Inspection and monitoring technologies of transmission lines with remote sensing / Yi Hu, Kai Liu

Author:: Hu, Yi
Published:: London, United Kingdom ; San Diego, CA : Academic Press, [2017]
Copyright Date:: ©2017
Physical Description:: 1 online resource (1 volume) : illustrations
Additional Creators:: Liu, Kai

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Machine generated contents note: ch. 1 Parameters and characteristics of transmission lines -- 1.1.General Development and Main Structure of Transmission Lines -- 1.1.1.General Development of High Voltage Transmission Systems---Current Status -- 1.1.2.Structure and Main Parameters of Transmission Lines -- 1.2.Electrical and Mechanical Characteristics -- 1.2.1.Electrical Characteristics -- 1.2.2.Mechanical Characteristics -- References -- ch. 2 Remote sensing and remote measurement technology of transmission lines -- 2.1.Infrared Detection Technology -- 2.1.1.Characteristics and Basic Theories of Infrared Detection Technology -- 2.1.2.Infrared Detecting Instrument -- 2.1.3.Application of Infrared Detection to Line Fault -- 2.2.UV Detection Technology -- 2.2.1.Characteristics and Principles of UV Detection Technology -- 2.2.2.Introduction of UV Measurement Device -- 2.2.3.UV Detection on Line Equipment and Its Application -- 2.3.Wide Area Line Monitoring Based on Satellite Remote Sensing -- 2.3.1.Characteristics and Principles of Satellite Remote Sensing Technology -- 2.3.2.Monitoring Transmission Tower and Conductor Safety Status on the Basis of Satellite Remote Sensing Technology -- 2.3.3.Transmission Line Corridor Monitoring Based on Satellite Remote Sensing Technology -- 2.3.4.Wide Area Transmission Lines Monitoring Prospect Based on Satellite Remote Sensing Technology -- References -- ch. 3 Tour inspection technology of transmission lines -- 3.1.Conventional Tour Inspection and Its Classification -- 3.1.1.Regular Tour Inspection of Lines -- 3.1.2.Special Tour Inspection of Lines -- 3.1.3.Fault Tour Inspection of Lines -- 3.1.4.On-the-Tower Tour Inspection of Lines -- 3.2.Main Contents of Tour Inspection of Lines -- 3.2.1.Environments Along the Lines -- 3.2.2.Towers, Guy Wires, and Foundations -- 3.2.3.Conductors and Ground Wires -- 3.2.4.Insulators and Fittings -- 3.2.5.Lightning Protection Facilities and Grounding Devices -- 3.2.6.Accessories and Other Facilities -- 3.3.Helicopter Tour Inspection Technology -- 3.3.1.Model of Line Inspection Helicopter -- 3.3.2.Line Inspection Heliborne Equipment -- 3.3.3.Tour Inspection Items -- 3.3.4.Helicopter Tour Inspection Process -- 3.4.Robot Tour Inspection Technology -- 3.4.1.Characteristics of Robot Tour Inspection -- 3.4.2.The Key Technology of Robot Tour Inspection -- 3.4.3.Study and Application of Inspection Robots -- 3.4.4.Prospects and Development -- 3.5.UAV Tour Inspection Technology -- 3.5.1.Characteristics of UAV Tour Inspection -- 3.5.2.Function Components and Implementation Methods of UAV Tour Inspection -- 3.5.3.The Situation of the UAV Application in Line Inspection of Transmission Lines -- 3.6.Intelligent Tour Inspection System of Transmission Lines -- 3.6.1.GPS and GIS Technologies -- 3.6.2.Principle of Intelligent Tour Inspection System of Transmission Lines -- 3.6.3.Intelligent Tour Inspection System Composition of Transmission Lines -- 3.6.4.Intelligent Tour Inspection System Functions of Transmission Lines -- 3.6.5.Workflow of an Intelligent Tour Inspection System for Transmission Lines -- 3.6.6.Characteristics of Transmission Lines Intelligent Tour Inspection System -- References -- ch. 4 Transmission lines detection technology -- 4.1.Faulty Insulator Detection -- 4.1.1.The Characteristics of Faulty Insulators -- 4.1.2.Detection Methods of Faulty Insulators -- 4.2.Voltage Detection in Operation -- 4.2.1.Requirements for Voltage Detector -- 