Title
Unlocking residential Energy Flexibility on a large scale through a newly standardized interface
Author
Konsman, M.J.
Wijbrandi, W.E.
Huitema, G.B.
Publication year
2020
Abstract
Energy Flexibility is the ability of smart devices to deviate from their normal energy producing or consuming behaviour, while still fulfilling their intended purpose, with the goal of contributing to the operation of the energy system. Energy Flexibility has the potential to counteract the mismatch between production and consumption of energy as well as solving congestion problems in the grid therefore increasing the resilience of the energy system. There are many systems for utilizing and coordinating Energy Flexibility, varying in complexity, used incentives and technology. In this article, the Energy Flexibility Interface (EFI) is proposed. This interface, positioned between device and Energy Flexibility utilization system, provides a generic language for Energy Flexibility. The interface allows any device providing Energy Flexibility to work with any Energy Flexibility utilization system. Hence, Energy Flexibility can be utilized on a large scale while reducing implementation efforts and creating a level playing field for both devices and Energy Flexibility utilization systems. EFI is demonstrated in a dozen pilot projects and forms the basis of a European prestandard.
Subject
Demand response
Energy flexibility
Interoperability
Electric power transmission networks
Traffic congestion
Level playing fields
Pilot projects
Production and consumption
Residential energy
Standardized interfaces
Utilization systems
Smart power grids
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http://resolver.tudelft.nl/uuid:6aeb53d2-8b43-4c92-b443-924a4980c8a4
TNO identifier
955322
Publisher
Institute of Electrical and Electronics Engineers IEEE
ISBN
9781728131030
Source
IEEE Power and Energy Society Innovative Smart Grid Technologies Conference, ISGT 2020, 17-20 February 2020, Washington, DC, USA
Document type
conference paper