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IEEE 1726 2014

IEEE 1726 2014

$92.08

IEEE Guide for the Functional Specification of Fixed-Series Capacitor Banks for Transmission System Applications

Published By Publication Date Number of Pages
IEEE 2014 120
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New IEEE Standard – Active. General guidelines toward the preparations of a functional specification of transmission fixed-series capacitor (FSC) banks using overvoltage protection based on three technologies are provided. The three technologies are: – metal oxide varistors – metal oxide varistors with a forced-triggered bypass gaps, and thyristor protected series capacitors – thyristor protected series capacitor This guide does not apply comprehensively to thyristor-controlled series capacitors.

PDF Catalog

PDF Pages PDF Title
1 IEEE Std 1726™-2013 Front Cover
3 Title page
5 Important Notices and Disclaimers Concerning IEEE Standards Documents
8 Dedication
Participants
10 Introduction
11 Contents
13 Important Notice
1. Overview
1.1 Scope
14 1.2 Purpose
1.3 Application
2. Normative references
3. Definitions, acronyms, and abbreviations
3.1 Definitions
17 3.2 Acronyms and abbreviations
19 4. Fixed-series capacitor (FSC) project description
22 5. Scope of supply and schedule
5.1 Scope of supply
26 5.2 Schedule
27 6. Site and environmental data
28 7. Power system characteristics
29 8. Main FSC characteristics
8.1 Overall FSC bank ratings
8.2 Protection and control philosophy
31 8.3 Reliability, availability, and maintainability
33 9. FSC main component requirements
9.1 Capacitors
34 9.2 Varistors
35 9.3 Triggered bypass gaps
9.4 Thyristors and thyristor reactors
9.5 Insulation and air clearances
40 9.6 Discharge current-limiting and damping equipment
9.7 Bypass switches
41 9.8 Protection, control, and monitoring
43 10. Spare parts and special tools
11. Engineering studies
11.1 Power system studies
47 11.2 Equipment design studies
49 12. Tests and quality assurance
12.1 Test and quality assurance reference
12.2 Type/design (pre-production) testing
50 12.3 Routine (production) testing
13. Safety
14. Documentation
51 15. Training
52 16. Balance of plant determination
54 17. Maintenance agreement
55 Annex A (informative) Bibliography
57 Annex B (informative) Notes for a functional specification
B.1 Introduction
B.2 FSC project description, see Clause 4
60 B.3 Scope of supply and schedule, see Clause Error! Reference source not found.
B.4 Site and environmental data, see Clause 6
61 B.5 Power system characteristics, see Clause 7
62 B.6 Main FSC characteristics, see Clause 8
73 B.7 FSC main component requirements, see Clause 9
91 B.8 Spare parts and special tools, see Clause 10
B.9 Engineering studies, see Clause 11
96 B.10 Tests and quality assurance, see Clause 12
97 B.11 Documentation, see Clause 14
B.12 Training, see Clause 15
98 Annex C (informative) Subsynchronous resonance risk (SSR) on turbine generators
C.1 Introduction
C.2 Subsynchronous resonance (SSR)
100 C.3 Interaction between electrical and mechanical resonant systems
101 C.4 SSR instability
C.5 Transient torque amplification
102 C.6 SSR mitigation and protection
103 C.7 SSR protection
104 C.8 Conclusions
105 Annex D (informative) Effects of series capacitors on line breaker TRV
106 Annex E (informative) Power system modeling for use in fixed-series capacitor (FSC) equipment rating studies
E.1 Defining a power system equivalent circuit and associated fault currents for use in defining the fault withstand requirements of series capacitor protective devices
107 E.2 Discussion of system studies for determining the ratings for varistors and thyristor valves
109 Annex F (informative) Fault current discussion
F.1 Overview
F.2 Waveforms and analytical expressions of fault currents in inductive and series-compensated networks
114 F.3 Modeling of series capacitors in traditional short-circuit calculations
F.4 Modeling of series capacitors in transient short-circuit calculations
115 F.5 Definition of total fault current and through fault current (partial fault current)
118 Annex G (informative) Characterization of short circuits and their currents
G.1 Discussion of swing current
119 G.2 Stresses on a FSC caused by a swing current
G.3 Gap-protected banks
G.4 MOV-protected banks
120 Annex H (informative) Watts loss evaluation

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IEEE 1726 2014
$92.08