Aerospace, Mechanical and Mechatronics Engineering
Faculty of Engineering and Information Technology
Reference No. 513/0318F
Join a research group of international reputation.
Advance current capabilities to compute the structure and dynamics of flows laden with particles. This is highly relevant for environmental flows, the synthesis of materials, sprays in both reacting applications such as engines and non-reacting applications such as agricultural and pharmaceutical flows.
Full-time fixed term for 2 years subject to satisfactory probation. Remuneration package: $106K-114K p.a. which includes base salary, leave loading and up to 17% employer’s contribution to superannuation.
About the opportunity
We are currently inviting applications for a Postdoctoral Fellowship in Computations of Reacting and Non-Reacting Particle-Laden Flows. The position is funded by the Australian Research Council and will be held in the School of Aerospace, Mechanical and Mechatronic Engineering. The challenge is to correctly simulate the dynamics and evolution of droplets and solid particles in turbulent flows loaded with a dense spray which atomises and reacts while producing solid particles. The atomization process is critical and must be accounted for along with the chemistry involved in the combustion process and subsequent synthesis of particles. The long-term objective is to optimise the synthesis of functional materials using Flame Spray Pyrolysis.
The University values courage and creativity; openness and engagement; inclusion and diversity; and respect and integrity. As such, we see the importance in recruiting talent aligned to these values in the pursuit of research excellence. We are looking for a Postdoctoral Research Associate in Computations of Reacting and Non-Reacting Particle-Laden Flows, who has:
- PhD in Engineering or Science, or a related discipline.
- Excellent proven skills in the fields of numerical combustion, turbulence modelling, spray combustion and/or chemical kinetics development.
- Experience in large eddy simulations, sub-grid scale modelling, development and reduction of chemical kinetic mechanisms would be useful.
- Expert knowledge of computational fluid dynamics and basic knowledge of heat and mass transfer is assumed.
While international candidates may apply, preference would be given to citizens and permanent residents of Australia according to ARC guidelines.
The combustion group at the University of Sydney has an international reputation in the field of turbulent combustion, combustion modelling and advanced laser diagnostics. Specific research issues include the combustion of bio-fuels, turbulence-chemistry interactions in flames ranging from fully premixed to stratified and non-premixed, auto-ignition of both gaseous and liquid fuels, spray atomisation, combustion safety in deflagrations, oxy-combustion and quenching of radicals on solid surfaces. Burners developed by the group are now established as international benchmarks for the development and validation of numerical tools in combustion. Computational codes developed by the group are used by various international research institutions.
Both experimental and numerical projects are conducted in parallel providing a platform for continuous development and validation. The combustion laboratory is one of a handful of laboratories around the world with advanced laser diagnostics capabilities such as high speed PIV and high speed LIF (10kHz) as well as standard PIV, LDV, PDA, Raman, Rayleigh and LIF. Computational capabilities include Large Eddy Simulations (LES), Probability Density Function (PDF) and Multiple Mapping Conditioning (MMC) approaches; as well as more standard RANS based methods.
Since our inception 160 years ago, the University of Sydney has led the research and teaching to improve the world around us. We believe in education for all and that effective leadership makes lives better. These same values are reflected in our approach to diversity and inclusion, and underpin our long-term strategy for growth. We’re Australias first university and have an outstanding global reputation for academic and research excellence. Across 9 campuses, we employ over 7600 academic and non-academic staff who support over 60,000 students.
We are undergoing significant transformative change which brings opportunity for innovation, progressive thinking, breaking with convention, challenging the status quo, and improving the world around us.
For more information about the position, or if you require reasonable adjustment or support filling out this application, please contact Emmen Saeed, Recruitment Partner, on +61 2 8627 1247 or firstname.lastname@example.org .
Specific enquiries can be directed to Professor A.R. Masri at 02-9351 2288, email@example.com Associate Professor Matthew Cleary at 02-9351 2346 or firstname.lastname@example.org School of Aerospace, Mechanical and Mechatronic Engineering, University of Sydney NSW 2006.
If you would like to learn more, please refer to the Candidate Information Pack for the position description and further details
Closing date: 24 April 2018 (11.30pm Sydney time)
The University of Sydney is committed to diversity and social inclusion. Applications from people of culturally and linguistically diverse backgrounds; equity target groups including women, people with disabilities, people who identify as LGBTIQ; and people of Aboriginal and Torres Strait Islander descent, are encouraged.
The University reserves the right not to proceed with any appointment.