Secure integration of the future e-mobility charging infrastructure with the electricity grid

Mobility Initiative Project

The energy transition leads to a simultaneous and coupled transformation of the mobility and electricity sectors. A major barrier for the uptake of Battery electric Vehicle (BeV) is associated with range anxiety that can be overcome if a mix of home, on-street and fast charging infrastructure are to be rolled out. The uptake of BeV increases the overall electricity demand while fast charging can be particularly challenging to the electricity grid due to power spikes. However, when large pools of batteries in BeVs can be used as a flexible demand or storage, they can also be a solution for the integration of renewable energy sources through improved balancing. For informed decisions of stakeholders and policy makers, it is crucial to understand patterns and trends of the Swiss BeV uptake, the optimal development of private and public charging infrastructure, and the implications for the Swiss energy system. Though studies looked at some of these aspects, there is no comprehensive assessment to what extent BeV may stress or support the Swiss net-zero energy transition and electric grid. This proposal aims to address this research gap and answer the questions:

  1. How does BeV and its electricity demand evolve and what are expected power spikes from charging infrastructure under different charging behaviours?
  2. Are capacities at the different grid levels adequate to cope with the power spikes from home and public charging? 
  3. What strategies can avoid grid bottlenecks?
  4. To what extent can BeVs support the integration of renewables and relieve the grid, during grid to vehicle or vehicle to grid operation? 

To answer these questions, we will enrich and apply two established Swiss energy system and electricity grid modelling frameworks. Through two realistic case studies with industry partners, the proposed research answers not only the stated research questions but also provides insights for exploring new business model on charging infrastructure developments and policy recommendations related to BeV charging in support of the net-zero energy transition.

Prof. Dr. Gabriela Hug
Full Professor at the Department of Information Technology and Electrical Engineering
Deputy head of Dep. of Inform.Technol. Electrical Eng. / Head of Power Systems and High Voltage Lab. / Head of Energy Science Center (ESC)
  • ETL G 26
  • +41 44 633 81 91

Inst. f. El. Energieübertragung
Physikstrasse 3
8092 Zürich
Switzerland

Prof. Dr.  Gabriela Hug
Dr. Turhan Hilmi Demiray
  • SOI C 4
  • +41 44 632 41 85
  • +41 44 632 13 30

FEN-ETH
Sonneggstrasse 28
8006 Zürich
Switzerland

Dr.  Turhan Hilmi Demiray
Prof. Dr. Russell McKenna
Full Professor at the Department of Mechanical and Process Engineering
  • CLT E 13
  • +41 44 632 26 71

Professur für Energiesystemanalyse
Clausiusstrasse 33
8092 Zürich
Switzerland

Prof. Dr.  Russell McKenna

Partner

  • Siemens

Roadmap

01.2024 - 12.2026 (36 months)

Publications

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