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  4. Holistic simulation approach for optimal operation of smart integrated energy systems under consideration of resilience, economics and sustainability
 
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Holistic simulation approach for optimal operation of smart integrated energy systems under consideration of resilience, economics and sustainability

Citation Link: https://doi.org/10.15480/882.3865
Publikationstyp
Journal Article
Date Issued
2021-10-23
Sprache
English
Author(s)
Hoth, Kai Uwe  
Steffen, Tom  
Wiegel, Béla  orcid-logo
Youssfi, Amine  
Babazadeh, Davood  orcid-logo
Venzke, Marcus  orcid-logo
Becker, Christian  orcid-logo
Fischer, Kathrin  orcid-logo
Turau, Volker  
Institut
Quantitative Unternehmensforschung und Wirtschaftsinformatik W-4  
Telematik E-17  
Elektrische Energietechnik E-6  
TORE-DOI
10.15480/882.3865
TORE-URI
http://hdl.handle.net/11420/10745
Journal
Infrastructures  
Volume
6
Issue
11
Article Number
150
Citation
Infrastructures 6 (11): 150 (2021-10-23)
Publisher DOI
10.3390/infrastructures6110150
Scopus ID
2-s2.0-85119083748
Publisher
MDPI
Peer Reviewed
true
The intermittent energy supply from distributed resources and the coupling of different energy and application sectors play an important role for future energy systems. Novel operational concepts require the use of widespread and reliable Information and Communication Technology (ICT). This paper presents the approach of a research project that focuses on the development of an innovative operational concept for a Smart Integrated Energy System (SIES), which consists of a physical architecture, ICT and energy management strategies. The cellular approach provides the architecture of the physical system in combination with Transactive Control (TC) as the system’s energy management framework. Independent dynamic models for each component, the physical and digital system, operational management and market are suggested and combined in a newly introduced co-simulation platform to create a holistic model of the integrated energy system. To verify the effectiveness of the operational concept, energy system scenarios are derived and evaluation criteria are suggested which can be employed to evaluate the future system operations.
Subjects
cyber physical energy system
cellular approach
transactive control
smart integrated operation
dynamic modeling
co-simulation
DDC Class
600: Technik
620: Ingenieurwissenschaften
Funding(s)
Cyber Physical Energy Systems  
Funding Organisations
I3 programme of the TUHH and the Hamburg Ministry for Science, Research, Equality and Districts (BWFGB)
Hamburg, Behörde für Wissenschaft, Forschung, Gleichstellung und Bezirke
More Funding Information
Funding: This project is financed within the I3 programme of the TUHH and the Hamburg Ministry for Science, Research, Equality and Districts (BWFGB).
Publication version
publishedVersion
Lizenz
https://creativecommons.org/licenses/by/4.0/
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