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Dr Chandan Bose
Applications accepted all year round
Competition Funded PhD Project (Students Worldwide)
Birmingham
United Kingdom
Aerospace Engineering
Dynamics
Fluid Mechanics
Mechanical Engineering
Mechanics
About the Project
Would you like to continue your academic journey with a PhD in Aerospace Engineering? A 3.5-year fully funded PhD studentship for UK home students and EU students with settled status is available in the group of Dr. Chandan Bose within the Aerospace Engineering division, School of Metallurgy and Materials, College of Engineering and Physical Sciences at the University of Birmingham. We invite applications from highly motivated individuals who are interested in fluid dynamics, especially in fluid-structure interaction problems.
Project Details:
Your PhD research will contribute to the numerical investigation of aerodynamic characteristics and fluid-structure interaction behaviour of flexible flapping wings, especially when subjected to gust. In this research project, we aim to unravel the gust mitigation capabilities of flexible flapping wings, having potential applications in morphing wing aircraft for future flight and micro-aerial vehicles for environmental monitoring. Your PhD research will delve into the development of a robust computational framework to tackle the complexity of simulating coupled dynamics of highly flexible wings. The project will encompass numerical simulations, collaborative experimental investigations with other leading researchers in the field, and advanced data analysis to unravel the underlying principles governing bio-inspired fluid-structure interaction.
Requirements:
The ideal candidate should have a first-class undergraduate or master's degree (or equivalent) in Mechanical Engineering, Aerospace Engineering, Mathematics, Physics, Computer Science, or a related discipline at the time of taking up the position, ideally commencing in September 2024. You would be highly motivated, and able to work independently, as well as collaborate with others with effective written and oral communication skills.
The ideal candidate should be familiar with computational fluid dynamics principles, partial differential equations, specifically the Navier-Stokes equation and solid mechanics equations, pre- and post-processing tools (for geometry preparation, meshing, etc.). Prior experience with programming (C++/Python) and working with open-source CFD codes, such as OpenFOAM, will be advantageous.
If successful, you will join a dynamic team of highly engaged, enthusiastic, and productive researchers. You will become a key member of the Bio-Inspired Fluid-Structure Interaction Laboratory and will be supervised by Dr. Chandan Bose (Aerospace Engineering, School of Metallurgy & Materials, College of Engineering and Physical Sciences).
How to apply: The application will be made through the university’s online application system (https://sits.bham.ac.uk/lpages/EPS024.htm). Please provide a cover letter summarizing your research interests and suitability for the position, the contacts of two referees, and a curriculum vitae. It is recommended to contact Dr. Chandan Bose ([Email Address Removed]) with your CV before you apply.
Funding notes:
A 3.5-year fully funded PhD studentship for UK home students and EU students with settled status is available in the group of Dr Chandan Bose within the Aerospace Engineering division, School of Metallurgy and Materials at the University of Birmingham, with a stipend of £18,622 per year.
References
1. Bose, C., Gupta, S., & Sarkar, S. (2021). Dynamic interlinking between near-and far-field wakes behind a pitching–heaving airfoil. Journal of Fluid Mechanics, 911, A31.
2. Shah, C. L., Majumdar, D., Bose, C., & Sarkar, S. (2022). Chordwise flexible aft-tail suppresses jet-switching by reinstating wake periodicity in a flapping foil. Journal of Fluid Mechanics, 946, A12.
3. Shah, C. L., Majumdar, D., Bose, C., & Sarkar, S. (2024). Controlling the chaotic wake of a flapping foil by tuning its chordwise flexibility. arXiv preprint arXiv:2403.17932.
2. Shah, C. L., Majumdar, D., Bose, C., & Sarkar, S. (2022). Chordwise flexible aft-tail suppresses jet-switching by reinstating wake periodicity in a flapping foil. Journal of Fluid Mechanics, 946, A12.
3. Shah, C. L., Majumdar, D., Bose, C., & Sarkar, S. (2024). Controlling the chaotic wake of a flapping foil by tuning its chordwise flexibility. arXiv preprint arXiv:2403.17932.
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Career overview
Dr Chandan Bose is an Assistant Professor of Aerospace Engineering at the School of Metallurgy and Materials, University of Birmingham, having joined the institution in August 2023. He previously served as a senior postdoctoral research associate at the Vortex Interaction Laboratory, University of Edinburgh, where he contributed to the ERC project “Dandidrone,” focusing on fluid-structure interaction dynamics related to dandelion seed propulsion for microdrone development. Additionally, he was an adjunct lecturer at the School of Engineering, University of Edinburgh. Earlier in his career, Dr Bose completed a postdoctoral fellowship at the University of Liege, Belgium, supported by the Wallonie Bruxelles International Excellence Postdoctoral Fellowship and FNRS Postdoctoral Fellowship, where he investigated nonlinear aeroelasticity. Dr Bose''s academic background includes earning both his Master’s and PhD degrees in Applied Mechanics from the Indian Institute of Technology Madras, India, in 2019. His doctoral research centred on the dynamical analysis of unsteady flow phenomena around flapping wings, employing high-fidelity numerical simulations and wind tunnel experiments. His contributions to doctoral research were recognised with several accolades, including the Institute Research Award and the V. Ramamurthy Best Thesis Award from IIT Madras, as well as the Indian National Academy of Engineering Innovative Project Award. He began his educational journey with a Bachelor’s degree in Civil Engineering from Jadavpur University, India, where he graduated as the university gold medalist.
Research interests
Dr Chandan Bose''s research focuses on a variety of complex multi-physics problems, particularly in the areas of unsteady aerodynamics, nonlinear aeroelasticity, and bio-inspired fluid-structure interactions. His work includes investigating coupled nonlinear interactions and the dynamics of fluid-structure interactions, with applications in microdrone development and flapping wing aerodynamics. Dr Bose''s research interests also encompass vortex dynamics, computational fluid dynamics, flow-induced vibration, and data-driven reduced-order modelling. He is looking to supervise PhD projects in unsteady aerodynamics, aeroelasticity, fluid-structure interactions, and bio-inspired engineering, among other topics.
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