Usern_member

Gus Nathan

USERN Advisory Board

Biography/ Background


Gus Nathan is the founding Director of The University of Adelaide’s Centre for Energy Technology. He has led the centre in developing its vision, identifying priorities and devising and implementing a strategic plan. Under his leadership the Centre has identified novel approaches with strong potential to make a breakthrough in the delivery of low-cost, clean energy technologies and has engaged with partners spanning industry, international research institutions and government agencies.


Professor Nathan is an ARC Discovery Outstanding Researcher who specialises in thermal energy engineering in systems supplied by solar, geothermal and the combustion of fossil and bio-fuels, but also works with hydrogen, wind and wave power. His recent work has focussed on novel approaches to integrate and optimise these different energy sources. He has played a leading role in the development of six patented technologies. He was principal leader of the Chief Design Team for the award winning fuel and combustion system for the Sydney Olympic Relay Torch and was co-inventor of the patented combustor that was subsequently also used in the torch and Stadium flame for the Athens Games.  He has also jointly led the development of low NOx “Gyrotherm” burner being commercialised by partner FCT Combustion in rotary cement kilns and in the development of a technology to enhance the capture of ultra-fine particles and mercury in partnership with Indigo Technologies. A current focus is the development of novel hybrid power systems that combine solar energy with combustion or gasification, with one patent pending in this field.


These technology developments are underpinned by the development and application of advanced laser diagnostic methods in complex turbulent reacting flows. In partnership with other leading researchers in the CET, he has worked to establish a leading laser diagnostics facility at Adelaide.  This facility specialises in providing new understanding and data for model development and validation in turbulent systems of relevance to energy systems, notably in turbulent reacting flows with particles including soot and with combined radiation and convective heat transfer.


He has published widely in the above fields, jointly authoring some 100 papers in international journals and 150 in peer reviewed conferences. His publications on technology include 8 patents (filed or granted) and 50 consultant’s reports. He is presently on the editorial board of Prog. Energy Combust. Sci. of Exp. Therm. Fluid Sci., and of J. Combustion and formerly for Proc. Comb. Inst. He has also worked widely with industries including power generation, cement, lime, steel, glass and aluminum and has consulted to organisations including Western Mining Ltd, Adelaide Brighton Ltd, British Steel plc, LKAB, Flinders Power, Queensland Electricity Commission and BHP.  He has lectured both in University Degree courses and to Industrial Combustion Courses and presented seminars and invited lectures nationally and internationally.


Qualifications


Personal Awards:


• Discovery Outstanding Researcher Award (2011-13), The Australian Research Council, which supports his present position.  • Paul Henderson Prize (2006), The Institution of Mechanical Engineers, for best journal paper  • Best Industrial Paper (2003) - For the Joint Meeting of the Australian Symposium on Combustion and 8th Australian Flame Days, Monash University, 8-9 Dec. 2003. • Supervisor of the Year - nominated (2002 & 2003) - University of Adelaide Postgrad. Students Association: Nominated by post-grad. students under his supervision. • Science (Special Recognition) Award (2001) - SA Government SA Great Awards. Awarded for contribution to the Design of the Sydney 2000 Olympic Relay Torch. • South Australian Tall Poppy Award (2000) - Australian Institute of Political Science: Awarded to outstanding young South Australian researchers. • KL Sutherland Memorial Medal (1998) - Australian Academy of Technological Sciences and Engineering: "In recognition of an outstanding development or application of [precessing jet] technology which has contributed to improving the quality of life for the Australian community".  • David Warren Travelling Fellowship (1992) - The Combustion Institute, for presentation of paper in the 1992 International Symposium on Combustion. • South Australian Energy Council Post Graduate Scholarship (1984-88) • Petroleum Refineries Aust. Pty. Ltd. Prize (1983) - Best Honours Design Project / Research Thesis • Wales Australian Mathematics Competition - (1978) Distinction, (1979) - Credit.


