March 5, 2014
Applications are invited for a two-year full-time post-doctoral research position in the School of Engineering at the University of South Wales. This high profile project is funded by the European Commission’s Seventh-framework programme which involves 12 other partners from leading Universities and industries.
The project entails development of mathematical models able to predict the heat transfer performance under oxy-coal combustion conditions encountered in pilot, semi-industrial and full scale boilers. The post requires close liaison with consortium partners with regard to their experimental and theoretical outputs which are to be integrated with own models. The post is intended for both EU and international candidates (subject to work permit approval) who demonstrate strong interest and capability in radiation heat transfer modelling in furnaces and boilers or other related applications.
Most coal-fired utility boilers are fired with pulverised coal and the use of this technology for power generation far outweighs that of alternatives. The consortium has identified key issues that need to be addressed to pave the way for full-scale deployment of oxy-coal firing. As most previous work has been undertaken at pilot-scale so that, in addition to medium scale demonstration activities, there is also a need for more fundamental underpinning studies to provide improved understanding of oxy-fuel firing technology before it can be taken reliably even to the large scale demonstration stage. The overall aim is to undertake a systematic and focused series of applied research, development and demonstration activities involving both experimental studies and combustion modelling work to resolve existing technical uncertainties and barriers which inhibit commercial deployment of the technology. Attention will be paid to the generation of design rules and methods which can be employed for scaling up results from pilot and laboratory studies to the full-scale. The data obtained in the experimental tests and from the developed modelling tools will be integrated to produce detailed designs for both a retrofit oxy/coal/RFG system for an existing boiler as well as a novel design for “new build” plant. The programme of work will therefore enable full-scale early demonstration plant to be designed and specified with greater confidence as well as providing improved assessment of the commercial risks and opportunities. Candidates should have a PhD degree, ideally with previous research exposure to radiation heat transfer modelling using either Hottel’s zone method and/or discrete-transfer method. A strong programming skill is a must.
The terms and conditions of the post (including grade and salary) will be those of the University of South Wales (based on former University of Glamorgan terms and conditions).