Information technology - Home Electronic System (HES) application model - Part 3: Model of an energy management system for HES

ISO/IEC 15067-3:2024 focuses on a model of a system in homes and buildings that can manage energy consumption and generation of electricity by devices on premises dynamically in response to electricity availability from:
– sources within the home or building such as solar panels, wind turbines, or storage (stationary or mobile),
– neighbourhood microgrids,
– transactive energy,
– energy aggregators, and
– public utilities.
This document specifies a model including a framework and methods for energy management consisting of interconnected elements that can be configured to support various methods for a Home Electronic System (HES) energy management system. The methods specified are intended to be generic and representative of a wide range of situations. This document applies to the customer grid-edge portion of the electricity grid (within a home or building) and applies even if the consumer has sufficient local power generation to operate without connecting to a public utility.
This document includes an energy management model that balances power supplied from internal and external sources with demand from appliances and electric vehicle chargers. The model offers flexibility for locating the energy management equipment in a stand-alone product, embedded in consumer electronics, or hosted in a gateway. This gateway can be a generic communications interface between a home network and an external network, an energy management gateway designed for handling energy-related data, or the HES gateway specified in the ISO/IEC 15045 series.
This model specifies a local controller that achieves the allocation of power in accordance with available supplies, consumer preferences for appliance operation, and power requirements of these appliances within constraints set by the consumer. Such constraints are typically financial (a budget for electricity) but can also include goals such as using green sources and minimizing their impact on climate change. This controller is called the energy management agent (EMA) since it acts as an agent for the consumer. This model accommodates an EMA with technology of artificial intelligence to facilitate energy management.
This second edition cancels and replaces the first edition published in 2012. This edition constitutes a technical revision.
This edition includes the following significant technical changes with respect to the previous edition:
a) This edition revises ISO/IEC 15067-3:2012 by expanding beyond demand response to include a balance between multiple sources of power and appliance demands for this power.
b) This edition specifies a system framework that addresses the need for user-centric energy management by providing control options for consumers.

General Information

Status
Published
Publication Date
11-Sep-2024
Current Stage
PPUB - Publication issued
Start Date
04-Oct-2024
Completion Date
12-Sep-2024
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ISO/IEC 15067-3:2024 - Information technology - Home Electronic System (HES) application model - Part 3: Model of an energy management system for HES Released:12. 09. 2024 Isbn:9782832296585
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ISO/IEC 15067-3
Edition 2.0 2024-09
INTERNATIONAL
STANDARD
colour
inside
Information technology – Home Electronic System (HES) application model –
Part 3: Model of an energy management system for HES
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ISO/IEC 15067-3
Edition 2.0 2024-09
INTERNATIONAL
STANDARD
colour
inside
Information technology – Home Electronic System (HES) application model –
Part 3: Model of an energy management system for HES
INTERNATIONAL
ELECTROTECHNICAL
COMMISSION
ICS 35.200 ISBN 978-2-8322-9658-5
– 2 – ISO/IEC 15067-3:2024
© ISO/IEC 2024
CONTENTS
FOREWORD . 4
INTRODUCTION . 6
1 Scope . 8
2 Normative references . 8
3 Terms, definitions and abbreviated terms . 9
3.1 Terms and definitions . 9
3.2 Abbreviated terms . 12
4 Conformance . 12
5 HES framework for energy management . 13
5.1 HES energy management elements and model . 13
5.2 HES energy management protected environment . 16
5.3 HES energy management agent (EMA) . 16
5.4 Electrical energy measurement system (EEMS) . 16
5.5 EMA and EEMS functionality . 17
5.6 Location of an EMA . 17
6 Energy management methods for the EMA . 17
6.1 Range of methods . 17
6.2 Consumer-centric energy management . 18
6.2.1 Framework for consumer-centric energy management . 18
6.2.2 Energy management agent (EMA) parameters . 19
6.2.3 EMA functions . 20
6.2.4 EMA control of appliances and PER . 21
6.2.5 EMA protection of privacy . 22
6.2.6 EMA and gateway . 22
6.2.7 EMA and transactive energy . 23
6.2.8 EMA benefits . 23
6.2.9 Additional EMA services . 25
6.3 Accommodating legacy energy management . 25
6.3.1 Utility-centric energy management . 25
6.3.2 Local load control . 26
6.3.3 Direct load control . 26
6.3.4 Prices-to-devices . 27
7 HES energy management use-case models and messages . 28
7.1 Introduction to energy management use-case models and messages . 28
7.2 Logical and physical models for utility-centric HES energy management . 29
7.2.1 Structure of utility-centric management models . 29
7.2.2 Case 1: local control . 29
7.2.3 Case 2: direct control without supervision . 30
7.2.4 Case 3: direct control with supervision . 31
7.2.5 Case 4: utility telemetry services . 32
7.3 Logical and physical models for consumer-centric HES energy management . 33
7.3.1 Structure of consumer-centric management models . 33
7.3.2 EMA information flows . 34
7.4 Messages for HES energy management . 36
7.4.1 Overview of HES energy management messages . 36
7.4.2 HES message list . 36

© ISO/IEC 2024
Annex A (informative) Building energy management . 40
Annex B (informative) Premises equipment for grid energy management . 42
B.1 On-premises equipment . 42
B.2 Demand response – hours . 42
B.3 Demand response – minutes . 42
B.4 Demand response – seconds . 43
B.5 Demand response – milliseconds . 43
Annex C (informative) Demand-side management . 44
C.1 Demand-side management overview . 44
C.2 Demand-side management incentives . 44
C.3 Peak clipping . 44
C.4 Demand response . 45
C.4.1 Demand response via direct load control . 45
C.4.2 Time-of-use pricing . 45
C.4.3 Real-time pricing . 46
C.4.4 Demand response via distributed load control . 46
C.4.5 Demand response and customer privacy . 46
Annex D (informative) Value-added services . 47
Bibliography . 48

Figure 1 – HES energy management framework model . 14
Figure 2 – HES energy management architecture . 18
Figure 3 – Energy management agent (EMA) inputs and outputs . 19
Figure 4 – Simple consumer choices . 24
Figure 5 – Direct load control . 27
Figure 6 – Price-to-devices . 28
Figure 7 – Case 1: local control, physical model . 29
Figure 8 – Case 1: local control, logical model . 29
Figure 9 – Case 2: direct control, physical model . 30
Figure 10 – Case 2: direct control, logical model . 30
Figure 11 – Case 3: direct control with supervision, physical model . 31
Figure 12 – Case 3: direct control with supervision, logical model . 31
Figure 13 – Case 4: utility telemetry services, physical model . 32
Figure 14 – Case 4: utility telemetry services, logical model . 33
Figure 15 – Customer-centric HES energy management, physical model . 34
Figure 16 – Customer-centric HES energy management, logical model . 34
Figure A.1 – Example of building energy management . 41

– 4 – ISO/IEC 15067-3:2024
© ISO/IEC 2024
INFORMATION TECHNOLOGY –
HOME ELECTRONIC SYSTEM (HES) APPLICATION MODEL –

Part 3: Model of an energy management system for HES

FOREWORD
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