Team Awards:



  • Award for Outstanding Achievement in Collaborative R&D (2001): - Business / Higher Education Round Table (B/HERT) and AusIndustry, for Joint Development of the Gyro-Therm Burner (Small Business) Team leader: Nathan 

  • Engineering Excellence Award in the field of Innovation (2000) - Institution of Engineers Australia, SA Division: to Fluid-MEC and FCT for the "Design of the fuel and combustion system for the Olympic Torch". Team Leader: Dr G.J. Nathan


Awards to students supervised by Dr Nathan:


• Honours Best Energy Related Project Student Prize (2007): Awarded to Natassia Hill-Ling and Rachael Slattery, Supervisor: Dr G.J. Nathan • Aust. Inst. Energy (2006) National Prize for best postgraduate student poster in Coal and Combustion Category, Sydney, To: George Szego, Supervisors: Dally and Nathan • Aust. Inst. Energy (2005) Gold medal for best postgraduate student poster in Innovation Category, Adelaide, To: George Szego, Supervisors: Dally and Nathan • Aust. Inst. Energy (2005) Gold medal for best postgraduate student poster in More with Less Category, Adelaide, To: Philip van Eyk, Supervisors: Ashman, Alwahabi and Nathan • Joint Best Postgraduate Conference Paper (2002) - 3rd Aust. Conf. on Laser Diag. in Fluid Mech. & Comb., Brisbane, to Chong Wong: Supervisors: Nathan and Kelso. • Young Engineer of the Year Commendation (2000) -IEAust, SA Division: PhD candidate Jordan Parham.  • Mobile Refining (Australia) PTY. LTD. Honours Student Prize in Mechanical Engineering (2000). To: R. Craig & T. Mc Gorm, Supervisors: Nathan and Mullinger. • Best Postgraduate Conference Paper (1999) - 2nd Aust. Conf. on Laser Diag. in Fluid Mech. & Comb, Melbourne, To: Julie Reppel, Supervisors: Alwahabi, King, Nathan • Australian Academy of Technological Sciences and Engineering Symposium Fellowship (1998). Awarded to PhD candidate Jordan Parham, supervisors:  • International Travelling Scholarship for Undergraduate Projects in Automotive Design (1997): Awarded to Stephen Johnston, Supervisor: Dr G.J. Nathan • Mech Test Level IV Prize Student Prize for commercial potential (1995): Awarded to Ben Bailey and Stephan Gruber, Supervisor: Dr G.J. Nathan


Professor Graham 'Gus' J. Nathan, B.E. (Hons), PhD, CPEng, FIEAust.


 


Publications


List of works for "Nathan, Graham"


Journal article


2016



  1. Chinnici, A.; Arjomandi, M.; Tian, Z.F.; Nathan, G.J.  A novel solar expanding-vortex particle reactor: experimental and numerical investigation of the iso-thermal flow field and particle deposition Solar Energy, 2016; 133:451-464

  2. Dong, X.; Sun, Z.; Gu, D.; Ashman, P.; Alwahabi, Z.; Dally, B.; Nathan, G.  The influence of high flux broadband irradiation on soot concentration and temperature of a sooty flame Combustion and Flame, 2016; 171:103-111

  3. Gu, D.; Sun, Z.; Nathan, G.J.; Medwell, P.R.; Alwahabi, Z.T.; Dally, B.B.  Improvement of precision and accuracy of temperature imaging in sooting flames using two-line atomic fluorescence (TLAF) Combustion and Flame, 2016; 167:481-493

  4. Kaniyal, A.A.; van Eyk, P.J.; Nathan, G.J.  Storage capacity assessment of liquid fuels production by solar gasification in a packed bed reactor using a dynamic process model Applied Energy, 2016; 173(C):578-588

  5. Lim, J.H.; Hu, E.; Nathan, G.J.  Impact of start-up and shut-down losses on the economic benefit of an integrated hybrid solar cavity receiver and combustor Applied Energy, 2016; 164:10-20

  6. Lim, J.H.; Nathan, G.J.; Hu, E.; Dally, B.B.  Analytical assessment of a novel hybrid solar tubular receiver and combustor Applied Energy, 2016; 162:298-307

  7. Van Eyk, P.J.; Ashman, P.J.; Nathan, G.J.  Effect of high-flux solar irradiation on the gasification of coal in a hybrid entrained-flow reactor Energy & Fuels, 2016; 30(6):5138-5147


2015



  1. Chinnici, A.; Arjomandi, M.; Tian, Z.F.; Lu, Z.; Nathan, G.J.  A novel solar expanding-vortex particle reactor: influence of vortex structure on particle residence times and trajectories Solar Energy, 2015; 122:58-75

