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PDF Pages	PDF Title
2	undefined
4	Blank Page
5	CONTENTS
8	FOREWORD
10	INTRODUCTION
11	1 Scope 2 Normative references 3 Terms, definitions and abbreviated terms 3.1 Terms and definitions
13	3.2 Abbreviated terms
14	4 Methodology
15	Figures Figure 1 – From system requirements to product standards (TC8 Road map) Figure 2 – SC 8B work groups, fields and work programmes
16	5 Market analysis, market segmentation and business models 5.1 Online survey 5.1.1 General 5.1.2 Outcomes from the 2018 survey on decentralized electrical energy systems
17	5.1.3 Outcomes from the 2020 survey on microgrids Figure 3 – General view of the microgrids projects implementation in countries
18	Tables Table 1 – Market Status and roadmap to 2020
19	Figure 4 – New technologies developed for microgrids
20	5.2 Categories of decentralized electrical energy systems 5.2.1 General 5.2.2 Categories based on application scenarios Figure 5 – Standardization satisfaction in the area
21	5.2.3 Categories based on technical features
22	5.3 Decentralized electrical energy systems market assessment 5.3.1 Stakeholders identification
23	5.3.2 Market outlook Figure 6 – Total microgrids revenue by forecast scenario, world markets:2013-2020
24	5.4 Market needs and business models for decentralized electrical energy systems Figure 7 – DER Capacity Installments as a Percentage of New Centralized Generation, Regional Averages: 2015-2024, Source: Navigant Research
27	5.5 Conceptual approach from DER to microgrid
28	Figure 8 – Recursive conceptual model of DERs Figure 9 – The conceptual model for microgrids
29	6 Reference architectures, roles and use cases 6.1 Architecture model for DER management (as proposed by SyC SE)
30	Figure 10 – Example of a hierarchical DER system five-levelarchitecture in SGAM format
32	6.2 Actors and Roles (from SyC SE) Table 2 – Business Roles of the domain
34	Table 3 – System Roles of the domain
37	6.3 Use Cases: Microgrids 6.3.1 General
38	6.3.2 Business Use Case A: Microgrid-Guarantee a continuity in load service by islanding referencing IEC 62898-4
41	6.3.3 Perspectives 6.4 Use Cases: Non-conventional distribution systems 6.4.1 Grid-tied local systems
42	6.4.2 Multi-energy local systems 6.4.3 DC distribution systems
43	6.4.4 Electric vehicles 6.5 Use cases: Virtual power plants
44	7 Standards identification and gap analysis 7.1 Microgrids 7.1.1 General 7.1.2 Needs identified for microgrid standardization
45	7.1.3 Gaps identified for microgrid standardization
46	7.2 Non-conventional distribution systems 7.2.1 Needs identified and gap analysis of grid-tied local system
47	7.2.2 Needs identified and gap analysis of multi-energy local system
48	7.2.3 Needs identified and gap analysis of DC distribution system
51	7.3 Virtual power plants 7.3.1 Needs identified for virtual power plants standardization
52	7.3.2 Gaps identified for virtual power plants standardization 8 Proposal for future actions to address the standardization needs for decentralized electrical energy systems 8.1 Microgrids
53	8.2 Non-conventional distribution systems
54	8.3 Virtual power plants
55	8.4 DC distribution systems
56	Annex A (Informative)Online survey A.1 Overview A.2 Result summary and challenges A.2.1 Result summary Figure A.1 – Variety of participants
57	Figure A.2 – Involvement of government in the microgrid development
58	Figure A.3 – Diversity of microgrid projects and requirement of technologies
59	Figure A.4 – Standards needs for microgrids
60	Figure A.5 – Participation of government in the non-conventionaldistribution system development
61	Figure A.6 – Drivers and types of non-conventional distribution system projects
63	A.2.2 Challenges Figure A.7 – Standards needs for non-conventional distribution system
64	A.3 List of the questions Figure A.8 – Challenges Table A.1 – List of the questions
71	Annex B (Informative)Microgrid and its application B.1 Overview
73	Figure B.1 – Microgrid benefits
74	B.2 Components B.2.1 General
75	Figure B.2 – Microgrid and constitutive components
76	B.2.2 Distributed generation Figure B.3 – Generic configuration and main componentsof advanced microgrids enabling technologies
77	B.2.3 Distributed energy storage B.2.4 Microgrid modelling, simulation and evaluation B.2.5 Microgrid planning and design B.2.6 Microgrid operation control and energy management
78	B.2.7 Microgrid relay protection B.2.8 Microgrid power quality B.2.9 Microgrid information and communication B.3 List of standards
79	Table B.1 – Detailed list of existing IEC relevant standards
81	Annex C (Informative)List of identified existing microgrids projects
88	Bibliography

Published By	Publication Date	Number of Pages
BSI	2023	90


PDF Format	Searchable	Printable	Preview Now

Status	Definitive
Pages	90
Publication Date	2023-04-12
ISBN	978 0 539 19161 5
Standard Number	PD IEC TR 63410:2023
Title	Decentralized electrical energy systems roadmap
Identical National Standard Of	IEC/TR 63410 Ed.1.0
Descriptors	Electrical safety requirements, Transmission of electrical energy, Electric power system protection, Energy technology
Publisher	BSI
Committee	GEL/8
ICS Codes	29.240.01 - Power transmission and distribution networks in general

BSI PD IEC TR 63410:2023

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