Staff Profile

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Dr. Lee Ted Sian

Lecturer, Mechanical Engineering
Ph.D. in Mech. Eng. (Monash University Malaysia)
B.Eng. (Hons) in Mech. Eng. (Monash University Malaysia)

Faculty of Engineering, Computing and Science

Office No:+60 82 260 998
Fax No:+60 82 260 813
Room No: E317, Building E, FECS
Email: tslee@swinburne.edu.my
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Biography

Dr. Lee Ted Sian received her B.Eng. (Hons) degree in Mechanical Engineering from Monash University Malaysia in 2016. She was a Technology Research Engineer at Daikin Research & Development Malaysia Sdn. Bhd. before she returned to Monash University Malaysia in 2019 to pursue her doctoral studies.

In May 2023, she was conferred a Ph.D. in Mechanical Engineering with the thesis entitled “Piezoelectric on Fractals Induced Flow Dynamic: Turbulence Management”. She then worked as a Sessional Academic at Swinburne University of Technology Sarawak for one semester, before joining Swinburne Sarawak as a Lecturer in the Faculty of Engineering, Computing, and Science in January 2024.

Her research interests include fluid-structure interaction, insert-induced turbulence, flow control, piezoelectric energy harvesting from fluid flow, machine learning, as well as sustainability engineering. 

Research Interests

  • Fluid-structure interaction
  • Turbulence control
  • Piezoelectric energy harvesting
  • Machine Learning
  • Sustainability engineering

Professional Membership

  • Graduate Engineer, Board of Engineers Malaysia (BEM)

PhD/Master by Research Opportunities

Potential research higher degree candidates are welcome to enquire about postgraduate opportunities in the areas listed above. Please e-mail tslee@swinburne.edu.my for more information.

Publications

  • Lee T.S., Ooi E.H., Chang W.S., and Foo J.J., “Realisation of Fractal Grid-Induced Turbulence Strength with PTFV: Effects of Grid Geometry,” Flow, Turbulence and Combustion, Vol. 111, pp. 1079–1099 (2023). https://doi.org/10.1007/s10494-023-00480-9
  • Lee T.S., Ooi E.H., Chang W.S., and Foo J.J., “Fractal grid-induced turbulence strength characterization via piezoelectric thin-film flapping velocimetry,” Scientific Reports, Vol. 11, p. 23322 (2021). https://doi.org/10.1038/s41598-021-02680-7