  2. Dong, X.; Nathan, G.J.; Mahmoud, S.; Ashman, P.J.; Gu, D.; Dally, B.B.  Global characteristics of non-premixed jet flames of hydrogen-hydrocarbon blended fuels Combustion and Flame, 2015; 162(4):1326-1335

  3. Dong, X.; Nathan, G.J.; Sun, Z.; Gu, D.; Ashman, P.J.  Concentric multilayer model of the arc in high intensity discharge lamps for solar simulators with experimental validation Solar Energy, 2015; 122:293-306

  4. Dong, X.; Sun, Z.; Nathan, G.J.; Ashman, P.J.; Gu, D.  Time-resolved spectra of solar simulators employing metal halide and xenon arc lamps Solar Energy, 2015; 115:613-620

  5. Emes, M.J.; Arjomandi, M.; Nathan, G.J.  Effect of heliostat design wind speed on the levelised cost of electricity from concentrating solar thermal power tower plants Solar Energy, 2015; 115:441-451

  6. Gu, D.H.; Sun, Z.W.; Medwell, P.R.; Alwahabi, Z.T.; Dally, B.B.; Nathan, G.J.  Mechanism for laser-induced fluorescence signal generation in a nanoparticle-seeded flow for planar flame thermometry Applied Physics B-Lasers and Optics, 2015; 118(2):209-218

  7. Guo, P.; Van Eyk, P.J.; Saw, W.L.; Ashman, P.J.; Nathan, G.J.; Stechel, E.B.  Performance assessment of Fischer-Tropsch liquid fuels production by solar hybridized dual fluidized bed gasification of lignite Energy & Fuels, 2015; 29(4):2738-2751

  8. Kueh, K.C.Y.; Nathan, G.J.; Saw, W.L.  Storage capacities required for a solar thermal plant to avoid unscheduled reductions in output Solar Energy, 2015; 118:209-221

  9. Mahmoud, S.M.; Nathan, G.J.; Medwell, P.R.; Dally, B.B.; Alwahabi, Z.T.  Simultaneous planar measurements of temperature and soot volume fraction in a turbulent non-premixed jet flame Proceedings of the Combustion Institute, 2015; 35(2):1931-1938

  10. Qi, G.; Nathan, G.J.; Lau, T.C.W.  Velocity and orientation distributions of fibrous particles in the near-field of a turbulent jet Powder Technology, 2015; 276:10-17

  11. Sun, Z.W.; Alwahabi, Z.T.; Gu, D.H.; Mahmoud, S.M.; Nathan, G.J.; Dally, B.B.  Planar laser-induced incandescence of turbulent sooting flames: the influence of beam steering and signal trapping Applied Physics B, 2015; 119(4):731-743

  12. Tian, Z.F.; Nathan, G.J.; Cao, Y.  Numerical modelling of flows in a solar-enhanced vortex gasifier: Part 1, comparison of turbulence models Progress in Computational Fluid Dynamics, 2015; 15(2):114-122

  13. Zhang, Z.H.; Song, Q.; Alwahabi, Z.T.; Yao, Q.; Nathan, G.J.  Temporal release of potassium from pinewood particles during combustion Combustion and Flame, 2015; 162(2):496-505


2014



  1. Chan, Q.N.; Medwell, P.R.; Nathan, G.J.  Algorithm for soot sheet quantification in a piloted turbulent jet non-premixed natural gas flame Experiments in Fluids, 2014; 55(10):1827-1-1827-12

  2. Jafarian, M.; Arjomandi, M.; Nathan, G.J.  Influence of the type of oxygen carriers on the performance of a hybrid solar chemical looping combustion system Energy and Fuels, 2014; 28(5):2914-2924

  3. Jafarian, M.; Arjomandi, M.; Nathan, G.J.  The energetic performance of a novel hybrid solar thermal & chemical looping combustion plant Applied Energy, 2014; 132:74-85

  4. Jafarian, S.; Arjomandi, M.; Nathan, G.  A hybrid solar chemical looping combustion system with a high solar share Applied Energy, 2014; 126:69-77

  5. Lau, T.C.W.; Nathan, G.J.  Influence of Stokes number on the velocity and concentration distributions in particle-laden jets Journal of Fluid Mechanics, 2014; 757(6):432-457

