IEEE 693-2018
$118.63
IEEE Recommended Practice for Seismic Design of Substations
| Published By | Publication Date | Number of Pages |
| IEEE | 2018 | 220 |
Revision Standard – Active. Seismic design recommendations for substations, including qualification of different equipment types are discussed. Design recommendations consist of seismic criteria, qualification methods and levels, structural capacities, performance requirements for equipment operation, installation methods, and documentation.
PDF Catalog
| PDF Pages | PDF Title |
|---|---|
| 1 | IEEE Std 693-2018 Front Cover |
| 2 | Title page |
| 4 | Important Notices and Disclaimers Concerning IEEE Standards Documents |
| 7 | Participants |
| 9 | Introduction |
| 10 | Contents |
| 16 | 1. Overview 1.1 Scope 1.2 Purpose 1.3 General |
| 17 | 1.4 Associated design references |
| 18 | 1.5 Substation seismic design flow chart |
| 20 | 1.6 Earthquakes and substations 1.7 Design/construction and quality assurance processes 2. Normative references |
| 23 | 3. Definitions, acronyms, and abbreviations 3.1 Definitions |
| 26 | 3.2 Abbreviations and acronyms |
| 28 | 4. Instructions 4.1 Format of this recommended practice 4.2 Standardization of criteria 4.3 Specifying this recommended practice in userās specifications |
| 29 | 4.4 Selection of qualification level for a region 4.5 Acceptance of previously qualified electrical equipment |
| 30 | 4.6 Optional qualification methods |
| 31 | 4.7 Qualifying equipment by group |
| 33 | 4.8 Inherently acceptable equipment 4.9 Shake-table facilities |
| 34 | 4.10 Witnessing of shake-table testing 4.11 Equipment too large to be tested in its in service configuration 4.12 Table extension frame 4.13 Low-frequency testing |
| 35 | 4.14 Report templates 5. Seismic criteria for qualification of electrical substation equipment 5.1 General introduction 5.2 Seismic qualification objective |
| 37 | 5.3 Seismic qualification approaches |
| 39 | 5.4 Seismic qualification methods with respect to test qualifications |
| 40 | 5.5 Seismic qualification methods with respect to analytical qualification |
| 41 | 5.6 Damping with respect to seismic qualification methods |
| 43 | 5.7 Seismic qualification levels |
| 44 | 5.8 Response spectra |
| 45 | 5.9 Discussion of other seismic design criteria |
| 46 | 5.10 Influence of support structures on seismic response of equipment |
| 49 | 5.11 Qualification of equipment mounted within a building 5.12 Selecting the seismic level for seismic qualification |
| 52 | 6. Design for site conditions and installation considerations 6.1 General 6.2 Equipment assembly |
| 53 | 6.3 Anchorage |
| 55 | 6.4 Site response local topography, near-field effects, and subduction zone earthquakes |
| 56 | 6.5 Soil-structure interaction 6.6 Foundation analysis |
| 59 | 6.7 Seismic protective systems 6.8 Suspended equipment |
| 61 | 6.9 Interaction between substation equipment |
| 63 | 6.10 Short-circuit loads |
| 64 | 6.11 Wind loads 6.12 Ice loads 7. Operational considerations for seismic events 7.1 General 7.2 Station service |
| 65 | 7.3 Spare parts 7.4 Telecommunication equipment |
| 66 | 7.5 Emergency power systems |
| 68 | Annex A (normative)Standard clauses A.1 Qualification procedures |
| 82 | A.2 Acceptance criteria |
| 86 | A.3 Static testing of components |
| 87 | A.4 Design requirements |
| 89 | A.5 Seismic test qualification report |
| 93 | A.6 Seismic analysis-qualification report |
| 95 | A.7 Seismic qualification identification plate |
| 97 | Annex B (normative) Non-categorized equipment B.1 General |
| 98 | B.2 Operational requirements B.3 Seismic qualification methods B.4 Qualification procedures |
| 99 | B.5 Acceptance criteria B.6 Design requirements B.7 Report |
| 100 | Annex C (normative) Circuit breakers C.1 General C.2 Operational requirements C.3 Seismic qualification methods |
| 101 | C.4 Qualification procedures |
| 103 | C.5 Acceptance criteria |
| 104 | C.6 Design requirements C.7 Report C.8 Seismic identification plate |
| 105 | Annex D (normative) Transformers and liquid-filled reactors D.1 General D.2 Operational requirements D.3 Seismic qualification methods for tank internals and attachments |
| 106 | D.4 Qualification procedures for transformers tanks D.5 Qualification procedures for bushings |
| 110 | D.6 Qualification of surge arresters |
| 111 | D.7 Acceptance criteria |
| 112 | D.8 Design requirements D.9 Report D.10 Seismic identification plate |
| 113 | Annex E (normative) Disconnect and grounding switches E.1 General E.2 Operational requirements E.3 Seismic qualification methods |
| 114 | E.4 Qualification procedures |
| 115 | E.5 Acceptance criteria |
| 116 | E.6 Design requirements E.7 Report E.8 Seismic identification plate |
| 117 | Annex F (normative) Instrument transformers F.1 General F.2 Operational requirements |
