Dr Justin Leontini
- Faculty of Science, Engineering & Technology
- School of Engineering
- Department of Mechanical Engineering and Product Design Engineering
- ATC831 Hawthorn campus
- ORCID profile
Dr Justin Leontini’s research spans fundamental fluid-structure interactions, planetary core flows, ship hydrodynamics, flow stability and the transition to turbulence.
Recently, Dr Leontini has been building a project investigating the gas transport mechanisms in specialty ventilation machines in neonatal ICU wards. All of this research is focused around understanding the fundamental physics of flow phenomena that have relevance to engineering or natural problems.
Prior to joining Swinburne in 2013, Dr Leontini was an Australian Postdoctoral Fellow at Monash University, spent time working at the Centre for Maths and Information Science at CSIRO, and at l'Institut de Recherche sur les Phénomènes Hors Equilibre (Dynamic Systems Research Institute) in Marseille, France.
Computational Fluid Dynamics; Fluid Mechanics; Fluid-Structure Interaction; Flow Stability and Transition
PhD candidate and honours supervision
Higher degrees by research
Accredited to supervise Masters & Doctoral students as Principal Coordinating Supervisor.
PhD topics and outlines
Fundamental fluid mechanics of high-frequency ventilation: High-frequency ventilation (HFV) is an artificial ventilation stragegy used in ICU for patients at risk of lung damage. It consists of fast small "breaths", the volume of each being far less than the dead space of the airway, meaning bulk transport of gases cannot occur. The exact gas transport mechanisms are far from understood. The PhD will build computational models to elucidate this process.
Simulation of flow-induced vibrations: Beams in flow can undergo vibration due to a number of fluid-elastic phenomena. This vibration can lead to catastrophic failure, or be used in energy harvesting technologies. The PhD will focus on the simulation of these coupled phenomena, in an effort to understand the link between the geometry of the body, the flow structures and vortices produced, and the subsequent motion of the body.
Fields of Research
- Fluidisation And Fluid Mechanics - 091504
- Computational Fluid Dynamics - 091501
- 2011, National, Australian Postdoctoral Fellowship, Australian Research Council
Also published as: Leontini, Justin; Leontini, J.; Leontini, J. S.; Leontini, Justin S.
This publication listing is provided by Swinburne Research Bank. If you are the owner of this profile, contact us to update.
Recent research grants awarded
- 2017: Flow Measurement Facility for Large-Scale Industrial Aerodynamics *; ARC Linkage Infrastructure and Equipment Scheme
- 2016: Oscillatory flows in complex geometries (200,000 CPU hours on theNational Computational Infrastructure (NCI) machine and 100,000 CPU hours on the Victorian Life Sciences Computational Infrastructure (VLSCI) machine. This equates to around $12,000 of in-kind funding) *; The National Computational Merit Allocation Scheme (NCMAS)
- 2015: Flow-induced vibration of slender structures and its control *; ARC Discovery Projects Scheme
- 2015: Investigation of the Production of Noise during Flow-induced Vibration *; Visiting Researcher Scheme
- 2014: Towards an Australian capability in arrays of ocean wave-power machines *; Emerging Renewables Program
* Chief Investigator
There are no media items to display