  6. Liu, Y.; Zhang, J.; Deo, R.; Mi, J.; Nathan, G.J.; Zhu, R.  Influence of sidewalls on the centerline small-scale turbulence of a turbulent high-aspect-ratio rectangular jet Experimental Thermal and Fluid Science, 2014; 58:139-144

  7. Medwell, P.R.; Masri, A.R.; Pham, P.X.; Dally, B.B.; Nathan, G.J.  Temperature imaging of turbulent dilute spray flames using two-line atomic fluorescence Experiments in Fluids, 2014; 55(11):1840-1-1840-11

  8. Nathan, G.; Battye, D.; Ashman, P.  Economic evaluation of a novel fuel-saver hybrid combining a solar receiver with a combustor for a solar power tower Applied Energy, 2014; 113:1235-1243

  9. Qi, G.; Nathan, G.J.; Kelso, R.M.  The influence of aspect ratio on distributions of settling velocities and orientations of long fibres Powder Technology, 2014; 257:192-197


2013



  1. Deo, R.; Nathan, G.; Mi, J.  Similarity analysis of the momentum field of a subsonic, plane air jet with varying jet-exit and local Reynolds numbers Physics of Fluids, 2013; 25(1):1-32

  2. Jafarian, S.; Arjomandi, M.; Nathan, G.  A hybrid solar and chemical looping combustion system for solar thermal energy storage Applied Energy, 2013; 103:671-678

  3. Jafarian, S.; Arjomandi, M.; Nathan, G.  The influence of high intensity solar radiation on the temperature and reduction of an oxygen carrier particle in hybrid chemical looping combustion Chemical Engineering Science, 2013; 95:331-342

  4. Kaniyal, A.; van Eyk, P.; Nathan, G.  Dynamic modeling of the coproduction of liquid fuels and electricity from a hybrid solar gasifier with various fuel blends Energy & Fuels, 2013; 27(6):3556-3569

  5. Kaniyal, A.; van Eyk, P.; Nathan, G.; Ashman, P.; Pincus, J.  Polygeneration of liquid fuels and electricity by the atmospheric pressure hybrid solar gasification of coal Energy & Fuels, 2013; 27(6):3538-3555

  6. Medwell, P.; Chan, Q.; Dally, B.; Mahmoud, S.; Alwahabi, Z.; Nathan, G.  Temperature measurements in turbulent non-premixed flames by two-line atomic fluorescence Proceedings of the Combustion Institute, 2013; 34(2):3619-3627

  7. Mueller, M.; Chan, Q.; Qamar, N.; Dally, B.; Pitsch, H.; Alwahabi, Z.; Nathan, G.  Experimental and computational study of soot evolution in a turbulent nonpremixed bluff body ethylene flame Combustion and Flame, 2013; 160(7):1298-1309

  8. Qi, G.; Nathan, G.; Kelso, R.  Aerodynamics of long fibres settling in air at 10 < Re < 100 Powder Technology, 2013; 235:550-555

  9. Xu, M.; Zhang, J.; Mi, J.; Nathan, G.; Kalt, P.  Mean and fluctuating velocity fields of a diamond turbulent jet Chinese Physics B, 2013; 22(3):1-8

  10. Xu, M.; Zhang, J.; Mi, J.; Nathan, G.; Kalt, P.  PIV measurements of turbulent jets issuing from triangular and circular orifice plates Science China Physics, Mechanics & Astronomy, 2013; 56(6):1176-1186


2012



  1. Birzer, C.; Kalt, P.; Nathan, G.  The influences of particle mass loading on mean and instantaneous particle distributions in precessing jet flows International Journal of Multiphase Flow, 2012; 41:13-22

  2. Chan, Q.; Medwell, P.; Dally, B.; Alwahabi, Z.; Nathan, G.  New seeding methodology for gas concentration measurements Applied Spectroscopy, 2012; 66(7):803-809

  3. Hasan, B.; Nathan, G.; Ashman, P.; Craig, R.; Kelso, R.  The effects of temperature and hydrodynamics on the crystallization fouling under cross flow conditions Applied Thermal Engineering, 2012; 36(1):210-218

  4. Hasan, B.; Nathan, G.; Ashman, P.; Craig, R.; Kelso, R.  The use of turbulence generators to mitigate crystallization fouling under cross flow conditions Desalination, 2012; 288:108-117

