Evatt R. Hawkes, B.Sci. (Hons), B.Eng. (Hons), Ph.D.
Affiliations: | The University of New South Wales, Australia |
Area:
turbulent combustion, direct numerical simulation, large-eddy simulation, solar energyWebsite:
https://research.unsw.edu.au/people/associate-professor-evatt-hawkesGoogle:
""Evatt Hawkes""Bio:
Evatt Hawkes works on computational modelling of reacting flows with applications in combustion and solar energy. He received a B.Eng. and a B.Sci. from the University of Western Australia in 1995, and a PhD from the University of Cambridge in 2001. He worked as a post-doctoral fellow at the Combustion Research Facility, Sandia National Laboratories, from 2002 until joining the University of New South Wales in 2007. At UNSW he is Associate Professor and Australian Research Council Future Fellow, and directs a program of computational energy research.
Cross-listing: Chemistry Tree - Physics Tree
Parents
Sign in to add mentor| R. Stewart Cant | grad student | 1996-2001 | Cambridge |
| Jacqueline H. Chen | post-doc | 2002-2007 | Sandia National Laboratories |
Children
Sign in to add trainee| Mohsen Talei | grad student | 2011 | University of New South Wales |
| Obulesu Chatakonda | grad student | 2012 | University of New South Wales |
| Shahram Karami | grad student | 2011-2016 | School of Photovoltaic and Renewable Energy Engineering |
| Bruno Savard | post-doc | University of New South Wales | |
| Armin Wehrfritz | post-doc | 2017- | |
| Haiou Wang | post-doc | 2014-2018 | The University of New South Wales |
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Publications
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| Driscoll JF, Chen JH, Skiba AW, et al. (2020) Premixed flames subjected to extreme turbulence: Some questions and recent answers Progress in Energy and Combustion Science. 76: 100802 |
| Dalakoti DK, Savard B, Hawkes ER, et al. (2020) Direct numerical simulation of a spatially developing n-dodecane jet flame under Spray A thermochemical conditions: Flame structure and stabilisation mechanism Combustion and Flame. 217: 57-76 |
| Haghiri A, Talei M, Brear MJ, et al. (2020) Flame Annihilation Displacement Speed and Stretch Rate in Turbulent Premixed Flames Flow Turbulence and Combustion. 104: 1-20 |
| Ranadive HD, Wang H, Savard B, et al. (2019) Assessment of artificial fluid properties for high-order accurate large-eddy simulations of shock-free compressible turbulent flows with strong temperature gradients Computers & Fluids. 190: 274-293 |
| Savard B, Hawkes ER, Aditya K, et al. (2019) Regimes of premixed turbulent spontaneous ignition and deflagration under gas-turbine reheat combustion conditions Combustion and Flame. 208: 402-419 |
| Chi T, Zhai G, Kook S, et al. (2019) Application of LED-based thermographic phosphorescent technique to diesel combustion chamber walls in a pre-burn-type optical constant-volume vessel Experiments in Fluids. 60: 34 |
| Ren Z, Kuron M, Zhao X, et al. (2018) Micromixing Models for PDF Simulations of Turbulent Premixed Flames Combustion Science and Technology. 191: 1430-1455 |
| Fattah IMR, Ming C, Chan QN, et al. (2018) Spray and combustion investigation of post injections under low temperature combustion conditions with biodiesel Energy & Fuels. 32: 8727-8742 |
| Haghiri A, Talei M, Brear MJ, et al. (2018) Sound generation by turbulent premixed flames Journal of Fluid Mechanics. 843: 29-52 |
| Su HC, Kook S, Chan QN, et al. (2018) A comparison of high-temperature reaction and soot processes of conventional diesel and methyl decanoate Fuel. 226: 635-643 |