4.2.2.Methods of Voltage Detection Working -- 4.3.Detection of Grounding Devices -- 4.3.1.Requirements for Grounding Type and Grounding Resistance -- 4.3.2.Measurement Methods of Power Frequency of Tower Ground Resistance -- 4.3.3.Notes for Measuring Grounding Resistance and the Operating Maintenance of the Grounding Device -- 4.4.Detection of Conductors and Ground Wires and Splicing Fittings -- 4.4.1.Performance Requirements and Heating Reasons for Conductors and Ground Wires and Splicing Fittings -- 4.4.2.Detection Methods -- 4.5.Conductor Sag Detection -- 4.5.1.Effects and Provision of Sag Size -- 4.5.2.Measuring Methods for Sag -- 4.6.Towers Tilt and Detection -- 4.6.1.Reasons for Tower Tilt -- 4.6.2.Detection Device of Tower Tilt Degree -- 4.7.Insulator Pollution Detection -- 4.7.1.Classification Standard of Pollution Grade -- 4.7.2.Detection Method of Insulator Pollution -- 4.8.Composite Insulators State Detection -- 4.8.1.The Structural Characteristics of Composite Insulators -- 4.8.2.The Performance Characteristics of Composite Insulators -- 4.8.3.The Detection Method of Composite Insulators -- 4.8.4.Detection Method Characteristics for Composite Insulators -- References -- ch. 5 Devices and technology for monitoring transmission lines -- 5.1.Overview of Online Monitoring for Transmission Lines -- 5.1.1.Classification of Online Monitoring for Transmission Lines -- 5.1.2.Basic Components of Online Monitoring System -- 5.1.3.Parameters and Sensors of Online Monitoring for Transmission Lines -- 5.1.4.Power Supply Modes of Online Monitoring Equipment -- 5.1.5.Wireless Transport, Processing, and Diagnostic Technologies of Monitoring Information -- 5.1.6.General Technical Requirement of Transmission Line Online Monitoring -- 5.2.Icing Monitoring of Transmission Lines -- 5.2.1.Analysis of Icing Formation Mechanism -- 5.2.2.Icing Type and Fault Features of Transmission Lines -- 5.2.3.The Principle of Icing Monitoring and the Application of Monitoring Devices for Conductors -- 5.3.Monitoring of Transmission Lines Pollution -- 5.3.1.Pollution Accumulation Characteristics for Line Insulator -- 5.3.2.Pollution Flashover Characteristics and Rules for Insulator Equipment -- 5.3.3.Principle of Monitoring System for Pollution and Device Application -- 5.4.Monitoring of Transmission Lines' Windage Yaw -- 5.4.1.Windage Discharge Mechanism and Influencing Factors -- 5.4.2.Theory of and Device for Monitoring the Wind Yaw -- 5.5.Monitoring of Transmission Lines Vibration -- 5.5.1.Formation Mechanism and Influential Factors of Wind-Induced Vibration -- 5.5.2.Monitoring Principles and Devices for Wind-Induced Vibration -- 5.6.Monitoring of Transmission Line Galloping -- 5.6.1.Mechanism and Influence Factors of Line Galloping -- 5.6.2.Technical Parameters of the System and Application of Devices for Conductor Galloping Online Monitoring -- 5.7.Monitoring of Conductor Temperature and Sag -- 5.7.1.Purpose of Monitoring of Conductor Temperature and Sag -- 5.7.2.Major Influential Factors for Increase in Line Capacity -- 5.7.3.Monitoring Devices for Temperature Rise and Sag in Conductors -- 5.7.4.Temperature Rise and Application of Sag Monitoring Device -- 5.8.Monitoring of Transmission Lines Lightning Strike -- 5.8.1.Lightning Strike Mechanism and Line Fault -- 5.8.2.Lightning Positioning Monitoring Device and Application -- 5.8.3.Fault Monitoring Device on the Tower and Its Application -- 5.9.Other Online Monitoring Devices and Their Application -- 5.9.1.Image/Video and Meteorological Condition Monitoring for the Transmission Line -- 5.9.2.Meteorological Parameter Monitoring Device -- 5.9.3.Comprehensive Online Monitoring System -- References.

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ISBN:

9780128126455
0128126450
9780128126448

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