IEET: Béla Wiegel

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Béla Wiegel

M.Sc.
Research Assistant

Contact

Béla Wiegel, M. Sc.

E-6 Elektrische Energietechnik

Elektrische Energietechnik

Harburger Schloßstraße 36,

21079 Hamburg

Building HS36, Room C2 1.001

Phone: +49 40 42878 2240

E-mail: bela.wiegel@tuhh.de

Personal Homepage

Research Projects

EffiziEntEE

Efficient integration of high shares of renewable energies in technically and economically integrated energy systems

EffiziEntEE

Efficient integration of high shares of renewable energies in technically and economically integrated energy systems

Federal Ministry for Economic Affairs and Climate Action (BMWK); Duration: 2022 to 2025

to the project page

CyEntEE

I³-Lab Cyber Physical Energy Systems – Sustainability, Resilience and Economics

I³-Lab

CyEntEE

Cyber Physical Energy Systems – Sustainability, Resilience and Economics

Hamburg University of Technology (TUHH); Duration: 2020 to 2023

to the project page

Publications

TUHH Open Research (TORE)

2024

Beitrag zur Transformation des Deutschen Verteilnetztes und Auswirkungen gesetzlicher Änderungen
Steffen, Tom; Wiegel, Béla; Becker, Christian
18. Symposium Energieinnovation 2024 (EnInnov2024)

2023

Optimized utilization of decentral flexibility for the operational management of cellular multi-modal distribution grids
Wiegel, Béla; Helmrich von Elgott, Lando; Babazadeh, Davood; Becker, Christian
ETG Congress (2023)
Investigation of seasonal congestion situations in modern rural integrated distribution grids
Steffen, Tom; Becker, Christian; Wiegel, Béla
17th International Conference on Energy Economics and Technology (ENERDAY 2023)
Towards a more comprehensive open-source model for interdisciplinary smart integrated energy systems
Wiegel, Béla; Steffen, Tom; Babazadeh, Davood; Becker, Christian
11th Workshop on Modelling and Simulation of Cyber-Physical Energy Systems (MSCPES 2023)
Publisher DOI

2022

Aggregator-based optimization of the deployment of decentralized flexibility under consideration of technological and economic restrictions
Hoth, Kai Uwe; Wiegel, Béla; Hasmann, Jonas; Fischer, Kathrin
International Conference on Operations Research (OR 2022)
Generation of realistic smart meter data from prosumers for future energy system senarios
Steffen, Tom; Wiegel, Béla; Babazadeh, Davood; Youssfi, Amine; Becker, Christian; Turau, Volker
10th Conference on Sustainable Energy Supply and Energy Storage Systems (NEIS 2022): (2022)

2021

Holistic simulation approach for optimal operation of smart integrated energy systems under consideration of resilience, economics and sustainability
Hoth, Kai Uwe; Steffen, Tom; Wiegel, Béla; Youssfi, Amine; Babazadeh, Davood; Venzke, Marcus; Becker, Christian; Fischer, Kathrin; Turau, Volker
Infrastructures 6 (11): 150 (2021-10-23)
Open Access | Publisher DOI
Day-ahead Optimization of Frequency Containment Reserve for Renewable Energies and Storage
Möws, Stefan; Wiegel, Béla; Becker, Christian
IEEE PES Innovative Smart Grid Technologies Europe (ISGT Europe 2021)
Publisher DOI

Courses

Stud.IP

link to course in Stud.IP

[Lecture & Exercise] Electrical Engineering I (GES)

Semester:

unlimited

Course style:

Lecture; Exercise

Course type:

Lecture

Lecturer:

Dr. Cheng Yang, Prof. Dr. sc. techn. Christian Schuster, Anton Ulrich Geläschus, M. Sc, M. Sc Jonas David Rieseler, Prof. Dr. Andreas Bahr, Dr.-Ing. Alexander Engeln

Description:

- Basics of Resistive Circuits
- Simplifying Resistive Circuits
- Network Analysis
- The Electrostatic Field
- Stationary Currents in Conductive Media
- Electrostatic Field in Non-Conductive Media
- Static Magnetic Field
- Induction and Time-Dependent Fields

- M. Kasper, Lecture Notes Electrical Engineering Fundamentals 1, 2013
- A. R. Hambley: Electrical Engineering, Principles and Applications, Pearson Education, 2008
- P. M. Fishbane: Physics for Scientists and Engineers, Prentice Hall, 1996
- M. Albach: Grundlagen der Elektrotechnik 1, Pearson Education, 2004
- F. Moeller, H. Frohne, K.H. Löcherer, H. Müller: Grundlagen der Elektrotechnik, Teubner, 2005

Area classification:

Studiendekanat Elektrotechnik, Informatik und Mathematik

ECTS credit points:

6

Stud.IP informationen about this course:

Home institute: Institut für Theoretische Elektrotechnik (E-18)
Registered participants in Stud.IP: 149
Postings: 29
Documents: 149

Supervised Theses

ongoing

completed

2022

Kaya, E. (2022). Simulation des Lebenszyklus‘ einer Lithium Ion Zelle in den stationären EP and instationären EV Anwendungsfällen.
Pauelsen, F.-T. (2022). Implementierung eines Maximum-Power-Point-Tracker für Photovoltaikanlagen in Modelica.
Rücker, J. (2022). Dynamische Untersuchung des Verhaltens elektrischer Komponenten auf Quartiersebene hinsichtlich der Spannungshaltung.
Rüffert, J. (2022). Charakterisierung von Zellen in Verteilnetzen anhand von Bewertungskriterien und die Auswirkungen von punktuell und zeitlich begrenzt auftretenden Lasten.

2021

Helmrich von Elgott, L. (2021). Optimierter Einsatz dezentraler Flexibilität zur Betriebsführung intelligenter sektorgekoppelter Verteilnetze.
Zwinzscher, S. (2021). Entwicklung einer Methodik zur dynamischen Berechnung der Flexibilität eines auf Power-to-Heat basierenden Nahwärmenetzes.

Béla Wiegel

Contact

Béla Wiegel, M. Sc.

Research Projects

EffiziEntEE

EffiziEntEE

Efficient integration of high shares of renewable energies in technically and economically integrated energy systems

CyEntEE

I³-Lab

CyEntEE

Cyber Physical Energy Systems – Sustainability, Resilience and Economics

Publications

TUHH Open Research (TORE)

2024

2023

2022

2021

Courses

Stud.IP

Supervised Theses

ongoing

completed

2022

2021

TU Hamburg

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