Section: Overview
Overview
Key publications
Research funding
Supervising & teaching
Career

Key details

Areas of expertise

  • Computational fluid dynamics
  • Fluid Mechanics and Thermodynamics
  • Computational Design and Mechanics
  • Mechanical engineering
  • Biomimicry

Available to supervise research students

Not available for media queries

About Andrew Antiohos

Dr Andrew Antiohos is currently working as a Teaching Focused Academic of Mechanical Engineering within the College of Sport, Health and Engineering. His research interests are in fluid mechanics and thermodynamics, computational fluid dynamics (CFD), computational design and analysis, biomechanics engineering, learning and teaching in STEM courses.

Andrew completed a BEng(Hons) in Mechanical Engineering with first class honours from Victoria University, Melbourne, Australia. He was awarded the top student prize in mechanical engineering for each year of his undergraduate degree. Once graduated, he worked in the industry as a design engineer, with experience in fluid dynamics, hydraulics and computational design and analysis. He was handed an industry award in leadership, creativity and innovation for his role in a major international project. 

He received his PhD from Victoria University in 2015. His PhD research involved the investigation of a passive flow controller to mitigate the deleterious effects of turbulence and vortex-induced vibrations (VIV) through the use of biomimicry.

Qualifications

  • PhD (VicMelb)
  • BEng Hons (VicMelb)

Key publications

Year Citation
2010 Antiohos, A. A., Semercigil, S. E., & Turan, O. F. (101201). LES of a passive control for vortex shedding from bluff bodies: Comparisons with experiments and near wake topology Paper presented at 17th Australasian Fluid Mechanics Conference 2010 (pp. 704-707).
2009 Antiohos, A., Semercigil, E., & Turan, O. (090101). CFD design of a generic controller for vortex-induced resonance (pp. 1-6). Melbourne, Victoria: CSIRO.

Year Citation
2015 Antiohos, A. A., & Thorpe, G. R. (151001). Effect of aspect ratio of a spanwise sinusoidal profile on the control of turbulent flows around bluff bodies. Journal of Wind Engineering and Industrial Aerodynamics, 145 (237-251).

doi: 10.1016/j.jweia.2015.06.011

Research funding for the past 5 years

Funding details for this researcher are currently unavailable.

Supervision of research students at VU

Available to supervise research students

Not available for media queries

Careers

Details of this Researcher's career are currently unavailable.