At the faculty of Electrical Engineering at Eindhoven University of Technology, a PhD-position is available within the E2GO project, a Marie Sklodowska-Curie Actions (MSCA) Doctoral Network-Industrial Doctorates funded by the EU. The position is open for appointment from September 1st or soonest hereafter and includes a 6 month stay at Delta (PL), a 12 month stay at Shell (NL) and 30 months at TU/e.
We are looking for you!You will work on the hardware design and optimization of RDC in battery buffered fast-charging stations. You will investigate, optimize and implement a new coupling configuration for battery buffering that is based on a novel reduced dissipation converter (RDC) to enable cost-reduction of Electric Vehicle fast-charging under different scenarios.
Research Programme Description'E2GO- Cost-reduction of EV fast-charging station to enable large-scale electrification of mobility' is hiring 9 Doctorate Candidates (DCs)' to be funded by the Marie Skłodowska-Curie Actions (MSCA) Doctoral Networks-Industrial Doctorates (DN-ID), 2021, within the European Union's EU Framework Programme for Research and Innovation Europe Horizon under Grant Agreement No. 101072414.
The E2GO consortium contains Eindhoven University of Technology, Delta Electronics (Poland) Ltd., Heliox BV, University of Minho, Efacec Electric Mobility SA, Aalborg University, Silicon Austria Labs GMBH, Infineon Technologies Austria AG, Shell Global Solutions International BV, Kema Lab BV and the University of Innsbruck, which brings together the stakeholders that cover the complete value chain of high-power fast-charging stations for EV creating an in-depth training programme that covers the spectrum from hardware design and electronics, to modelling and control algorithms. The multidisciplinary and intersectoral collaboration provides the unique opportunity to achieve the ambitious goal of E2GO to develop innovations to reduce the cost of fast-charging stations for electric vehicles (EVs) for massive deployment. Hence the DCs involved in this project will not only be highly sought-after individuals due to their gained experience at the interface of industrial and academic collaboration, but additionally they will be highly attractive for the automotive industry as experts in the strongly growing field of fast-charging, a frontier research area that will help to address the infrastructural needs and sustainability goals of the 21st century. This constellation will significantly further their individual career paths in industry and academia.
In total 9 DCs will be employed by the project, 7 of those have already started their journey. Being part of a group of DCs will multiply the immediate impact of the training and experience by sharing not only the newly acquired technical expertise but also the 'soft knowledge' concerning the different ways of thinking between industry and academia. By this, these DCs will gain a high level of employability and become real translational researchers capable of integrating both worlds of academia and industry.
About University and companies hosting this position
- Eindhoven University of Technology (TU/e) is a world-leading research university specializing in engineering science & technology. The Department of Electrical Engineering is responsible for research and education in Electrical Engineering. The discipline covers technologies and electrical phenomena involved in computer engineering, information processing, energy transfer, and telecommunication. The department strives for societal relevance through an emphasis on the fields of smart sustainable systems, the connected world and care & cure. The TU/e is the world's best-performing research university in terms of research cooperation with industry.
- Delta Electronics, founded in 1971, is a global provider of power and thermal management solutions. Its mission statement, "To provide innovative, clean and energy-efficient solutions for a better tomorrow," focuses on addressing key environmental issues such as global climate change. As an energy-saving solutions provider with core competencies in power electronics and automation, Delta's business categories include Power Electronics, Automation, and Infrastructure. In response to the challenge of climate change, Delta will remain committed to the research and development of innovative, energy-saving products, solutions and services that contribute substantially to the sustainable development of mankind.
- Shell Global Solution is an international energy company. Shell is currently expanding their traditional hydrocarbon-based fuel purchase points to provide a network of electric vehicle charging stations. Shell uses advanced technologies and takes an innovative approach to help build a sustainable energy future.
Job description
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Research field: Electrical Engineering, Power Electronics.
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Research Objectives: Design and implementation of the reduced dissipation converter (RDC) to enable cost-reduction of EV fast-charging under different scenarios.
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Research Activities: You will work on the hardware design and optimization of RDC in battery buffered fast-charging stations. You will investigate, optimize and implement a new coupling configuration for battery buffering that is based on a novel reduced dissipation converter (RDC) to enable cost-reduction of Electric Vehicle fast-charging under different scenarios. Expected results are: 1) Optimal hardware design solution with high efficiency, power density and reliability, 2) electromagnetic interference (EMI) filter to meet the EMC standard for the EV and local buffering battery, 3) demonstration of RDC for reduced grid take-off and operability for a number of standardized charging scenarios.
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Employment and Secondment: The selected DC will be enrolled as Ph.D. student at TU/e (NL) (4-year Phd program, of which the last two years will be funded by TU/e). The DC will be employed for 6 months at Delta Electronics in Poland, where he/she will be supervised by dr. Krzysztof Puckzo, the other 42 months will be at the TU/e supervised by dr. Dongsheng Yang, whilst also doing a secondment at Shell for a planned duration of 12 months.