Overview
Background
David Gildfind’s research is primarily concerned with experimental hypersonics. His research interests include: expansion tube facility development; scramjet propulsion; planetary entry aerothermodynamics; and magnetohydrodynamic aerobraking.
David graduated as an aerospace engineer from RMIT University in 2001. He worked in industry on various aircraft platforms in Australia and overseas (GKN in Melbourne 2002-2003 on A340/A380; Australian Aerospace in Brisbane 2003-2005 on DHC4 Caribou; and Stork Fokker in The Netherlands 2005-2007 on F35-JSF and Gulfstream G6), and retains a strong interest in aircraft structures. He later completed his PhD and post-doctoral work in hypersonics at the University of Queensland (UQ), where he developed the capability for expansion tubes wind tunnels to simulate reallistic scramjet flight trajectories beyond Mach 10. His research in this area includes optimising free-piston driver operation, expansion tube flow condition development, and test flow characterisation.
David became a lecturer at UQ's School of Mechanical and Mining Engineering in 2014, and teaches into aircraft structures, design, and hypersonics. During this time David has initiated a new research program on Magnetohydrodynamic (MHD) aerobraking, which was awarded an ARC DECRA fellowship (2017-2020) to experimentally evaluate MHD aerobraking technology for a human mission to Mars. This work continues with ARC Discovery Projects "Magnetohydrodynamic Aerobraking for Spacecraft Entry to Earth's Atmosphere" (2023-2025) and "Effect of Magnetic Field Deflection on Magnetohydrodynamic Heat Shield" (2025-2027), both of which David is leading. These projects are focussing on the development of new MHD aerobraking technology for both small and large scale spacecraft, to reduce spacecraft heating, leading to safer, more efficient, and potentially reusable spacecraft.
Availability
- Dr David Gildfind is:
- Available for supervision
- Media expert
Fields of research
Qualifications
- Doctor of Philosophy, The University of Queensland
- Postgraduate Diploma in Higher Education, The University of Queensland
Research interests
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Expansion tube facility development
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Shock tunnel facility development
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Magnetohydrodynamic aerobraking
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Planetary entry aerothermodynamics
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Scramjet propulsion
Research impacts
Expansion tube facility development: expansion tubes are the only hypersonic wind tunnels capable of simulating the final stages of flight for a scramjet powered access-to-space launch vehicle, or of simulating true-flight-velocity aerodynamic flows for Earth return from deep space. Such experiments in a conventional wind tunnel become extraordinarilly difficult for scramjet flight beyond Mach 10 and spacecraft atmospheric entry faster than 7 km/s. Our research into expansion tubes is important because it significantly widens the range of reallistic aerodynamic ground testing which we can perform, paving the way for experimental evaluation of the spacecraft technologies of the future.
Magnetohydrodynamic (MHD) aerobraking: The purpose of MHD aerobraking is to mitigate the immense heat loads during spacecrafct atmospheric entry and to facilitate landing on planets with low density atmospheres. Our team at UQ have conducted the first ground test experiments which have simulated this technology at flight-realistic hypervelocity speeds and with the correct electrodynamic boundary conditions around the body. We have been able to conduct magnetic drag measurements and measure the effect of the magnetic field on the shock layer which forms around the vehicle, and are now investigating how this technology can be harnessed in future spacecraft.
Works
Search Professor David Gildfind’s works on UQ eSpace
2019
Conference Publication
Zeeman effect in radiating magnetohydrodynamic flow
Thompson, O., Gildfind, D. E., Smith, D. R., Kelly, R. and McIntyre, T. J. (2019). Zeeman effect in radiating magnetohydrodynamic flow. Asia Pacific International Symposium on Aerospace Technology (APISAT 2019), Gold Coast, QLD, Australia, 4-6 December 2019.
