function, material type, typical arrangements and selection criteria
Power-line hardware
Different types of Electrical Stresses- Lightning strikes, switching over voltages, power frequency
Electrical clearances
Impact of wind on electrical clearances – Insulator swing angle calculation
Radio interference and Induction
Power-line routing/layout – Considerations and procedure
Power-line Right of Way – Right of way width calculation, tree falling considerations, construction & maintenance considerations
Typical engineering deliverables
Requirements:
Basic understanding of Electrical Engineering and Civil/Structural engineering concepts
Description:
Course aims to cover fundamental concepts associated with the physical design of Overhead Power-lines (OHPLs) in a structured way so that it’s easy to digest for the audience coming from different engineering backgrounds. Course is divided in 8 major sections with each section discussing one of the main aspect of the Overhead Power-lines. Brief overview of what to expect in this course:Common power-line definitions.Different structural design approaches to OHPLs – Deterministic design approach, Ultimate load design and Reliability based design methods.Mechanical loading criteria- Weather related loads, failure containment loading , construction and maintenance loadings, structure strength and overload factors.Conductors & Overhead Ground wires – Common conductor types, conductor selection considerations, OHGW selection considerations, design tension limits, sag tension calculations, conductor behaviour such as creep, temperature and tension effects on the conductor, and typical conductor motions like Aeolian vibration and galloping.Power-line structures: Structure classifications & different material types i-e wood, steel (monopoles & lattice)Insulators & Hardware: Insulator function, material type, typical arrangements and the design criteria. We will also discuss power-line hardware. Electrical Considerations: Different type of electrical stresses, electrical clearances, insulator swing calculation, radio interference and induction.Power-line design: Line layout and routing considerations and procedure, Right of ways and right of way width calculation, conductor & structure selection considerations, line loading criteria and typical power-line engineering deliverables.
Who this course is for:
Electrical Engineers, Power Utility Engineers, Civil/structural engineers
Anyone with interest in the physical design of overhead power-lines
Homepage
https://anonymz.com/?https://www.udemy.com/course/overhead-powerlines-design-transmission-distribution/