Daniel Kucevic, M.Sc.
- Tel.: +49 (89) 289 - 26982
- Raum: 2906.03.004
- daniel.kucevic@tum.de
Biographie
- Studium der Elektro- und Informationstechnik an der Technischen Universität München – Kernbereich Power Engineering
- Masterarbeit: Kapazitätserhöhung eines städtischen Mittelspannungsnetzes durch Vermaschung - In Kooperation mit der "Stadtwerke München GmbH"
- Bachelorarbeit: Erstellung einer EEX-optimierten Betriebsstrategie für ein virtuelles Kraftwerk
- Werkstudent bei "MTU Aero Engines AG"
Forschungsinteressen
- Netzintegration stationärer Energiespeichersysteme
- Platzierung und Dimensionierung stationärer Batteriespeicher in Verteilnetzen
- Potential von V2G in Verteilnetzen
- Techno-ökonomische Optimierung von Energiespeichersystemen
Projekt
Teamzugehörigkeit
Lehre
Wintersemester 2020/21
Publikationen
2020
- Techno Environmental Analysis of Battery Systems in Stationary Applications. Neue Verbraucher und elektrische Flexibilitäten , 2020 mehr…
- Speicher in der Verteilnetzplanung. Neue Verbraucher und elektrische Flexibilitäten , 2020 mehr…
- Modeling Framework for Simulating Energy Storage Systems in Grid Applications. Hertie School 2020 – Open Energy Modelling Workshop 2020 mehr…
- Standard battery energy storage system profiles: Analysis of various applications for stationary energy storage systems using a holistic simulation framework. Journal of Energy Storage 28, 2020, 101077 mehr…
- Modellierung und Simulation von stationären Batteriespeichern. BVES Fachforum Batteriespeicher, 2020 mehr…
2019
- Modeling framework for Simulating Energy Storage Systems in Grid Applications. Jahrestreffen Forschungsnetzwerk Energiesystemanalyse 2019 mehr…
- Development of Reference Storage Profiles for Electrical Grid Applications. NEIS Konferenz 2019 2019 mehr…
- Open Battery Models for Electrical Grid Applications. Batterieforum Deutschland 2019, 2019 mehr…
- Battery modeling requirements for stationary storage systems. Open Energy Modelling Workshop, 2019 mehr…
- Open Battery Models for Electrical Grid Applications. Batterieforum Deutschland 2019, 2019 mehr…
- A Techno-Economic Analysis of Vehicle-to-Building: Battery Degradation and Efficiency Analysis in the Context of Coordinated Electric Vehicle Charging. ees Europe 2019, 2019 mehr…
- A Techno-Economic Analysis of Vehicle-to-Building: Battery Degradation and Efficiency Analysis in the Context of Coordinated Electric Vehicle Charging. Energies, 2019 mehr…
2018
- Lithium-Ion Battery Storage Design for Buffering Fast Charging Stations for Battery Electric Vehicles and Electric Buses. NEIS Conference 2018 - Conference on Sustainable Energy Supply and Energy Storage Systems, 2018 mehr…
- Lithium-Ion Battery Storage Design for Buffering Fast Charging Stations for Battery Electric Vehicles and Electric Buses. NEIS Conference 2018 , 2018Conference on Sustainable Energy Supply and Energy Storage Systems mehr…
- Battery Requirements for the Electrification of Urban Public Transport. 7. Conference on Future Automotive Technology: Focus Electromobility 2018 mehr…
- Battery Requirements for the Electrification of Urban Public Transport. Bayern Innovativ GmbH, 2018, mehr…
- Bewertung der energetischen Performance von stationären Batteriespeichersystemen. DESIGN&ELEKTRONIK 25 2018, 2018 mehr…
- Electric mobility - a new driving force for stationary storage systems. The Smarter E - Intersolar 2018, 2018 mehr…
- Electric mobility - a new driving force for stationary storage systems. The Smarter E - Intersolar 2018, 2018 mehr…
2017
- SimSES: Software for techno-economic Simulation of Stationary Energy Storage Systems. MSE Colloquium 2017 2017Garching mehr…
- SimSES: Software for techno-economic Simulation of Stationary Energy Storage Systems. MSE Colloquium 2017 2017 mehr…
- Lithium-Ion Battery Storage for the Grid—A Review of Stationary Battery Storage System Design Tailored for Applications in Modern Power Grids. Energies 10 (12), 2017 mehr…
- SimSES: Software for techno-economic Simulation of Stationary Energy Storage Systems. International ETG Congress , 2017, 442–447 mehr…
- SimSES: Software for techno-economic Simulation of Stationary Energy Storage Systems. International ETG Congress 2017Bonn mehr…
- SimSES: Software for techno-economic Simulation of Stationary Energy Storage Systems. International ETG Congress , 2017Bonn mehr…