2019
Conference Publication
Optimising the X3R reflected shock tunnel free-piston driver for long duration test times
Stennett, Samuel, Gildfind, David and Jacobs, Peter A. (2019). Optimising the X3R reflected shock tunnel free-piston driver for long duration test times. 31st International Symposium on Shock Waves, Nagoya, Japan, 9-14 July 2017. Cham, Switzerland: Springer. doi: 10.1007/978-3-319-91017-8_23
2019
Conference Publication
Commissioning of the T6 Stalker Tunnel
Collen, Peter L., Doherty, Luke, McGilvray, Matthew, Naved, Imran, Penty Geraets, Rowland T., Hermann, Tobias A., Morgan, Richard G. and Gildfind, David (2019). Commissioning of the T6 Stalker Tunnel. AIAA Scitech 2019 Forum, San Diego, CA, United States, 7-11 January 2019. Reston, VA, United States: American Institute of Aeronautics and Astronautics. doi: 10.2514/6.2019-1941
2019
Conference Publication
Spectroscopy of high speed expanding argon flows
Kelly, Rory, Gildfind, David E. and McIntyre, Timothy (2019). Spectroscopy of high speed expanding argon flows. AIAA Aviation Forum , Dallas, Texas , 17-21 June, 2019. Reston, Virginia: American Institute of Aeronautics and Astronautics. doi: 10.2514/6.2019-3248
2019
Conference Publication
Design of experiments for expansion tube evaluation of magnetohydrodynamic aerobraking for Earth return from deep space
Lefevre, Alexis, Gildfind, David E., Gollan, Rowan J. and Jacobs, Peter A. (2019). Design of experiments for expansion tube evaluation of magnetohydrodynamic aerobraking for Earth return from deep space. 32nd International Symposium on Shock Waves, Singapore, 14-19 July 2019. Singapore: Research Publishing Services. doi: 10.3850/978-981-11-2730-4_0207-cd
2019
Conference Publication
Stress wave force balance sting design for magnetohydrodynamic drag force measurements in expansion tubes
Smith, Daniel R., Gildfind, David E., McIntyre, Timothy J. and Mee, David J. (2019). Stress wave force balance sting design for magnetohydrodynamic drag force measurements in expansion tubes. Asia Pacific International Symposium on Aerospace Technology (APISAT 2019), Gold Coast, QLD, Australia, 4-6 December 2019.
2019
Conference Publication
Generating high speed earth re-entry test conditions in an expansion tube
James, Christopher, Lewis, Steven, Gildfind, David, Morgan, Richard and McIntyre, Timothy (2019). Generating high speed earth re-entry test conditions in an expansion tube. 8th International Workshop on Radiation of High Temperature Gases, Madrid, Spain, 25-29 March 2019.
2019
Conference Publication
Optimisation and design of a fully instrumented Mach 12 nozzle for the X3 expansion tube
Toniato, Pierpaolo, Gildfind, David, Jacobs, Peter A. and Morgan, Richard G. (2019). Optimisation and design of a fully instrumented Mach 12 nozzle for the X3 expansion tube. 31th International Symposium on Shock Waves, Nagoya, Japan, 9-14 July 2017. Cham, Switzerland: Springer. doi: 10.1007/978-3-319-91017-8_108
2019
Conference Publication
Expansion fan spectroscopy of ionising super orbital flows
Kelly, Rory M., Gildfind, David E. and McIntyre, Timothy J. (2019). Expansion fan spectroscopy of ionising super orbital flows. 32nd International Symposium on Shock Waves, Singapore, 14-19 July 2019. Singapore: Research Publishing Services. doi: 10.3850/978-981-11-2730-4_0318-cd
2019
Conference Publication
Testing a full-scale Hayabusa Model in a large expansion tube
Andrianatos, Andreas, Gildfind, David and Morgan, Richard (2019). Testing a full-scale Hayabusa Model in a large expansion tube. Asia Pacific International Symposium on Aerospace Technology (APISAT 2019), Gold Coast, QLD, Australia, 4-6 December 2019.
2019
Conference Publication
Evaluation of electrically insulating coatings for magnetohydrodynamic aerobraking experimentation
Gildfind, David, Smith, Daniel, Thompson, Owen, Jacobs, Peter, Morgan, Richard, Kelly, Rory and McIntyre, Tim (2019). Evaluation of electrically insulating coatings for magnetohydrodynamic aerobraking experimentation. 32nd International Symposium on Shock Waves (ISSW32), Singapore, 14-19 July 2019. Singapore: Research Publishing Services. doi: 10.3850/978-981-11-2730-4_0014-cd
2019
Conference Publication
Progress with Magnetohydrodynamics Experiments at the University of Queensland
Gildfind, David E., Smith, Daniel R., Lefevre, Alexis, Thompson, Owen, Jacobs, Peter A., Lewis, Steven W., Chia, Yu Shen, Kelly, Rory and McIntyre, Timothy J. (2019). Progress with Magnetohydrodynamics Experiments at the University of Queensland. Asia Pacific International Symposium on Aerospace Technology (APISAT 2019), Gold Coast, QLD, Australia, 4-6 December 2019.
