Team:

M.Sc. Aiko Schinke-Nendza

Academic Staff
M.Sc. Aiko Schinke-Nendza
Address:
Lehrstuhl für Energiewirtschaft
Universität Duisburg-Essen, Campus Essen
Fakultät für Wirtschaftswissenschaften
Universitätsstraße 12
45141 Essen
Room:
R11 T07 C27
Phone:
+49 201 18-35625
Fax:
+49 201 18-32703
Email:
Consultation Hour:
by arrangement

Curriculum Vitae

since 02/2019
University Duisburg-Essen

Academic Staff at the Chair for Management Science and Energy Economics

2018 - 02/2019 University Duisburg-Essen
Academic Staff at the Department of Electrical Systems and Networks(Prof. Dr. -Ing. István Erlich †)

2016 - 2018 University Duisburg-Essen
Master of Science in Industrial Engineering with the specialisation: Electrical Power |  Business Information Systems & Business Intelligence


2012 - 2016 Universität Duisburg-Essen
Bachelor of Science in Industrial Engineering with specialisation: Electrical Power Engineering | Controlling & Management
 

Praktische experience

  • 2017 - 2018: Trainee at Pöyry Management Consulting GmbH
  • 2016 - 2017: Working student at E.ON Connecting Energies GmbH in the field of virtual power plants
  • 2015 - 2016: Trainee, working student & bachelor thesis at MAN Diesel & Turbo SE in the field of gas turbines
  • 2012 - 2014: Basic and specialized internships in the fields of telecommunications/mobile telephony (Hytera Mobilfunk GmbH) sowie Gießerei/Umformtechnik (ABP Induction Systems GmbH)

Fields of Research

  • Untersuchung des Marktdesigns zukünftiger Energiesysteme: Zusammenspiel von Markt und Netz & Wirkung lokaler Anreizstrukturen
  • Entwicklung marktgestützter Verfahren zur Beschaffung von nicht-frequenzbezogener Systemdienstleistungen
  • Probabilistische Analyse & Prognose kritischer Zustände in Elektrizitätsnetzen
  • Probabilistische Vorhersage des Einspeiseverhaltens erneuerbarer Energien

Publications

  • Schinke-Nendza, Aiko; von Loeper, Freimut; Osinski, Paul; Schaumann, Peter; Schmidt, Volker; Weber, Christoph: Probabilistic forecasting of photovoltaic power supply — A hybrid approach using D-vine copulas to model spatial dependencies. In: Applied Energy, Vol 304 (2021). doi:https://doi.org/10.1016/j.apenergy.2021.117599
  • Schinke-Nendza, Aiko; Weber, Christoph: Forecasting Congestions in Interconnected Power Systems with High Shares of Renewable Energy: A Probabilistic Approach using Copulas, Preprint submitted to IEEE Transactions on Power Systems (published via TechRxiv), 2021.
  • Schinke-Nendza, Aiko; Blumberg, Gerald; Khalid, Abuzar; Weber, Christoph: Regulatory and Policy Aspects for a Cellular Design of Electricity Markets. In: Proceedings of the 5th International Hybrid Power Systems Workshop | 18 - 19 May 2021 (2021).
  • Flatter, Felix; Mohammadi, Sara; Wellßow, Wolfram; Schinke-Nendza, Aiko; Blumberg, Gerald; Weber, Christoph; Rasti, Sasan J.; Schegner, Peter; Uhlemeyer, Björn; Zdrallek, Markus; Spanel, Udo; Dickert, Jörg: ZellNetz2050 – Structure, Planning and Operation of a Cellular Energy System in 2050. In: ETG Congress 2021, Vol 2021 (2021).
  • Schinke-Nendza, Aiko; Blumberg, Gerald; Weber, Christoph: A Novel Design for Electricity Markets based on the Cellular Approach. In: 17th international conference on the European Energy Market (2020). doi: 10.1109/EEM49802.2020.9221982Details
  • Blumberg, Gerald; Weber, Christoph; Schinke-Nendza, Aiko: Sustainable Electricity Market Design – Challenges, Existing Contributions and a Novel Approach - Podcast for the International Association for Energy Economics, Economics, International Association Of Energy (Ed.), 2020.
  • Uhlemeyer, Björn; Jakob, Joshua; Zdrallek, Markus; Baumann, Christoph; Wellßow, Wolfram; Dickert, Jörg; Rasti, Sasan J; Blumberg, Gerald; Schinke-Nendza, Aiko: The Cellular Approach as a Principle in Integrated Energy System Planning and Operation. In: CIRED 2020; Berlin, Vol 2020 (2020). Details
  • Schinke, A.; Hirsch, H.: Impact of Electric Vehicle Charging and Photovoltaic Generation on Distribution System Voltage Volatility. In: IEEE Power & Energy Society General Meeting (PESGM) (2020). doi:10.1109/PESGM40551.2019.8973901
  • Schinke, A.; Erlich, I.: Impact of Distributed Photovoltaic Generation on Power System Dynamics. In: IEEE Power & Energy Society General Meeting (PESGM) (2018). doi:10.1109/PESGM.2018.8586241
  • Schinke, A.; Erlich, I.: Enhanced Voltage and Frequency Stability for Power Systems with High Penetration of Distributed Photovoltaic Generation. In: IFAC-Papers On Line, Vol 51 (2018) No 28, p. 31-36. doi:10.1016/j.ifacol.2018.11.673
  • Schinke, A.; Erlich, I.: Impact of Increasing Renewable Generation on Power System Stability. In: Proceedings of the VDE/IEEE Power and Energy Student Summit (2018).

