IEEE 1527 2006

$44.96

IEEE Recommended Practice for the Design of Flexible Buswork Located in Seismically Active Areas

Published By	Publication Date	Number of Pages
IEEE	2006	64

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

New IEEE Standard – Active. The engineering and design of flexible bus connections for bus and equipment in electric power substations is described. This recommended practice gives guidance to the substation engineer who is unfamiliar with seismic considerations in the engineering and design of connections, and provides engineers with the current state of knowledge of the dynamic effects of high-voltage connections and conductors.

PDF Catalog

PDF Pages	PDF Title
1	IEEE Recommended Practice for the Design of Flexible Buswork Located in Seismically Active Areas
3	Title page
6	Introduction Notice to users
7	Participants
9	CONTENTS
11	1. Overview 1.1 Scope 1.2 Purpose
12	2. Normative references 3. Definitions, abbreviations, and acronyms 3.1 Definitions
14	3.2 Abbreviations and acronyms 4. Equipment movement 4.1 Calculation methods to evaluate standalone equipment displacement
15	4.1.1 Recommended method for candlestick and frame type equipment
16	4.1.2 Alternative method for other equipment than candlestick and frame type
17	4.2 Testing methods to evaluate standalone equipment displacement 4.3 Site-specific conditions
18	4.4 Minimum conductor slack and necessary conductor length between equipment interconnected through flexible buswork
19	5. Other connection possibilities 6. High-current connections
21	7. Type of material to use-copper versus aluminum
22	8. Conductor mechanical properties
23	8.1 Recommended values of E and I for calculations
24	8.2 Confirmation by testing 8.3 Single- and multi-conductor bundles 9. Spacers for bundled conductors
25	10. Other considerations 10.1 Electrical clearances
26	10.2 Corona losses
27	10.3 Current-carrying capacity 10.4 Wind and ice effects
28	10.5 Fault conditions 10.6 Loads on terminal pads and seismically-induced dynamic effects of conductors
29	10.7 Three-dimensional (3-D) effects of earthquakes
30	11. Conductor configurations 11.1 Recommended configurations
32	11.2 Calculation method for verifying electrical clearances 11.3 Methods to establish configuration flexibility and terminal loads
33	11.3.1 Static calculation methods 11.3.1.1 Castigliano’s Theorem
34	11.3.1.2 Linear finite element method 11.3.1.3 Nonlinear finite element method 11.3.2 Testing methods
36	11.3.3 Nonlinear dynamic analysis with the finite element method 11.3.4 Discussion on the available methods
37	11.4 Connection hardware
38	Annex A (normative)—Normative tables
40	Annex B (informative)—Tables
44	Annex C (informative)—Figures supporting this recommended practice
54	Annex D (informative)—Informative figures
59	Annex E (informative)—Summary of research done on dynamic effects of flexible conductors used in substations
63	Annex F (informative)—Bibliography

Additional information

Standard Title	IEEE Recommended Practice for the Design of Flexible Buswork Located in Seismically Active Areas
Published Code	IEEE
Publication Date	2006
Pages Count	64

Preview PDF


PDF Format	Searchable	Printable	Preview Now

IEEE 1527 2006

PDF Catalog

Related products