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IEEE C37.012-2014

IEEE C37.012-2014

$80.71

IEEE Guide for the Application of Capacitance Current Switching for AC High-Voltage Circuit Breakers Above 1000 V (Superseded)

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IEEE 2014
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Revision Standard – Superseded. Guidance for the application of ac high-voltage circuit breakers is provided. The application guide addresses the general theory of capacitance current switching; and the notions of re-strike, re-ignition, non-sustained disruptive discharge (NSDD). Voltage factors used for single-phase testing as substitute for three-phase testing are explained. Application of circuit breakers for different network conditions and different capacitive loads (capacitor banks, cables, transmission lines, and filter banks) is treated.

PDF Catalog

PDF Pages PDF Title
1 IEEE Std 37.012™-2014 front cover
3 Title page
5 Important Notices and Disclaimers Concerning IEEE Standards Documents
8 Participants
10 Introduction
11 Contents
13 Overview
1.1 Scope
1.2 Purpose
14 2. Normative references
3. General
15 4. Capacitor bank switching
4.1 General
16 4.2 De-energizing capacitor banks
22 4.3 Energizing capacitor banks
28 5. Unloaded cable switching
5.1 General
30 5.2 De-energizing unloaded cables
32 5.3 Energizing unloaded cables
37 6. Switching of no-load transmission lines
6.1 De-energizing uncompensated transmission lines
40 6.2 De-energizing compensated transmission lines
42 6.3 Energizing and re-energizing transmission lines
43 6.4 Switching the charging current of long transmission lines
44 7. Voltage factors for capacitive current switching tests
46 8. General application considerations
9. Capacitance current switching application considerations
9.1 General
9.2 Maximum voltage for application
47 9.3 Frequency
9.4 Rated capacitive current
9.5 Voltage and grounding conditions of the network
48 9.6 Restrike probability
49 9.7 Class of circuit breaker
9.8 Interrupting time
50 9.9 Transient overvoltages and overvoltage limitation
51 9.10 No-load transmission lines
52 9.11 Capacitor banks
59 9.12 Cables
60 9.13 Switching through transformers
62 9.14 Unusual circuits
64 9.15 Effect of load
9.16 Effect of reclosing
65 9.17 Resistor thermal limitations
9.18 Application considerations for different circuit breaker types
67 10. Considerations of capacitive currents and recovery voltages under fault conditions
10.1 Voltage and current factors
68 10.2 Reasons for these specific tests being non-mandatory in the standard
10.3 Contribution of a capacitor bank to a fault
69 10.4 Switching transmission lines under faulted conditions
70 10.5 Switching capacitor banks under faulted conditions
72 10.6 Switching cables under faulted conditions
10.7 Examples of application alternatives
73 Annex A (informative)Bibliography

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IEEE C37.012-2014
$80.71