  5. Kaniyal, A.; Nathan, G.; Pincus, J.  The potential role of data-centres in enabling investment in geothermal energy Applied Energy, 2012; 98(C):458-466

  6. Medwell, P.; Chan, Q.; Dally, B.; Alwahabi, Z.; Mahmoud, S.; Metha, G.; Nathan, G.  Flow seeding with elemental metal species via an optical method Applied Physics B-Lasers and Optics, 2012; 107(3):665-668

  7. Nathan, G.; Kalt, P.; Alwahabi, Z.; Dally, B.; Medwell, P.; Chan, Q.  Recent advances in the measurement of strongly radiating, turbulent reacting flows Progress in Energy and Combustion Science, 2012; 38(1):41-61

  8. Qi, G.; Nathan, G.; Kelso, R.  PTV measurement of drag coefficient of fibrous particles with large aspect ratio Powder Technology, 2012; 229:261-269


2011



  1. Birzer, C.; Kalt, P.; Nathan, G.  A method to provide statistical measures of large-scale instantaneous particle clusters from planar images Experiments in Fluids, 2011; 51(3):641-656

  2. Birzer, C.; Kalt, P.; Nathan, G.  The influences of jet precession on large-scale instantaneous turbulent particle clusters International Journal of Multiphase Flow, 2011; 37(4):394-402

  3. Chan, Q.; Medwell, P.; Alwahabi, Z.; Dally, B.; Nathan, G.  Assessment of interferences to nonlinear two-line atomic fluorescence (NTLAF) in sooty flames Applied Physics B-Lasers and Optics, 2011; 104(1):189-198

  4. Chan, Q.; Medwell, P.; Kalt, P.; Alwahabi, Z.; Dally, B.; Nathan, G.  Simultaneous imaging of temperature and soot volume fraction Proceedings of the Combustion Institute, 2011; 33(1):791-798

  5. Hsu, L.J.; Alwahabi, Z.; Nathan, G.; Li, Y.; Li, Z.; Alden, M.  Sodium and potassium released from burning particles of brown coal and pine wood in a laminar premixed methane flame using quantitative laser-induced breakdown spectroscopyApplied Spectroscopy, 2011; 65(6):684-691

  6. Langman, A.; Nathan, G.  Influence of a combustion-driven oscillation on global mixing in the flame from a refinery flare Experimental Thermal and Fluid Science, 2011; 35(1):199-210

  7. Larsson, I.; Lindmark, E.; Lundstrom, T.; Nathan, G.  Secondary flow in semi-circular ducts Journal of Fluids Engineering-Transactions of the ASME, 2011; 133(10):101206-1-101206-8

  8. Medwell, P.; Nathan, G.; Chan, Q.; Alwahabi, Z.; Dally, B.  The influence on the soot distribution within a laminar flame of radiation at fluxes of relevance to concentrated solar radiation Combustion and Flame, 2011; 158(9):1814-1821

  9. Qamar, N.; Nathan, G.; Alwahabi, Z.; Chan, Q.  Soot sheet dimensions in turbulent nonpremixed flames Combustion and Flame, 2011; 158(12):2458-2464

  10. van Eyk, P.; Ashman, P.; Alwahabi, Z.; Nathan, G.  The release of water-bound and organic sodium from Loy Yang coal during the combustion of single particles in a flat flame Combustion and Flame, 2011; 158(6):1181-1192

  11. van Eyk, P.; Ashman, P.; Nathan, G.  Mechanism and kinetics of sodium release from brown coal char particles during combustion Combustion and Flame, 2011; 158(12):2512-2523


2010



  1. Chan, Q.; Medwell, P.; Kalt, P.; Alwahabi, Z.; Dally, B.; Nathan, G.  Solvent effects on two-line atomic fluorescence of indium Applied Optics, 2010; 49(8):1257-1266

  2. Dickinson, R.; Battye, D.; Linton, V.; Ashman, P.; Nathan, G.  Alternative carriers for remote renewable energy sources using existing CNG infrastructure International Journal of Hydrogen Energy, 2010; 35(3):1321-1329

  3. England, G.; Kalt, P.; Nathan, G.; Kelso, R.  The effect of density ratio on the near field of a naturally occurring oscillating jet Experiments in Fluids, 2010; 48(1):69-80

