Despite the need for highly qualified experts, multidisciplinary gas turbine conceptual design has not been a common study topic in traditional postgraduate curriculums. Although many courses on specialized topics in gas turbine technology take place, limited attention is given on connecting these individual topics to the overall engine design process. Teaching conceptual design as part of a postgraduate curriculum, or as an intensive short course, may help to address the industrial need for engineers with early qualifications on the topic, i.e., prior to starting their careers in the gas turbine industry. This paper presents details and lessons learned from: (i) the integration of different elements of conceptual design in an existing traditional Master of Science (MSc) course on gas turbine technology through the introduction of group design tasks and (ii) the development of an intensive course on gas turbine multidisciplinary conceptual design as a result of an international cooperation between academia and industry. Within the latter course, the students were grouped in competing teams and were asked to produce their own gas turbine conceptual design proposals within a given set of functional requirements. The main concept behind the development of the new design tasks, and the new intensive course, has been to effectively mimic the dynamics of small conceptual design teams, as often encountered in industry. The results presented are very encouraging in terms of enhancing student learning and developing engineering skills.
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July 2013
Research-Article
Lessons Learned From the Development of Courses on Gas Turbine Multidisciplinary Conceptual Design
Konstantinos G. Kyprianidis,
Konstantinos G. Kyprianidis
Department of Power and Propulsion,
Bedfordshire,
e-mail: k.kyprianidis@cranfield.ac.uk
Cranfield University
,Bedfordshire,
MK43 0AL
UKe-mail: k.kyprianidis@cranfield.ac.uk
Search for other works by this author on:
Tomas Grönstedt,
Tomas Grönstedt
Department of Applied Mechanics,
Division of Fluid Dynamics,
Gothenburg,
e-mail: tomas.gronstedt@chalmers.se
Division of Fluid Dynamics,
Chalmers University of Technology
,Gothenburg,
SE-41296
Sweden
e-mail: tomas.gronstedt@chalmers.se
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João R. Barbosa
João R. Barbosa
Search for other works by this author on:
Konstantinos G. Kyprianidis
Department of Power and Propulsion,
Bedfordshire,
e-mail: k.kyprianidis@cranfield.ac.uk
Cranfield University
,Bedfordshire,
MK43 0AL
UKe-mail: k.kyprianidis@cranfield.ac.uk
Tomas Grönstedt
Department of Applied Mechanics,
Division of Fluid Dynamics,
Gothenburg,
e-mail: tomas.gronstedt@chalmers.se
Division of Fluid Dynamics,
Chalmers University of Technology
,Gothenburg,
SE-41296
Sweden
e-mail: tomas.gronstedt@chalmers.se
João R. Barbosa
Contributed by Education Committee of ASME for publication in the JOURNAL OF ENGINEERING FOR GAS TURBINES AND POWER. Manuscript received January 18, 2013; final manuscript received January 27, 2013; published online June 12, 2013. Editor: David Wisler.
J. Eng. Gas Turbines Power. Jul 2013, 135(7): 072601 (8 pages)
Published Online: June 12, 2013
Article history
Received:
January 18, 2013
Revision Received:
January 27, 2013
Citation
Kyprianidis, K. G., Grönstedt, T., and Barbosa, J. R. (June 12, 2013). "Lessons Learned From the Development of Courses on Gas Turbine Multidisciplinary Conceptual Design." ASME. J. Eng. Gas Turbines Power. July 2013; 135(7): 072601. https://doi.org/10.1115/1.4023616
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