BS IEC SRD 63152-2:2022:2023 Edition
$198.66
Smart cities. City service continuity – Implementation guideline and city service cases
| Published By | Publication Date | Number of Pages |
| BSI | 2023 | 68 |
PDF Catalog
| PDF Pages | PDF Title |
|---|---|
| 2 | undefined |
| 4 | Blank Page |
| 5 | CONTENTS |
| 8 | FOREWORD |
| 10 | INTRODUCTION Figures Figure 1 – Impact of power outage in traffic |
| 11 | Figure 2 – Design flow image of ECP and ECS |
| 13 | 1 Scope 2 Normative references 3 Terms and definitions |
| 14 | 4 Overview of electricity continuity plan (ECP) and electricity continuity system (ECS) based on IEC 63152 4.1 Necessity of electricity continuity |
| 15 | Figure 3 – Examples of hazards that can strike cities |
| 16 | 4.2 Countermeasures to disasters |
| 17 | 4.3 Implementation of disaster preparedness 4.4 Planning, design and introduction of ECP & ECS Figure 4 – Introduction and operation process of ECP & ECS |
| 18 | 4.5 Operation of ECP & ECS 5 Design guideline for ECP & ECS 5.1 Design flow of ECP & ECS |
| 19 | 5.2 ECP & ECS creation by using use case template 5.2.1 Short use case template for city service continuity Figure 5 – Design flow diagram of ECP & ECS |
| 20 | Tables Table 1 – Short use case template for city service continuity |
| 21 | 5.2.2 The first step: conceptual design Figure 6 – Short description in the template |
| 22 | 5.2.3 The second step: basic design |
| 24 | Figure 7 – Complete description in the template |
| 25 | Figure 8 – Diagram(s) of use case and actors in the template |
| 26 | 5.2.4 The third step: detailed design – Management timetable of ECP & ECS Figure 9 – Derivation of management timetable of ECP & ECS |
| 27 | Table 2 – Relationship of interoperability layers to ECP or ECS |
| 28 | 5.2.5 The final step: detailed design completion – Specifications of ECP & ECS |
| 29 | Figure 10 – Basic model of ECP & ECS and its configuration Figure 11 – Basic model of ECP & ECS – internal configuration |
| 30 | 5.2.6 Useful information for ECP development |
| 31 | 5.3 ECP & ECS creation example 5.3.1 System configuration (example) – Community centre and public shelter Figure 12 – System configuration of a community centre and public shelter |
| 32 | 5.3.2 The first step: conceptual design 5.3.3 The second step: basic design Figure 13 – Narrative of use case “Short description” |
| 33 | Figure 14 – Narrative of use case – Preparedness for disaster phase Figure 15 – Narrative of use case – Disaster strike phase |
| 34 | Figure 16 – Narrative of use case – Response phase Figure 17 – Narrative of use case – Recovery phase Figure 18 – Narrative of use case – Review for next preparation phase |
| 35 | Figure 19 – Diagram(s) of use case and actors list |
| 36 | Table 3 – Use case using the template |
| 38 | 5.3.4 The third step: detailed design – Management timetable of ECP & ECS |
| 39 | Figure 20 – ECP & ECS management timetable (top half) |
| 40 | Figure 21 – ECP & ECS management timetable (bottom half) |
| 41 | 5.3.5 The final step: detailed design completion – Specifications of ECP & ECS Table 4 – Summary of ECP (for Manager) |
| 43 | Table 5 – Estimation of electricity demand |
| 44 | Table 6 – Estimation of electricity source and storage |
| 45 | 6 Operation guideline for ECP & ECS 6.1 Outline of ECP & ECS operation Table 7 – Summary of ECS (for Battery) |
| 46 | 6.2 Normal time operation 6.3 Emergency time operation Figure 22 – Relationship of the ECP & ECS operations with the disaster phases |
| 47 | 6.4 Update operation 7 Collaboration across ECP & ECS for plural city services 7.1 Collaboration between related services |
| 48 | 7.2 ECP & ECS collaboration model for city services Figure 23 – Collaboration between related services on management timetables |
| 49 | 7.3 Adaptation of 3D ECP & ECS collaboration model 7.3.1 Adaptation procedure of ECP & ECS collaboration model Figure 24 – ECP & ECS collaboration model for city services |
| 50 | 7.3.2 Application to CSC planning Figure 25 – ECP & ECS collaboration model for CSC planning |
| 51 | Annex A (informative)Necessity of electricity continuity in a city A.1 Impacts of power outage A.2 Examples of impacts of power outage A.2.1 Life, home and buildings fields Figure A.1 – Life, home and buildings fields |
| 52 | A.2.2 Mobility, transportation and logistics fields Figure A.2 – Mobility, road traffic and logistics fields |
| 53 | A.2.3 Medical and commerce fields Figure A.3 – Public transportation, air traffic and logistics fields |
| 54 | Figure A.4 – Medical and commerce fields |
| 55 | A.2.4 Public and infrastructures fields Figure A.5 – Tourism and entertainment fields Figure A.6 – Public service fields |
| 56 | Figure A.7 – Education and public service fields |
| 57 | A.2.5 Industry and energy fields Figure A.8 – Social infrastructure fields |
| 58 | Figure A.9 – Industry fields Figure A.10 – Energy fields |
| 59 | Annex B (informative)Characteristics of the progression of disasters to be considered for planning CSC |
| 60 | Annex C (informative)Case of electricity continuity design 1:Regional disaster prevention base usinga free access passage of a railway station C.1 Summary C.2 Use case description Table C.1 – Use case description |
| 63 | C.3 ECP |
| 64 | C.4 ECS |
| 65 | Table C.2 – Summary of ECS (for EMS) |
| 66 | Bibliography |
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