  4. Kartushinsky, A.; Michaelides, E.; Rudi, Y.; Nathan, G.  RANS modeling of a particulate turbulent round jet Chemical Engineering Science, 2010; 65(11):3384-3393

  5. Medwell, P.; Chan, Q.; Kalt, P.; Alwahabi, Z.; Dally, B.; Nathan, G.  Instantaneous temperature imaging of diffusion flames using two-line atomic fluorescence Applied Spectroscopy, 2010; 64(2):173-176

  6. Mi, J.; Kalt, P.; Nathan, G.  On turbulent jets issuing from notched-rectangular and circular orifice plates Flow Turbulence and Combustion, 2010; 84(4):565-582

  7. Mi, J.; Nathan, G.  Statistical properties of turbulent free jets issuing from nine differently-shaped nozzles Flow Turbulence and Combustion, 2010; 84(4):583-606

  8. Saw, W.; Hupa, M.; Nathan, G.; Ashman, P.  Influence of stoichiometry on the release of atomic sodium from a burning black liquor droplet in a flat flame with and without boron Fuel, 2010; 89(9):2608-2616

  9. Saw, W.; Nathan, G.; Ashman, P.; Alwahabi, Z.; Hupa, M.  Simultaneous measurement of the surface temperature and the release of atomic sodium from a burning black liquor droplet Combustion and Flame, 2010; 157(4):769-777

  10. Saw, W.; Nathan, G.; Ashman, P.; Hupa, M.  Influence of droplet size on the release of atomic sodium from a burning black liquor droplet in a flat flame Fuel, 2010; 89(8):1840-1848

  11. Wang, Y.; Nathan, G.; Alwahabi, Z.; King, K.; Ho, J.; Yao, Q.  Effect of a uniform electric field on soot in laminar premixed ethylene/air flames Combustion and Flame, 2010; 157(7):1308-1315


2009



  1. Birzer, C.; Kalt, P.; Nathan, G.  The influences of jet precession on near field particle distributions International Journal of Multiphase Flow, 2009; 35(3):288-296

  2. Foreman, R.; Nathan, G.  Scaling of the gas phase in particle-laden turbulent axisymmetric jets International Journal of Multiphase Flow, 2009; 35(1):96-100

  3. Henriksen, T.; Nathan, G.; Alwahabi, Z.; Qamar, N.; Ring, T.; Eddings, E.  Planar measurements of soot volume fraction and OH in a JP-8 pool fire Combustion and Flame, 2009; 156(7):1480-1492

  4. Medwell, P.; Chan, Q.; Kalt, P.; Alwahabi, Z.; Dally, B.; Nathan, G.  Development of temperature imaging using two-line atomic fluorescence Applied Optics, 2009; 48(6):1237-1248

  5. Mi, J.; Feng, B.; Deo, R.; Nathan, G.  Effect of exit Reynolds number on self-preservation of a plane jet Acta Physica Sinica, 2009; 58(11):7756-7764

  6. Qamar, N.; Alwahabi, Z.; Chan, Q.; Nathan, G.; Roekaerts, D.; King, K.  Soot volume fraction in a piloted turbulent jet non-premixed flame of natural gas Combustion and Flame, 2009; 156(7):1339-1347

  7. Saw, W.; Forssen, M.; Hupa, M.; Nathan, G.; Ashman, P.  The influence of boron on the emission of sodium during black liquor combustion under oxidative conditions Appita Journal, 2009; 62(3):219-225

  8. Saw, W.; Nathan, G.; Ashman, P.; Alwahabi, Z.  Assessment of the release of atomic Na from a burning black liquor droplet using quantitative PLIF Combustion and Flame, 2009; 156(7):1471-1479

  9. Szego, G.; Dally, B.; Nathan, G.  Operational characteristics of a parallel jet MILD combustion burner system Combustion and Flame, 2009; 156(2):429-438

  10. van Eyk, P.; Ashman, P.; Alwahabi, Z.; Nathan, G.  Simultaneous measurements of the release of atomic sodium, particle diameter and particle temperature for a single burning coal particle Proceedings of the Combustion Institute, 2009; 32(Part 2):2099-2106