| 118 | F.3 Seismic qualification methods F.4 Qualification procedures |
| 119 | F.5 Acceptance criteria F.6 Design requirements F.7 Report F.8 Seismic identification plate |
| 120 | Annex G (normative) Air core reactors G.1 General G.2 Operational requirements G.3 Seismic qualification methods |
| 121 | G.4 Qualification procedures G.5 Acceptance criteria G.6 Design requirements G.7 Report G.8 Seismic identification plate |
| 122 | Annex H (normative) Circuit switchers H.1 General H.2 Operational requirements H.3 Seismic qualification methods |
| 123 | H.4 Qualification procedures |
| 125 | H.5 Acceptance criteria |
| 126 | H.6 Design requirements H.7 Report H.8 Seismic identification plate |
| 127 | Annex I (normative) Suspended equipment I.1 General |
| 128 | I.2 Operational requirements I.3 Seismic qualification methods I.4 Qualification proceduresāstatic analysis |
| 130 | I.5 Acceptance criteria I.6 Design requirements I.7 Report |
| 131 | I.8 Seismic identification plate |
| 132 | Annex J (normative) Station batteries and battery racks J.1 General J.2 Operational requirements J.3 Seismic qualification methods |
| 133 | J.4 Qualification procedure J.5 Acceptance criteria |
| 134 | J.6 Design requirements J.7 Report |
| 135 | J.8 Frequency or damping modifying devices or attachment J.9 Seismic identification plate |
| 136 | Annex K (normative) Surge arresters K.1 General K.2 Operational requirements K.3 Seismic qualification methods |
| 137 | K.4 Qualification procedures |
| 139 | K.5 Acceptance criteria |
| 140 | K.6 Design requirements K.7 Report K.8 Seismic identification plate |
| 141 | Annex L (normative) Substation electronic devices, distribution panels and switchboards, and solid-state rectifiers L.1 General L.2 Operational requirements |
| 142 | L.3 Seismic qualification methods L.4 Qualification procedures L.5 Acceptance criteria |
| 143 | L.6 Design requirements L.7 Report L.8 Seismic identification plate |
| 144 | Annex M (normative) Metalclad switchgear M.1 General M.2 Operational requirements M.3 Seismic qualification methods |
| 145 | M.4 Qualification procedures M.5 Acceptance criteria M.6 Design requirements M.7 Report M.8 Seismic identification plate |
| 146 | Annex N (normative) Cable terminators (potheads) N.1 General N.2 Operational requirements N.3 Seismic qualification methods |
| 147 | N.4 Qualification procedures |
| 148 | N.5 Acceptance criteria N.6 Design requirements N.7 Report N.8 Seismic identification plate |
| 149 | Annex O (normative) Series capacitors and shunt capacitors O.1 General O.2 Operational requirements O.3 Seismic qualification methods O.4 Qualification procedures |
| 150 | O.5 Acceptance criteria O.6 Design requirements O.7 Report O.8 Seismic identification plate |
| 151 | Annex P (normative) Gas-insulated switchgear P.1 General P.2 Operational requirements P.3 Seismic qualification methods |
| 152 | P.4 Qualification procedures |
| 153 | P.5 Acceptance criteria P.6 Design requirements |
| 154 | P.7 Report P.8 Seismic identification plate |
| 155 | Annex Q (informative) Qualification methods: An overview Q.1 General Q.2 Fundamental concepts |
| 156 | Q.3 Analysis methods |
| 157 | Q.4 Testing methods |
| 158 | Q.5 Optional input motion time histories for testing and analysis Q.6 Special test cases |
| 159 | Q.7 Qualification method for specific equipment Q.8 Functionality of equipment Q.9 Qualification by seismic experience data |
| 161 | Annex R (informative) Composite and porcelain insulators R.1 Composite insulators |
| 166 | R.2 Porcelain insulators |
| 172 | Annex S (informative) Analysis report template |
| 178 | Annex T (informative) Test report template |
| 188 | Annex U (informative) Specifications |
| 189 | Annex V (normative) DC equipment V.1 General |
| 190 | V.2 Operational requirements V.3 Seismic qualification methods and finite element analysis modeling techniques |
| 193 | V.4 Qualification procedures V.5 Acceptance criteria |
| 194 | V.6 Design requirements V.7 Report V.8 Seismic identification plate |
| 195 | Annex W (normative) Equipment with seismic protective devices W.1 General |
| 196 | W.2 Seismic qualification methods W.3 Qualification procedures |
| 199 | W.4 Requirements for testing of seismic protective devices |
| 202 | W.5 Dynamic analysis |
| 204 | W.6 General requirements for seismic protective devices |
| 205 | W.7 Designer qualifications and review |
| 206 | Annex X (normative) Insulator seismic strength criteria X.1 General X.2 Terminology |
| 207 | X.3 Scope X.4 Reference standards X.5 Overview of the establishment of requirements |
| 209 | X.6 Insulator failure modes X.7 Material-dependent measures of strength X.8 Porcelain insulator strength criteria |
| 214 | X.9 Composite insulator strength criteria |
| 218 | Annex Y (informative) Bibliography |
| 220 | Back cover |
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