2018
Journal Article
Calculating shock arrival in expansion tubes and shock tunnels using Bayesian changepoint analysis
James, Christopher M., Bourke, Emily J. and Gildfind, David E. (2018). Calculating shock arrival in expansion tubes and shock tunnels using Bayesian changepoint analysis. Experiments in Fluids, 59 (6) 92. doi: 10.1007/s00348-018-2546-8
2018
Journal Article
Implementation of a state-to-state analytical framework for the calculation of expansion tube flow properties
James, C. M., Gildfind, D. E., Lewis, S. W., Morgan, R. G. and Zander, F. (2018). Implementation of a state-to-state analytical framework for the calculation of expansion tube flow properties. Shock Waves, 28 (2), 349-377. doi: 10.1007/s00193-017-0763-3
2018
Conference Publication
Expansion Tube Magnetohydrodynamic Experiments with Argon Test Gas
Gildfind, David E., Smith, Daniel, Lewis, Steven W., Kelly, Rory, James, Christopher M., Wei, Han and McIntyre, Timothy (2018). Expansion Tube Magnetohydrodynamic Experiments with Argon Test Gas. 2018 Flow Control Conference, Atlanta, Georgia, 25-29 June 2018. Reston, Virginia: American Institute of Aeronautics and Astronautics. doi: 10.2514/6.2018-3754
2018
Conference Publication
Performance optimization of X3R: A new reflected shock tunnel mode for the X3 expansion tube
Stennett, Samuel J., Gildfind, David E., Jacobs, Peter A. and Morgan, Richard G. (2018). Performance optimization of X3R: A new reflected shock tunnel mode for the X3 expansion tube. 34th AIAA Aerodynamic Measurement Technology and Ground Testing Conference, 2018, Atlanta, GA United States, 25 - 29 June 2018. Reston, VA United States: American Institute of Aeronautics and Astronautics. doi: 10.2514/6.2018-3563
2018
Conference Publication
Magnetohydrodynamic drag force measurements in an expansion tube
Smith, Daniel R., Gildfind, David E., James, Christopher M., McIntyre, Timothy J. and Wheatley, Vincent (2018). Magnetohydrodynamic drag force measurements in an expansion tube. 9th AIAA Flow Control Conference 2018, Atlanta, GA United States, 25 - 29 June 2018. Reston, VA United States: American Institute of Aeronautics and Astronautics. doi: 10.2514/6.2018-3755
2018
Conference Publication
Flow characterization and modeling of the X2 and X3 expansion tubes
Gildfind, David E., Jacobs, Peter A., Gollan, Rowan J., Toniato, Pierpaolo, McIntyre, Timothy J., Andrianatos, Andreas, James, Christopher M. and Morgan, Richard G. (2018). Flow characterization and modeling of the X2 and X3 expansion tubes. VKI Lecture Series STO-AVT-235 on Flow Characterization and Modeling of Hypersonic Wind Tunnels, Brussels, Belgium, 3-5 December 2018.
2018
Conference Publication
Full free-stream mach 12 scramjet testing in expansion tubes
Toniato, Pierpaolo, Gildfind, David E., Andrianatos, Andreas and Morgan, Richard G. (2018). Full free-stream mach 12 scramjet testing in expansion tubes. 36th AIAA Applied Aerodynamics Conference, 2018, Atlanta, GA United States, 25-29 June 2018. Reston, VA United States: American Institute of Aeronautics and Astronautics. doi: 10.2514/6.2018-3818
2017
Journal Article
Scramjet test flow reconstruction for a large-scale expansion tube, part 1: quasi-one-dimensional modelling
Gildfind, D. E., Jacobs, P. A., Morgan, R. G., Chan, W. Y. K. and Gollan, R. J. (2017). Scramjet test flow reconstruction for a large-scale expansion tube, part 1: quasi-one-dimensional modelling. Shock Waves, 28 (4), 1-21. doi: 10.1007/s00193-017-0785-x
Funding
Current funding
Supervision
Availability
- Dr David Gildfind is:
- Available for supervision
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Available projects
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Magnetohydrodynamic Aerobraking for Spacecraft Entry to Earth's Atmosphere
UQ's Centre for Hypersonics was recently awarded an Australian Research Council Discovery Project grant to study Magnetohydrodynamic Aerobraking for spacecraft atmospheric entry to Earth. A spaceship returning from Mars will undergo unprecedented aerodynamic heating as it enters Earth's atmosphere. Magnetohydroynamic (MHD) aerobraking involves applying a strong magnetic field to the plasma which forms around the spacecraft at these speeds, theoretically protecting it by reducing structural heat loads and enabling less severe flight trajectories. Our research aims to experimentally study this technology for Earth return from deep space, and it is significant because it will evaluate a new mechanism for managing the tremendous heat loads of planetary entry. The expected outcome and benefit will be development of a new technology to reduce spacecraft heating, leading to safer, more efficient, and potentially reusable spacecraft.