Talks

  • Schinke-Nendza, Aiko; Blumberg, Gerald; Khalid, Abuzar; Weber, Christoph: Regulatory and Policy Aspects for a Cellular Design of Electricity Markets, 5th International Hybrid Power Systems Workshop, 19.05.2021, Virtual.
  • Blumberg, Gerald; Weber, Christoph; Schinke-Nendza, Aiko: A Novel Design for Electricity Markets based on the Cellular Approach, 17th International Conference on the European Energy Market (EEM), 17.09.2020, Stockholm.
  • Schinke, Aiko; Weber, Christoph: Vorhersage kritischer Netzzustände in Verteilnetzen, 7. Arbeitstreffen der User Group "Strategisches Asset Management in der Energiewirtschaft", 12.12.2019, Leipzig.
  • Schinke, Aiko; Osinski, Paul; Weber, Christoph: Vorhersage kritischer Netzzustände in Verteilnetzen - Ein probabilistischer Ansatz für Netze mit hohen Anteilen erneuerbarer Energien, Workshop der Arbeitsgruppe „OR im Umweltschutz“ der Gesellschaft für Operations Research e.V. (GOR) , 17.05.2019, Karlsruhe. Details
  • Schinke, A.; Erlich, I.: Impact of Distributed Photovoltaic Generation on Power System Dynamics - Panel Session: PV in Grid Friendly Services, IEEE PESGM, 08.08.2018, Portland, OR, USA.

Tutored Theses

  • The Data-Centric Utility - A future corporate set-up for embracing data and AI in the new energy world (Master Thesis Business Administration - Energy and Finance, 2021)
  • Asset Management in Stromnetzen: Einsatz von Classification Trees bei der Instandhaltung von Freileitungen und Masten (Bachelor Thesis Industrial Engineering, 2021)
  • Analyse der Akzeptanz von Photovoltaikanlagen und stationären Batteriespeichern durch private Haushalte in Deutschland (Bachelor Thesis Business Administration, 2020)
  • Analyse der gesellschaftlichen Akzeptanz von Onshore-Windkraft (Bachelor Thesis Business Administration, 2020)
  • Koordination und Abwicklung von Handelstransaktionen in zellularen Energiesystemen mit regionalen und lokalen ISOs (Bachelor Thesis Business Administration, 2020)