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IEEE 1887 2017

IEEE 1887 2017

$33.04

IEEE Guide for Wayside Energy Storage Systems for DC Traction Applications

Published By Publication Date Number of Pages
IEEE 2017 50
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New IEEE Standard – Active. Traction power systems experience some of the most extreme variations in local power loads as compared to most otherre large scale electric power supply networks. These variations create challenges in the construction of reliable electric power delivery systems and in the performance of the rolling stock dependent on power supplied by the system. A solution is offered by energy storage by smoothing out these power variations, absorbing energy as system voltage rises, and delivering energy as voltage drops. Engineers are helped by this guide to identify where these solutions can provide the greatest benefits, design solutions with the greatest impact, and quantify the costs and benefits of deploying new solutions.

PDF Catalog

PDF Pages PDF Title
1 IEEE Std 1887-2017 Front cover
2 Title page
4 Important notices and disclaimers concerning IEEE standards documents
7 Participants
8 Introduction
9 Contents
11 1. Overview
1.1 Scope
1.2 Purpose
12 2. Normative references
3. Definitions
14 4. Applications
4.1 Introduction
4.2 Energy recovery
4.3 Voltage regulation
15 4.4 Emergency backup
4.5 Peak shaving
4.6 Load shifting
4.7 Frequency regulation
16 5. Common technologies
5.1 Introduction
5.2 Electrostatic storage
17 5.3 Mechanical storage
5.4 Electrochemical storage
6. Common topologies
6.1 Overview
6.2 Control
18 6.3 Connectivity
6.4 Integration
7. Specifying a wayside energy storage system
19 7.1 Overview
7.2 Project definition
21 7.3 Scope of work
7.4 Technical specification
22 8. Economic consideration
8.1 Overview
8.2 Cost-benefit analysis
24 8.3 Price of electricity
8.4 Grid connection charge
8.5 Traction power system expansion
25 8.6 Onboard or wayside resistors
9. Modeling and simulation of energy storage
9.1 Introduction
9.2 Objectives
9.3 Modeling, simulation, and optimization process
27 9.4 Energy storage model
31 9.5 Simulation output
10. Performance
10.1 Overview
10.2 Performance metrics
36 10.3 Electrical protection
10.4 Power isolation
10.5 System monitoring and control
10.6 Insulation coordination
10.7 Electromagnetic compatibility (EMC)
10.8 Operation and maintenance
38 11. Safety and environment
11.1 General
11.2 Failure modes and effects criticality analysis
39 11.3 Hazard analysis
11.4 Operating saftey
40 11.5 Electrical safety
11.6 Emergency response
11.7 Material safety
11.8 Environment
12. Installation and integration
12.1 General
41 12.2 Interfaces
12.3 Monitoring and control
42 12.4 Grounding
12.5 Traction power protection coordination
12.6 Traction power sectionalization
12.7 Control power
12.8 Site safety and security
43 12.9 Fire safety
12.10 Physical installation
12.11 System operations
13. Verification and validation
13.1 Overview
44 13.2 Factory testing
45 13.3 Post-installation check-out
13.4 Field testing and validation
48 Annex A (informative) Reliability and maintainability
49 Annex B (informative) Bibliography
50 Untitled
Back cover

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IEEE 1887 2017
$33.04