Master's thesis: Stakeholder analysis on the topic of bidirectional charging
Analysis of the flexibility potential of electromobility for a greenhouse gas-neutral energy system
Development of innovative charging strategies taking into account EnWG 14a
Analysis of the effects of EnWG 14a on cost-optimized charging
Development of a bidirectional voltage-dependent optimization model for electric vehicles
Development of an bidirectional optimization model for the charging management of electric vehicles
Automation of a Evaluation and analysis of measurement data from a field test with electric vehicles
Analysis of the effects of different energy procurement models and different topologies on the use of bidirectional charging
Development of an optimisation model for the charging management of electric vehicles in neighbourhoods
Development of a charging strategy and implementation of this in an energy management system
Creation of an overall concept for charging electric vehicles from decentralised and centralised renewable energy sources
Integration of different energy generation models for the simulation of charging strategies based on renewable generation
Research and comparison of different approaches to battery ageing through bidirectional charging
Development of different pricing models for the control of charging processes of electric vehicles
Bachelor's or student research project Evaluation and research of different V2x approaches
Conceptual design and implementation of a partially automated load flow calculation for Avacon's low-voltage grids to evaluate the integration of charging points
Determination of possible future charging technology scenarios for an area-wide charging infrastructure of battery electric heavy duty vehicles
Creation of a simulation environment in Powerfactory controlled by Python for the simulation of different electromobility scenarios and different grid scenarios
Mobility through wind energy - Further use of wind turbines as a peer-to-peer solution for an electromobility fleet
Potential analysis of the supply of an electric vehicle fleet from local renewable energies
Master Thesis public Charging Infrastructure
Realisation of a Multi Breakout Box for monitoring and manipulation of charging processes
Creation and control of a laboratory setup for the validation of charging algorithms
Project Work: Creation of a Charging Concept for all members of the TU Brunswick
Conceptual design, development and testing of generation-oriented charging algorithms
Eickelmann, J., Ebbert, L., Engel, B.: Vertical stakeholder analysis of charging an electric car within the EV charging journey from domestic charging to company charging with various energy-economic and technical framework conditions,
7th E-Mobility Power System Integration Symposium (EMOB 2023), Copenhagen, Denmark, 25. September 2023, S. 112-119. DOI: 10.1049/icp.2023.2818
Ebbert, L., Di-Modica, G., Engel, B.: Field test of a battery electric logistics fleet: results from a field test and comparison of different charging strategies,
7th E-Mobility Power System Integration Symposium (EMOB 2023), Copenhagen, Denmark, 25. September 2023, S. 9-15. DOI: 10.1049/icp.2023.2679
Di-Modica, G., Ebbert, L., Kösjan, H., Müller, N., Engel, B.: Phase-Precise Control of Electric Vehicles to Reduce Voltage Unbalance in Low-Voltage Grids,
ETG-Fb. 170: ETG Kongress 2023, ETG-Kongress 2023 - Die Energiewende beschleunigen, Kassel, Frankfurt: VDE-Verlag, 25.-26. Mai 2023, S. 121-128. ISBN 978-3-8007-6108-1
Ebbert, L., Di-Modica, G., Wussow, J., Engel, B.: Comparing different price models and their impact on the charging times of battery electric vehicles,
6th E-Mobility Power System Integration Symposium (EMOB 2022), Den Haag, 10. Oktober 2022. DOI: 10.1049/icp.2022.2723
Di-Modica, G., Dietrich, T., Ebbert, L., Effenberger, R., Meins, J., Schillingmann, H., Wussow, J., Engel, B., Henke, M.: LISA4CL – Development and Grid Integration of an Inductive Charging System for City Logistics,
NEIS 2021 - Conference on Sustainable Energy Supply and Energy Storage Systems, NEIS 2021 - Conference on Sustainable Energy Supply and Energy Storage Systems, Hamburg digital, 13.-14. September 2021, S. 180-185. ISBN 978-3-8007-5651-3
