PhD Studentship: Digital-Twin Technology to Accelerate Development of Electric Propulsion Systems
University of Nottingham
United Kingdom
Published 2 days ago
Propulsion
Permanent
Closing Date
Monday 16 June 2025
Reference
ENG268
Digital-Twin Technology to Accelerate Development of Electric Propulsion Systems
This exciting opportunity is based within the Power Electronics, Machine and Control Research Institute at Faculty of Engineering which conducts cutting edge research using the Digital Twin Technology to accelerate electric propulsion system development.
Applications are invited for the above research studentship to join the Power Electronics, Machines and Drives Research Group at the University of Nottingham. The PEMC group has undergone a significant period of growth and now has over 150 members, with 18 academics (including 7 full professors) and approximately 120 PhD students and post-doctoral research fellows. The group has excellent facilities for experimental work including approximately 2500m 2 of research space and a construction and testing capability up to 5MW
Vision
This project aims to leverage the electric propulsion hardware developed in the EU-funded €40M NEWBORN - "NExt generation high poWer fuel cells for airBORNe applications" project (https://newborn-project.eu/) and develop a real-time Multiphysics Digital Twin for such a system accelerating future electric propulsion system development.
Motivation
The transition to net-zero aviation has emerged as a critical objective in the global effort to mitigate climate change, with the aviation sector currently accounting for approximately 2-3% of global CO₂ emissions. As traditional jet engines approach the limits of their efficiency improvements, electric propulsion has gained significant attention as a transformative solution for reducing greenhouse gas emissions in air transportation. Electric propulsion systems-ranging from hybrid-electric to fully electric architectures-offer the potential for substantial environmental benefits, including lower emissions, reduced noise, and improved energy efficiency. This PhD research is to develop a digital-twin toolset to accelerate net-zero aviation progress.
Aim
Tasks of this PhD include
We are looking for enthusiastic, self-motivated applicants with first-class degree in electrical engineering, Aerospace Engineering or Computer Science with good electrical engineering knowledge.
Funding support
We are offering home fees and UKRI minimum stipend.
Further information
Please contact Tao Yang ezzty@exmail.nottingham.ac.uk for further information
Closing date
16 June 2025
Monday 16 June 2025
Reference
ENG268
Digital-Twin Technology to Accelerate Development of Electric Propulsion Systems
This exciting opportunity is based within the Power Electronics, Machine and Control Research Institute at Faculty of Engineering which conducts cutting edge research using the Digital Twin Technology to accelerate electric propulsion system development.
Applications are invited for the above research studentship to join the Power Electronics, Machines and Drives Research Group at the University of Nottingham. The PEMC group has undergone a significant period of growth and now has over 150 members, with 18 academics (including 7 full professors) and approximately 120 PhD students and post-doctoral research fellows. The group has excellent facilities for experimental work including approximately 2500m 2 of research space and a construction and testing capability up to 5MW
Vision
This project aims to leverage the electric propulsion hardware developed in the EU-funded €40M NEWBORN - "NExt generation high poWer fuel cells for airBORNe applications" project (https://newborn-project.eu/) and develop a real-time Multiphysics Digital Twin for such a system accelerating future electric propulsion system development.
Motivation
The transition to net-zero aviation has emerged as a critical objective in the global effort to mitigate climate change, with the aviation sector currently accounting for approximately 2-3% of global CO₂ emissions. As traditional jet engines approach the limits of their efficiency improvements, electric propulsion has gained significant attention as a transformative solution for reducing greenhouse gas emissions in air transportation. Electric propulsion systems-ranging from hybrid-electric to fully electric architectures-offer the potential for substantial environmental benefits, including lower emissions, reduced noise, and improved energy efficiency. This PhD research is to develop a digital-twin toolset to accelerate net-zero aviation progress.
Aim
Tasks of this PhD include
- Real-time digital twin technology review to understand this technology and its recent development for electrical engineering application.
- Real-time simulation platform skills development including Typhoon and SpeedGoat.
- Development of real-time digital twin (physical or Artificial Intelligent based) of electric propulsion system including propulsion motors, power converters, fuel cell and batteries etc within the real-time simulation platform.
- Training the development digital-twin using real-time data from hardware available
- Electrical power level studies with developed digital twin to identify visible solutions for distribution electric propulsion.
We are looking for enthusiastic, self-motivated applicants with first-class degree in electrical engineering, Aerospace Engineering or Computer Science with good electrical engineering knowledge.
Funding support
We are offering home fees and UKRI minimum stipend.
Further information
Please contact Tao Yang ezzty@exmail.nottingham.ac.uk for further information
Closing date
16 June 2025