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Role:
Department staff:
Research staff:
- aerodynamics
- Aeroelasticity
- Computational Fluid Dynamics
- Turbulent Flow Modelling and Simulation
- Fluid-structure interaction
- Wind Turbines
- Thermofluids
Teaching staff:
- Qualifications:CEng, MIMechE, PhD, MEng, BEng (Hons)
- Position:Lecturer in Thermofluids
- Department:School of Engineering
- Telephone:+44117 965 6261
- Email:Shine.WinNaung@uwe.ac.uk
About me
Dr Shine Win Naung joined the School of Engineering at the University of the West of England as Lecturer in Thermofluids in 2023.
His research focuses on Renewable and Sustainable Energy Technologies, wind and solar thermal energy in particular, and he has published a number of research papers in the areas of Wind Turbines and Turbomachinery, Aerodynamics and Aeroelasticity, Thermofluids, Computational Fluid Dynamics, and Finite Element Analysis. He has developed novel and high-fidelity computational methods for the aerodynamic and aeromechanical analysis of wind turbines to analyse the complex flow physis associated with fluid-structure interactions. Additionally, he has worked on the structural analysis and optimisation of wind turbines and also conducted feasibility studies for the development of wind power projects in Myanmar.
Dr Shine Win Naung received his First Class Honours degree in Mechanical Engineering from Manchester Metropolitan University in the UK in 2013 and Masters degree in Modern Mechanical Engineering from Waseda University in Japan in 2016. He obtained his PhD in Mechanical Engineering from Northumbria University in 2021. He is a Chartered Engineer (CEng) and a member of the Institution of Mechanical Engineers (MIMechE).
A full list of my publications can be found on my Google Scholar profile at: https://scholar.google.com/citations?user=c9zEsIoAAAAJ&hl=en
Area of expertise
My areas of expertise include:
- Development of Novel Computational Methods for the Aerodynamic and Aeroelasticity Analysis of Offshore Wind Turbines and Turbomachinery (funded by EPSRC)
- Enhancement of Renewable and Sustainable Energy Technologies for Heat and Power Production (funded by the EU)
- Computational Fluid Dynamics
- Finite Element Analysis
- Fluid-Structure Interaction
- Aerodynamics and Aeroelasticity
- Thermofluids and Heat Transfer Analysis