Course description
High Temperature Fuel Cells
By the end of the module students should be able to:
- Present and criticise the potential, benefits, boundary conditions, and prospects of employing HT-FC technology today and in future markets;
- Describe the theoretical basis of HT-FC with respect to the electrochemistry and thermodynamics and be able to apply this knowledge to moderately complex problems;
- Be able to choose appropriate technology when faced with a moderately complex engineering design task; Select appropriate materials for HT-FC designs and define crucial properties;
- Communicate information, concepts, problems and solutions to specialists and non-specialists.
Upcoming start dates
Suitability - Who should attend?
In order to be accepted onto the High Temperature Fuel Cells , you must possess:
- A good 2.2 Honours degree (or equivalent) in scientific subject or equivalent professional qualification
International Students
IELTS 6.5 (with no less than 6.0 in any band).
IELTS 6.5 with no less than 6.0 in any band is equivalent to:
- TOEFL: 88 overall with no less than 21 in Reading, 20 in Listening, 22 in Speaking and 21 in Writing
- Pearson Test of English (PTE): PTE Academic 67 with no less than 64 in all four skills
- Cambridge English (exams taken from 2015): Advanced – minimum overall score of 176, with no less than 169 in any component
For more information about admission requirements, please visit the university website.
Outcome / Qualification etc.
What will you receive?
Our Fuel Cell and Hydrogen Technology will allow you to focus on specific areas in order for you to develop your career in the way that you want to. Each course is designed to equip you with the skills and knowledge which will meet the needs of a wide range of learners and organisations.
- 10 UK Credits at Postgraduate level from University of Birmingham
- A Postgraduate Microcredential certificate from University of Birmingham
Certification of UoB academic credit for PG microcredential courses is through production of an official University of Birmingham Microcredential certificate and transcript managed by UoB Student Records.
The skills you will gain
- Present and criticise the potential, benefits, boundary conditions, and prospects of employing HT-FC technology today and in future markets;
- Describe the theoretical basis of HT-FC with respect to the electrochemistry and thermodynamics and be able to apply this knowledge to moderately complex problems;
- Be able to choose appropriate technology when faced with a moderately complex engineering design task; Select appropriate materials for HT-FC designs and define crucial properties;
- Communicate information, concepts, problems and solutions to specialists and non-specialists.
Training Course Content
This module will cover High Temperature Fuel Cell (HT-FC) technologies and their science:
- Introduction in electrochemistry /thermodynamics of HT-FC.
- HT_FC types, materials, designs, fuels, and systems
- HT-FC operation with variable fuel sources.
- HT-FC characterisation and testing.
- Lifetime and degradation issues in HT-FC.
- Applications of HT-FC; Heavy duty vehicles (HDVs) and Combined Heat and Power (CHP) systems.
Course delivery details
Time commitment: 100 hours total commitment
University of Birmingham
The University of Birmingham has been challenging and developing great minds for more than a century. Characterised by a tradition of innovation, research at the University has broken new ground, pushed forward the boundaries of knowledge and made an impact...