Thomas Licklederer

M.Sc. Thomas Licklederer

Phone: +49 (89) 289 - 52757
Room: 5414.02.005
thomas.licklederer@tum.de

Education

Bachelor of Science in Renewable Energy Engineering from University of Stuttgart
Master of Science in Energy Engineering from University of Stuttgart with focus on building energetics and efficient energy conversion and use
Master’s thesis at the Institute for Building Energetics, Thermotechnology and Energy Storage on “Modelling and simulation of heterogeneous nucleation in subsonic nozzles”

Research interests

Mathematical Modeling and Optimization
District heating systems with prosumers
Operational control and optimization (central and decentral approaches)
Building energetics

Current research projects

MEMAP - Multi-Energy Management and Aggregation Platform
Oskit - Optimized Sector Coupling in Districts through Intelligent Thermal Prosumer Networks

Publications

Fabian Speer: Planning, Dimensioning, and Economic Assessment of Bidirectional Thermal Networks with Prosumers. Technical University of Munich, 2023, more…
Sarah Schmidt: Formal stability analysis of a PID-based control system for bidirectional heat transfer stations – Research Internship. Technical University of Munich, 2023, more…
Lorenz Lukas: Inbetriebnahme und Charakterisierung einer prototypischen bidirektionalen Wärmeübergabestation – Bachelor Thesis. Technical University of Munich, 2022, more…
Licklederer, Thomas; Mayer, Jan; Bytschkow, Denis; Ahuir, Virginia; Birkeneder, Daniel; Capone, Alexandre; Dagn, Magdalena; Holsten, Elena; Irlbeck, Maximilian; Kramer, Michael; Malinowsky, Detlef; Miedl, Nicole; Nebel, Ralf; Oji, Ardalan; Reiser, Claudius; Schumacher, Lea; Täubrich, Patrick; Wieland, Christoph; Agudelo Sanabria, Saitel Daniela; Beißwenger, Lino; Bröcker, Stephan-Arved; Burger, Johannes; Elizarov, Ilya; Freiesleben, Timo; Heidemann, Lena; Kainz, Jonas; Krüger, Adrian; Thut, Andreas; Duchon, Markus; Hamacher, Thomas .: Abschlussbericht „Multi-Energie Management und Aggregationsplattform (MEMAP)“ der TU München – Schlussbericht zum Forschungsprojekt „Aggregationsplattform zur gebäudeübergreifenden Optimierung der Energieeffizienz - Modellierung, Optimierung und Simulation Energiesysteme“ der Technischen Universität München. Bundesministerium für Wirtschaft und Klimaschutz (BMWK.IIC6), Technische Universität München, 2022, more…
Zinsmeister, Daniel; Licklederer, Thomas; Christange, Franz; Tzscheutschler, Peter; Perić, Vedran S.: A comparison of prosumer system configurations in district heating networks. Energy Reports 7, 2021, 430-439 more…
Elizarov, I; Licklederer, T: ProsNet – a Modelica library for prosumer-based heat networks: description and validation. Journal of Physics: Conference Series 2042 (1), 2021, 012031 more…
Licklederer, Thomas; Zinsmeister, Daniel; Elizarov, Ilya; Perić, Vedran; Tzscheutschler, Peter: Characteristics and Challenges in Prosumer-Dominated Thermal Networks. Journal of Physics: Conference Series 2042 (1), 2021, 012039 more…
Licklederer, Thomas; Hamacher, Thomas; Kramer, Michael; Perić, Vedran S.: Thermohydraulic model of Smart Thermal Grids with bidirectional power flow between prosumers. Energy 230, 2021, 120825 more…
Ilya Elizarov: Analysis, Modelling, and Control Strategy Development for Prosumer-based Heat Networks – Master Thesis. Technical University of Munich, 2020, more…
Bytschkow, Denis; Capone, Alexandre; Mayer, Jan; Kramer, Michael; Licklederer, Thomas: An OPC UA-based Energy Management Platform for Multi-Energy Prosumers in Districts. 2019 IEEE PES Innovative Smart Grid Technologies Europe (ISGT-Europe), IEEE, 2019 more…
Heidemann, Lena; Bytschkow, Denis; Capone, Alexandre; Licklederer, Thomas; Kramer, Michael: Sector Coupling with Optimization: A comparison between single buildings and combined quarters. Abstracts from the 8th DACH+ Conference on Energy Informatics, 2019, 29-33 more…