There are four PhD topics planned as part of this Discovery Project:
- MHD drag measurement (experimental)
- MHD surface heat flux and shock layer characterisation (experimental)
- Zeeman effect on radiating hypersonic flows (experimental/numerical)
- CFD modelling of MHD flows (numerical)
This project is an international collaboration between Australia and Japan to advance MHD aerobraking technology. The experiments will be performed on UQ's X2 and X3 free-piston driven expansion tubes, as well as Japan Aerospace Exploration Agency's HEK-X facility at Kakuda. This is a great opportunity for the successful student to develop expertise in: spacecraft ground testing using the world's fastest aerodynamic test facilities; state-of-the-art diagnostic and numerical techniques; and to play a role in developing a potentially ground-breaking future spacecraft heat mitigation technology.
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Effect of Magnetic Field Deflection on Magnetohydrodynamic Heat Shield
Four projects are available:
- Magnetic field deflection in hypersonic MHD flow: This project aims to experimentally reproduce and characterise the phenomenon of magnetic field deflection in hypersonic ground test experiments.
- Bow shock structure in high magnetic Reynolds number MHD flow: This project aims to isolate and experimentally measure the effect of magnetic field deflection on the shock stand-off and shock shape for hypersonic flow around a blunt body such as sphere or capsule.
- Trajectory optimisation for atmospheric entry with MHD flow control: This project aims to determine the optimum way to use MHD flow control during atmospheric entry.
- Geometry and magnet optimisation for MHD-assisted spacecraft: This project aims to determine how MHD drag can be maximised by optimising forebody contour and electromagnet configuration.
Supervision history
Current supervision
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Doctor Philosophy
Effect of magnetohydrodynamic aerobraking on convective and radiative heat transfer during atmospheric reentry
Principal Advisor
Other advisors: Emeritus Professor David Mee, Professor Tim McIntyre
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Doctor Philosophy
Optimised use of Magnetohydrodynamic Aerobraking for Planetary Atmospheric Entry
Principal Advisor
Other advisors: Professor Vincent Wheatley, Associate Professor Rowan Gollan
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Doctor Philosophy
Magnetohydrodynamic flow control for atmospheric entry
Principal Advisor
Other advisors: Emeritus Professor David Mee, Professor Tim McIntyre
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Doctor Philosophy
Experimental Investigation of Turbulence Chemistry Interaction in High Enthalpy Flows
Associate Advisor
Other advisors: Professor Anand Veeraragavan, Dr Chris James
Completed supervision
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2023
Doctor Philosophy
Magnetohydrodynamic Aerobraking for Earth Re-entry from Deep Space
Principal Advisor
Other advisors: Professor Tim McIntyre
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2021
Doctor Philosophy
Magnetohydrodynamic drag force experiments in expansion tunnels
Principal Advisor
Other advisors: Professor Vincent Wheatley, Professor Tim McIntyre
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2020
Doctor Philosophy
Development of an Extended Test Time Operating Mode for a Large Reflected Shock Tunnel Facility
Principal Advisor
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2020
Doctor Philosophy
Ground Testing at Superorbital Flight Conditions in a Large Scale Expansion Tube
Principal Advisor
Other advisors: Professor Richard Morgan
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2019
Doctor Philosophy
Free-jet testing of a Mach 12 scramjet in an expansion tube
Principal Advisor
Other advisors: Professor Richard Morgan
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2020
Doctor Philosophy
Spectral Analysis of Atomic Argon Radiation in an Expanding Hypersonic Flow
Associate Advisor
Other advisors: Professor Tim McIntyre
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2018
Doctor Philosophy
Radiation from Simulated Atmospheric Entry into the Gas Giants
Associate Advisor
Other advisors: Professor Tim McIntyre, Professor Richard Morgan
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2016
Doctor Philosophy
SCRAMJET TESTING AT HIGH TOTAL PRESSURE
Associate Advisor
Other advisors: Professor Richard Morgan
Media
Enquiries
Contact Dr David Gildfind directly for media enquiries about:
- Aerospace Engineering
- Expansion tubes
- Experimentation
- Hypersonics
- Reflected Shock Tunnels
- Wind tunnel testing
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