2008



  1. Deo, R.; Mi, J.; Nathan, G.  The influence of Reynolds number on a plane jet Physics of Fluids, 2008; 20(7):075108-01-075108-16

  2. Henriksen, T.; Ring, T.; Eddings, E.; Nathan, G.  Puffing frequency and soot extinction correlation in JP-8 and heptane pool fires Combustion Science and Technology, 2008; 180(4):699-712

  3. Szego, G.; Dally, B.; Nathan, G.  Scaling of NOx emissions from a laboratory-scale mild combustion furnace Combustion and Flame, 2008; 154(1-2):281-295

  4. van Eyk, P.; Ashman, P.; Alwahabi, Z.; Nathan, G.  Quantitative measurement of atomic sodium in the plume of a single burning coal particle Combustion and Flame, 2008; 155(3):529-537

  5. Wong, C.; Nathan, G.; Kelso, R.  The naturally oscillating flow emerging from a fluidic precessing jet nozzle Journal of Fluid Mechanics, 2008; 606:153-188


2007



  1. Deo, R.; Mi, J.; Nathan, G.  The influence of nozzle aspect ratio on plane jets Experimental Thermal and Fluid Science, 2007; Oct 2006(8):www1-www17

  2. Deo, R.; Mi, J.; Nathan, G.  The influence of nozzle-exit geometric profile on statistical properties of a turbulent plane jet Experimental Thermal and Fluid Science, 2007; 32(2):545-559

  3. Deo, R.; Nathan, G.; Mi, J.  Comparison of turbulent jets issuing from rectangular nozzles with and without sidewalls Experimental Thermal and Fluid Science, 2007; 32(2):596-606

  4. Kalt, P.; Birzer, C.; Nathan, G.  Corrections to facilitate planar imaging of particle concentration in particle-laden flows using Mie scattering, Part 1: Collimated laser sheets Applied Optics, 2007; 46(23):5823-5834

  5. Kalt, P.; Nathan, G.  Corrections to facilitate planar imaging of particle concentration in particle-laden flows using Mie scattering. Part 2: Diverging laser sheets Applied Optics, 2007; 46(29):7227-7236

  6. Langman, A.; Nathan, G.; Mi, J.; Ashman, P.  The influence of geometric nozzle profile on the global properties of a turbulent diffusion flame Proceedings of the Combustion Institute, 2007; 31(1):1599-1607

  7. Mi, J.; Kalt, P.; Nathan, G.  Velocity measurements in a circular jet from an orifice plate with high initial turbulence intensity Dynamics of Continuous Discrete and Impulsive Systems-Series B-Applications & Algorithms, 2007; 14(S8):19-29

  8. Mi, J.; Kalt, P.; Nathan, G.; Wong, C.  PIV measurements of a turbulent jet issuing from round sharp-edged plate Experiments in Fluids, 2007; 42(4):625-637

  9. Mi, J.; Nathan, G.  Segregation in a jet between nozzle and ambient fluids Dynamics of Continuous Discrete and Impulsive Systems-Series B-Applications & Algorithms, 2007; 14:103-110

  10. Riese, M.; Kelso, R.; Nathan, G.; Mullinger, P.  Investigation of a combustion driven oscillation in a refinery flare - Part B: Visualisation of a periodic flow instability in a bifurcating duct following a contraction Experimental Thermal and Fluid Science, 2007; 31(8):1091-1101


2006



  1. Mi, J.; Nathan, G.; Wong, C.  The influence of inlet flow condition on the frequency of self-excited jet precession Journal of Fluids and Structures, 2006; 22(1):129-133

  2. Nathan, G.; Mi, J.; Alwahabi, Z.; Newbold, G.; Nobes, D.  Impacts of a jet's exit flow pattern on mixing and combustion performance Progress in Energy and Combustion Science, 2006; 32(5-6):496-538

  3. Nathan, G.; Mullinger, P.; Bridger, D.; Martin, B.  Investigation of a combustion driven oscillation in a refinery flare. Part A: Full scale assessment Experimental Thermal and Fluid Science, 2006; 30(4):285-295

  4. Stamatova, L.; King, K.; Alwahabi, Z.; Nathan, G.; Stamatov, V.  A Mie scattering investigation of the effect of strain rate on soot formation in precessing jet flames Flow Turbulence and Combustion, 2006; 76(3):279-289


