IEEE 516-2021(Redline)

$126.75

IEEE Guide for Maintenance Methods on Energized Power Lines (Redline)

Published By	Publication Date	Number of Pages
IEEE	2021

Guaranteed Safe Checkout

Category: IEEE

If you have any questions, feel free to reach out to our online customer service team by clicking on the bottom right corner. We’re here to assist you 24/7.
Email:[email protected]

Description

Revision Standard – Active. General recommendations for performing maintenance work on energized power lines are provided. Technical explanations as required to cover certain laboratory testing of tools and equipment, in-service inspection, field maintenance and care of tools and equipment, and work methods for the maintenance of energized lines and for persons working in the vicinity of energized lines are included.

PDF Catalog

PDF Pages	PDF Title
1	IEEE Std 516-2021 Front cover
2	Title page
4	Notice and Disclaimer of Liability Concerning the Use of IEEE Standards Documents
12	1. Overview 1.1 Scope 1.2 Purpose
13	1.3 Application 1.4 Word usage
14	2. Normative references
16	3. Definitions, acronyms, and abbreviations 3.1 Definitions
20	3.2 Acronyms and abbreviations
21	4. Technical considerations 4.1 Introduction
22	4.2 Insulating properties 4.3 Air as insulation
24	4.4 Factors that affect the air insulation 4.5 Air gap distances
29	4.6 Distance equations
34	4.7 Factors used to determine MAID, MTID, MAD, MAD for Tools, and MHAD
59	4.8 Control of TOV
65	4.9 Application of MAID, MTID, MAD, MAD for Tools, and MHAD
66	4.10 Insulation systems
71	5. Tools and equipment 5.1 General 5.2 Categories of insulating tools and equipment
73	5.3 Equipment rating
75	5.4 Electrical current flows 5.5 Tool and equipment testing
78	5.6 Testing of FRP live work tools
80	5.7 Typical tests for insulating tools 5.8 Worksite procedures
82	5.9 Shop or laboratory procedures
90	5.10 Insulating rope
91	5.11 Periodic test criteria 5.12 Histograms
92	5.13 Electrical test references 5.14 Marking and identification—general 5.15 Restoration or temporary structures
93	6. In-service checking and care of insulating tools and equipment 6.1 Introduction
94	6.2 Scope 6.3 Field care, handling, and storage
96	6.4 Periodic inspection and checking
98	6.5 Maintenance and repair of tools and equipment
100	7. Work methods 7.1 Introduction 7.2 Categories of energized-line maintenance
101	7.3 Precautions when working energized lines
103	7.4 Requirements when working energized lines
105	7.5 Insulating equipment used in energized-line work
106	7.6 Noninsulating equipment used in energized-line work 7.7 Insulating devices used in energized-line work
107	7.8 Methods for positioning personnel
112	7.9 Insulator cleaning 8. Work in the vicinity of energized lines and devices 8.1 Introduction 8.2 Physiological aspects of live-line work
115	8.3 Flame-resistant clothing 8.4 RF field protection
117	8.5 Precautions when performing live work 8.6 Step and touch voltages
121	8.7 Mechanical equipment
124	Annex A (informative)Bibliography
128	Annex B (informative)Sample distance calculations B.1 Introduction B.2 Work at and below 72.5 kV
130	B.3 Work above 72.5 kV
134	Annex C (informative)Sample PPAG calculations C.1 Introduction C.2 Finding line-to-ground MAID and the MAD obtained by using PPAG
136	Annex D (informative)Distance tables D.1 General information for using the tables in this annex D.2 Adjusting T for use in tables when actual line voltage is lower than voltage on which table has been calculated
154	Annex E (informative)Determining maximum anticipated {TOV}kV and the per-unit {T}p.u. E.1 Determining TOV magnitude due to switching transients E.2 Determining T at worksite
158	E.3 Large system studies
159	Back cover