BSI PD IEC TS 62872-1:2019
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Industrial-process measurement, control and automation – System interface between industrial facilities and the smart grid
| Published By | Publication Date | Number of Pages |
| BSI | 2019 | 104 |
This part of IEC 62872 defines the interface, in terms of information flow, between industrial facilities and the “smart grid”. It identifies, profiles and extends where required, the standards needed to allow the exchange of the information needed to support the planning, management and control of electric energy flow between the industrial facility and the smart grid.
The scope of this document specifically excludes the protocols needed for the direct control of energy resources within a facility where the control and ultimate liability for such control is delegated by the industrial facility to the external entity (e.g. distributed energy resource (DER) control by the electrical grid operator).
PDF Catalog
| PDF Pages | PDF Title |
|---|---|
| 2 | undefined |
| 4 | CONTENTS |
| 7 | FOREWORD |
| 9 | INTRODUCTION |
| 10 | 1 Scope 2 Normative references 3 Terms and definitions |
| 11 | 3.1 General |
| 13 | 3.2 Models in automation 3.3 Models in energy management system and smart grid |
| 17 | 4 Abbreviated terms |
| 18 | 5 Requirements 5.1 Considerations and approaches in industry 5.1.1 General |
| 19 | Figures Figure 1 – Overview of interface between FEMS and smart grid |
| 20 | 5.1.2 Approaches to maintain grid stability 5.1.3 Price-based and incentive-based demand response |
| 21 | Figure 2 – General approach common today for grid management of DR |
| 22 | 5.2 Architecture requirements 5.2.1 General Figure 3 – Example facility electric power distribution |
| 23 | Figure 4 – Facility enterprise and control systems |
| 24 | 5.2.2 Energy management in industrial facilities |
| 25 | Figure 5 – Model elements Figure 6 – Model architecture |
| 27 | 5.3 System interface mode between facility and smart grid |
| 28 | 5.4 Security requirements Figure 7 – Network architecture model |
| 29 | 5.5 Safety requirements 5.6 Communication requirements 5.6.1 General 5.6.2 Use of common communications technology 5.6.3 Communication security requirements 5.6.4 Network availability 5.6.5 Time synchronization |
| 30 | 5.7 Audit logging requirements 5.8 Information requirements 5.8.1 General 5.8.2 Information attributes |
| 31 | Tables Table 1 – Required information |
| 46 | 5.8.3 Example of data and data type |
| 47 | Table 2 – Example of data and data type |
| 49 | Annex A (normative)User stories and use cases A.1 General A.2 User stories |
| 50 | Table A.1 – Facility user stories: facility operation view points |
| 51 | A.3 Use cases A.3.1 Use case analysis Table A.2 – Utility user stories: utility operation view points |
| 52 | Table A.3 – Dependency between user stories and use cases |
| 53 | A.3.2 Actor names and roles Figure A.1 – Use case overview Figure A.2 – Generic communication diagram between the smart grid and the FEMS |
| 54 | Figure A.3 – Actors in role hierarchy (IEC 62264-1) |
| 55 | Table A.4 – Actors and roles |
| 56 | A.3.3 Use case descriptions |
| 58 | Figure A.4 – Sequence diagram for FG-100 Table A.5 – Exchanged information in FG-100 |
| 60 | Figure A.5 – Sequence diagram for FG-200 Table A.6 – Exchanged information in FG-200 |
| 62 | Figure A.6 – Sequence diagram for FG-300 Table A.7 – Exchanged information in FG-300 |
| 63 | Figure A.7 – Sequence diagram for FG-400 Table A.8 – Exchanged information in FG-400 |
| 65 | Figure A.8 – Sequence diagram for FG-500 Table A.9 – Exchanged information in FG-500 |
| 66 | Figure A.9 – Sequence diagram for FG-600 Table A.10 – Exchanged information in FG-600 |
| 68 | Figure A.10 – Sequence diagram for FG-710 Table A.11 – Exchanged information in FG-710 |
| 70 | Figure A.11 – Sequence diagram for FG-720 Table A.12 – Exchanged information in FG-720 |
| 72 | Figure A.12 – Sequence diagram for FG-810 Table A.13 – Exchanged information in FG-810 |
| 74 | Figure A.13 – Sequence diagram for FG-820 Table A.14 – Exchanged information in FG-820 |
| 75 | Annex B (normative)Use cases of incentive-based DR programs B.1 General |
| 76 | B.2 Use cases of incentive-based DR (IBDR) programs B.2.1 Use case analysis Figure B.1 – Role of incentive-based demand response in electric system planning and operations |
| 77 | B.2.2 Use case description Table B.1 – Dependency between user stories and use cases |
| 78 | Figure B.2 – Sequence diagram for IBDR-1 (DLC) Table B.2 – Exchanged information in IBDR-1 (DLC) |
| 80 | Figure B.3 – Sequence diagram for IBDR-2 (I/C) Table B.3 – Exchanged information in IBDR-2 (I/C) |
| 81 | Figure B.4 – Sequence diagram for IBDR-3 (EDRP) |
| 82 | Table B.4 – Exchanged information in IBDR-3 (EDRP) |
| 83 | Figure B.5 – Sequence diagram for IBDR-4 (DB) Table B.5 – Exchanged information in IBDR-4 (DB) |
| 85 | Figure B.6 – Sequence diagram for IBDR-5 (CMP) Table B.6 – Exchanged information in IBDR-5 (CMP) |
| 87 | Figure B.7 – Sequence diagram for IBDR-6 (ASM) Table B.7 – Exchanged information in IBDR-6 (ASM) |
| 88 | Annex C (informative)Example of an application of demand response energy management model C.1 General C.2 Main architecture Figure C.1 – An application example of demand response energy management model |
| 89 | C.3 Structure of a task C.4 Approaches of energy management C.4.1 General Figure C.2 – Structure of water cooling task |
| 90 | C.4.2 Approach 1 C.4.3 Approach 2 C.5 Mapping industrial demand response energy management model to use cases |
| 92 | Annex D (normative)Security services |
| 93 | Annex E (informative)Solutions for information requirement E.1 General E.2 Existing standards |
| 94 | Table E.1 – Overview of existing standard applicability |
| 95 | E.3 Analysis for each use case E.3.1 General E.3.2 Analysis of “OpenADR2.0b” (IEC 62746-10-1:2018) Figure E.1 – Interaction to register report |
| 96 | Figure E.2 – Interaction to request report Figure E.3 – Simple setup exchange |
| 97 | E.3.3 Analysis of “OASIS Energy Interoperation 1.0” |
| 99 | E.3.4 Analysis of “NAESB Energy Services Provider Interface (ESPI)” |
| 100 | E.3.5 Analysis of “ISO 17800:2017 Facility Smart Grid Information Model” (FSGIM) |
| 102 | Bibliography |
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