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Dr Colin Copeland – ‘Additive manufacturing for radial turbomachinery’
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Authors: Dr Colin Copeland
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Publication date:
September 2018
Summary
Dr Colin Copeland is a Reader in the Department of Mechanical Engineering with a background in turbocharging and boosting for downsized engines. Colin was a Lecturer in Thermodynamics at the University of Bristol in 2011/12 and a Post doctorate researcher at Imperial College London between 2005 and 2011. His PhD thesis focused on the study of pulsating flow in a double-entry turbocharger turbine. He has recently been awarded two 'Best Paper' prizes from the American Society of Mechanical Engineers for his work on double-entry turbocharger turbines.
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Research: Conference
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Outline
- 01 Prof John Oakey – ‘Advanced materials for future gas turbine applications’
- 02 Dr Colin Copeland – ‘Additive manufacturing for radial turbomachinery’
- 03 Simon Jones – ‘Gas turbine components using AM: our experience, the opportunities and next steps’
- 04 Stuart Hawksworth – ‘The High Hydrogen Project: Safety of combined cycle gas turbine systems operating on high hydrogen fuels’
- 05 Dr Karen Finney – ‘Gas -FACTS: Future Advanced Capture Technology Systems – a project summary’
- 06 Dr Mario Ditaranto – ‘Combustion in gas turbine power cycles with carbon capture’
- 07 Prof Rob Bastiaans – ‘Ammonia as a GT fuel: combustion research at TU Eindhoven’
- 08 Dr-Ing Peter Griebel – ‘Hydrogen in gas turbine combustion systems: challenges and opportunities’
- 09 Dr Dave Abbott – ‘Changing fuel gas composition: combustion challenges for gas turbine operators’
- 10 Prof Aimee Morgans – ‘Combustion instability: prediction challenges for fuel – flexible systems’
- 11 Prof Khawar Syed – ‘Axially-staged combustion for high operability, high fuel flexibility, high efficiency and low emissions’
- 12 Philip Sharman, IFRF – ‘Introduction and IFRF Overview’
- 13 TOTeM 45 – Programme
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Download PDFCopeland, D. C. (2018) Dr Colin Copeland – ‘Additive manufacturing for radial turbomachinery’.