Digital System Protection Design – A new Toolchain for Protection System Automation

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Paper number

2004

Working Group Number

Conference name

CIRED 2019

Conference date

3-6 June 2019

Conference location

Madrid, Spain

Peer-reviewed

Yes

Short title

Convener

Authors

Meyer, Georg Janick, Friedrich-Alexander University Erlangen-Nuremberg (FAU), Germany
Biller, Martin, Friedrich-Alexander University Erlangen-Nuremberg (FAU), Germany
Romeis, Christian, Siemens AG, Germany
Shang-Jaeger, Li, Siemens AG, Germany
Dauer, Maximilian, Siemens AG, Germany
Braun, Benjamin, Technische Universität Darmstadt (TU DA), Germany
Schäkel, Nils, Leibniz Universität Hannover (LUH), Germany
Jaeger, Johann, Friedrich-Alexander University Erlangen-Nuremberg (FAU), Germany

Abstract

This paper is proposing an integrated digital toolchain for the design and parametrization of protection relays. The process flow is fully digitized and automated. It considers the grid and the protection behavior as a whole with the use of integrated grid and protection models. Thus it can be adapted highly flexible to frequent changing grid conditions. Moreover an optimization tool finds the best feasible solution of the protection system concerning the supply reliability under diverse grid conditions. A case study illustrates the functioning of that process and the results to be achieved.Future power grids are facing an increased diversity of operation and disturbance conditions. These are caused by fluctuating infeeds of renewable energy sources as well as the use of unconventional grid devices like voltage source converters or short-circuit current limiters. Maintaining a high degree of supply reliability, the protection systems and their design process have to be adapted to the changing conditions.This paper is proposing an integrated digital toolchain for the design and parametrization of protection relays. The process flow is fully digitized and automated. It considers the grid and the protection behavior as a whole with the use of integrated grid and protection models. Thus it can be adapted highly flexible to frequent changing grid conditions. Moreover an optimization tool finds the best feasible solution of the protection system concerning the supply reliability under diverse grid conditions. A case study illustrates the functioning of that process and the results to be achieved.

Table of content

Keywords

Publisher

AIM

Date

2019-06-03

Permanent link to this record

https://cired-repository.org/handle/20.500.12455/685
http://dx.doi.org/10.34890/906

ISSN

2032-9644

ISBN

978-2-9602415-0-1