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IEEE 3006.7 2013

IEEE 3006.7 2013

$59.58

IEEE Recommended Practice for Determining the Reliability of 7×24 Continuous Power Systems in Industrial and Commercial Facilities

Published By Publication Date Number of Pages
IEEE 2013 72
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New IEEE Standard – Active. Methods for determining the reliability of 724 continuous power systems in industrial and commercial facilities are described in this recommended practice. The method of reliability analysis by probability methods is described first. This is followed by a discussion of how to evaluate the results and how to implement changes to ensure that the expected degree of reliability is achieved.

PDF Catalog

PDF Pages PDF Title
1 IEEE Std 3006.7-2013 Front Cover
3 Title page
6 Notice to users
Laws and regulations
Copyrights
Updating of IEEE documents
Errata
Patents
8 Participants
10 Introduction
12 Contents
13 Important notice

1. Overview
1.1 Scope
2. Normative references
14 3. Definitions, acronyms, and abbreviations
3.1 Definitions
15 3.2 Acronyms and abbreviations
16 4. Special terminology and equipment for 7×24 facilities
4.1 Special terminology for 7×24 facilities
18 4.2 Special electrical equipment to support continuous operation
21 4.3 Special mechanical equipment to support continuous operation
23 5. Defining failure in a 7×24 facility
24 5.1 Failure of components
25 5.2 Failure of the subsystem
5.3 Failure of the critical electrical distribution system
26 5.4 Failure of the critical mechanical cooling system
5.5 Failure of the electrical power to the critical mechanical cooling system
27 5.6 Other types of failure
6. Reliability and availability as tools in evaluation of critical facilities
28 6.1 Reliability and availability—importance of using both
6.2 Reliability and availability as tools in design evaluation vs. evaluation of a specific facility
29 6.3 Recommended reliability tools for evaluation of 7×24 facilities
34 7. Critical electrical distribution system configurations
7.1 Common configurations of the UPS system
36 7.2 Critical electrical distribution system designs
42 7.3 Eliminating all single points of failure
7.4 Using STSs and dual cord equipment—cable and load management
43 8. Reliability and availability of critical distribution system configurations
8.1 Impact of redundancy on reliability calculations
48 8.2 Impact of facility size on reliability calculations
49 8.3 Operational availability vs. inherent availability
9. Critical mechanical cooling systems
50 9.1 Cooling equipment commonly used
53 9.2 Common configurations of the mechanical cooling system
59 9.3 Reliability of the critical mechanical cooling system designs
60 9.4 Electrical power to the critical mechanical cooling system
65 9.5 Reliability of the electrical power to critical mechanical cooling system
9.6 Controls for critical mechanical cooling system
68 10. Commissioning, operations, and maintenance for 7×24 continuous power systems
10.1 Commissioning of 7×24 continuous power systems
70 10.2 Operations of 7×24 continuous power systems
71 10.3 Maintenance of 7×24 continuous power systems
72 Annex A (informative)
Bibliography

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IEEE 3006.7 2013
$59.58