Schulz, Detlef (Hrsg.)

NEIS 2022

Conference on Sustainable Energy Supply and Energy Storage Systems, Hamburg, September 26 – 27, 2022

2022, 258 Seiten, Din A4, Broschur
ISBN 978-3-8007-5983-5, E-Book: ISBN 978-3-8007-5984-2
Persönliche VDE-Mitglieder erhalten auf diesen Titel 10% Rabatt

Inhaltsverzeichnis Vorwort

With the ongoing transition of the electrical power system to a more sustainable generation structure we need new ideas and solutions for a safe and reliable energy supply. The future power system design demands a sustainable approach with several contributions and ideas from different application fields. With the NEIS conference, the Conference on Sustainable Energy Supply and Integration of Energy Storage Systems, we established a platform for the exchange of research and new developments in these fields.

The NEIS 2022 was the 10th conference event, providing an annual occasion for scientists to present their current work. A special focus of this year‘s conference was placed on electrical power grids and relevant aspects such as power systems operation and control, smart and future grids, power systems measurement and identification, and grid integration of electro-mobility. With 3 keynote presentations and 35 contributions from Austria, Denmark, Greece, Norway, Spain, Thailand, and Germany, the NEIS conference continues to grow and to attract participants from all over the world.
Detlef Schulz received the Dipl.-Ing. in 1997 from Technical University Cottbus, Germany. From 1997 to 1999 he was with ABB Industrial Automation in Cottbus. In 2002 he received the Dr.-Ing. degree from the Technical University Berlin, Germany. The venia legendi was finished at the Technical University Berlin in 2006. From 2004 to 2005 he was a Professor for Electrical Engineering and Wind Energy at the University of Applied Sciences in Bremerhaven/Competence Center Wind Energy. Since 2005 he has been a Full Professor and the Head of the Institute of Electrical Power Systems, Helmut Schmidt University, University of the Bundeswehr, Hamburg, Germany. His research areas are electrical power systems and on-board electrical systems: grid integration and grid conformity of distributed generation and electro-mobility, grid impedance measurement, grid protection and internal electrical control of fuel cells. The research is assigned to the DLab – Distributed Energy Laboratory. He is a Full Member and since 2019 a spokesmen of the working group "Hydrogen for Northern Germany" of the Academy of Sciences and Humanities in Hamburg, a member of the VDE ETG and senior member of IEEE. Since 2013 he is Member of the Board of the Research Association Wind Energy and other Distributed Energies – FGW and since 2020 CEO of the Board of the "Grid Impedance Association".





Simulation of a Black Start Scenario Using Gas Turbine Power Plant to Start-up Thermal Power Plant

Autoren: Brose, Nico; Lehmann, Dirk; Meissner, Thomas; Schwarz, Harald; Pfeiffer, Klaus; Kotte, Marcel



Voltage angle based operation for converter-dominated grids

Autoren: Alhomsi, Hassan; Linke, Franz; Westermann, Dirk


Dynamic Modelling of Transmission Systems Based on Primary Energy Sources

Autoren: Burlakin, Ilya; Porst, Johannis; Scheiner, Elisabeth; Kuri, Ananya; Mehlmann, Gert; Kuehnapfel, Uwe; Luther, Matthias


Transformation, Comparison and Co-Simulation of a RMS-EMT Multi-Domain Test Network

Autoren: Schweinshaut, Bernd; Scheibe, Christian; Mehlmann, Gert; Luther, Matthias


Implementation of a model predictive control algorithm for distribution grids and its validation on a real-time simulator

Autoren: Raczka, Sebastian; Hilbrich, Dominik; Molodchyk, Oleksii; Rehtanz, Christian


Decarbonization of a multi-sectoral Energy System with Flexible Industrial Load Management using an Incentive Signal

Autoren: Feldhoff, Elisabeth; Naumann, Steffi; Schlegel, Steffen; Bretschneider, Peter; Westermann, Dirk


Simulation Tool for the Transient Temperature Behavior of Overhead Line Conductors

Autoren: Biele, Charlotte; Lindner, Martin; Mees, Svenja; Rehtanz, Christian


Continuous Grid-Forming Control with Transient Current Limitation

Autoren: Fischbach, Kai P.; Wiese, Nils; Zhang, Yonggang; Braun, Martin


Multi-dimensional model for electrical, thermal and mechanical simulation of a Lithium-ion Cell

Autoren: Fill, Alexander; Bubeck, Luis; Knauer, Diego; Hemmerling, Jessica; Birke, Kai Peter


Modeling of Demand Factors and Average Daily Load Profiles for Private and Public Charging Points in Urban Areas

Autoren: Kreutmayr, Simon; Niederle, Simon; Steinhart, Christoph J.; Nussbaumer, Christina; Finkel, Michael; Witzmann, Rolf



Selection of learning algorithms to improve energy prediction in a photovoltaic system

Autoren: Rajah, Samer; Rodriguez-Gomez, Alejandro; Munoz-Gutierrez, Francisco J.


Integrated Planning of Multi-energy Grids: Concepts and Challenges

Autoren: Mostafa, Marwan; Vorwerk, Daniela; Heise, Johannes; Povel, Alex; Sanina, Natalia; Babazadeh, Davood; Toebermann, Christian



Influence on Capacitor Lifetime due to Reduction of Link Capacitance for Devices operating on an Open Industrial DC grid

Autoren: Puls, Simon; Koch, Jan-Niklas; Warkentin, Slavi; Borcherding, Holger


Sensor Set Review and Application for a German residential Energy Management System

Autoren: Avdevicius, Edvard; Heider, Felix; Schulz, Detlef



Optimized grid reduction for state estimation algorithms in under-determined distribution grids

Autoren: Hilbrich, Dominik; Raczka, Sebastian; Rehtanz, Christian



Generation of realistic Smart Meter Data from Prosumers for future energy system scenarios

Autoren: Steffen, Tom; Wiegel, Bela; Babazadeh, Davood; Youssfi, Amine; Becker, Christian; Turau, Volker



ConvLSTM based Real-time Power Flow Estimation of Smart Grid with High Penetration of Uncertain PV

Autoren: Senesoulin, Fanta; Ngamroo, Issarachai; Dechanupaprittha, Sanchai


Availability and costs of flexibility options for grid congestion management

Autoren: Mueller, Tobias; Becker, Michael; Peil, Gregor; Zdrallek, Markus




Analysis of an automated cross-sectoral renewal planning of electricity, gas and heat grids

Autoren: Wierzba, Bernd Bastian; Riedlinger, Tobias; Zdrallek, Markus; Schmitz, Rene


Influence of Electric Vehicle AC-Chargers on the Resonance Behavior of Domestic Distribution Grids

Autoren: Wieckhorst, Lukas; Wingenfelder, Manuel; Hofmann, Lutz


AI-based charging management for the integration of electric vehicles using a reference low voltage grid in Hamburg

Autoren: Fu, Yuzhuo; Versen, Dennis Salvador; Stadler, Andreas; Avdevicius, Edvard; Mavraj, Gazmend; Jebali ep Samet, Meriam; Pinke, Nils; Schmalholz, Oliver; Plenz, Maik; Stiemer, Marcus; Schulz, Detlef


Technical Concept to Realize the Combination of Vehicle-to-Grid and Vehicle-to-Home for Usage in Smart Buildings

Autoren: Freymann, Andreas; Maier, Florian; Loesch, Stefan; Wenzel, Alexander; Adam, Luke; Scheer, Paul; Schrodi, Thomas