2005



  1. Mi, J.; Deo, R.; Nathan, G.  Characterization of turbulent jets from high-aspect-ratio rectangular nozzles Physics of Fluids, 2005; 17(6):68102-1-68102-4

  2. Mi, J.; Deo, R.; Nathan, G.  Fast-convergent iterative scheme for filtering velocity signals and finding Kolmogorov scales Physical Review E. (Statistical, Nonlinear, and Soft Matter Physics), 2005; 71(6):066304-1-066304-5

  3. Mi, J.; Nathan, G.  Statistical analysis of the velocity field in a mechanical precessing jet flow Physics of Fluids, 2005; 17(1):015102-1-015102-17

  4. Parham, J.; Nathan, G.; Hill, S.; Mullinger, P.  A modified Thring-Newby scaling criterion for confined, rapidly spreading, and unsteady jets Combustion Science and Technology, 2005; 177(8):1421-1447

  5. Qamar, N.; Nathan, G.; Alwahabi, Z.; King, K.  The effect of global mixing on soot volume fraction: measurements in simple jet, precessing jet, and bluff body flames Proceedings of the Combustion Institute, 2005; 30(1):1493-1500


2004



  1. Mi, J.; Nathan, G.  Self-excited jet-precession Strouhal number and its influence on downstream mixing field Journal of Fluids and Structures, 2004; 19(6):851-862

  2. Mi, J.; Zhou, Y.; Nathan, G.  The effect of Reynolds number on the passive scalar field in the turbulent wake of a circular cylinder Flow Turbulence and Combustion, 2004; 72(2-4):311-331

  3. Schneider, G.; Nathan, G.; O'Doherty, T.  Implications on flame stabilization in a precessing jet flame from near field velocity measurements Proceedings of the Institution of Mechanical Engineers Part A-journal of Power and Energy, 2004; 218(8):677-687

  4. Wong, C.; Nathan, G.; O'Doherty, T.  The effect of initial conditions on the exit flow from a fluidic precessing jet nozzle Experiments in Fluids, 2004; 36(1):70-81


2003



  1. Dally, B.; Kelso, R.; Nathan, G.; Denier, J.  14th Australasian Fluid Mechanics Conference - Preface Experimental Thermal and Fluid Science, 2003; 27(5):505-506

  2. Dally, B.; Kelso, R.; Nathan, G.; Denier, J.  Experimental Thermal and Fluid Science, Volume 27, Issue 5, May 2003 Experimental Thermal and Fluid Science, 2003; 27(5):505-676

  3. Lee, S.; Lanspeary, P.; Nathan, G.; Kelso, R.; Mi, J.  Low kinetic-energy loss oscillating-triangular-jet nozzles Experimental Thermal and Fluid Science, 2003; 27(5):553-561

  4. Mi, J.; Nathan, G.  The influence of probe resolution on the measurement of a passive scalar and its derivatives Experiments in Fluids, 2003; 34(6):687-696

  5. Wong, C.; Lanspeary, P.; Nathan, G.; Kelso, R.; O'Doherty, T.  Phase-averaged velocity in a fluidic precessing jet nozzle and in its near external field Experimental Thermal and Fluid Science, 2003; 27(5):515-524


2002



  1. Nathan, G.  The collaboration that developed the flame for the Sydney Olympic Torch B - HERT News, 2002; 14(June):12-13

  2. Newbold, G.; Nathan, G.; Nobes, D.; Turns, S.  The role of large scale mixing and radiation in the scaling of NOx emissions from unconfined flames Journal of the Korean Society of Combustion, 2002; 7(1)

  3. Smith, N.; Nathan, G.; Zhang, D.K.; Nobes, D.  The significance of particle clustering in pulverized coal flames Proceedings of the Combustion Institute, 2002; 29(1):797-804


2001



  1. Mi, J.; Nathan, G.; Luxton, R.  Mixing characteristics of a flapping jet from a self-exciting nozzle Flow Turbulence and Combustion, 2001; 67(1):1-23

  2. Mi, J.; Nathan, G.; Nobes, D.  Mixing characteristics of axisymmetric free jets from a contoured nozzle, an orifice plate and a pipe Journal of Fluids Engineering-Transactions of the ASME, 2001; 123(4):878-883

  3. Mi, J.; Nobes, D.; Nathan, G.  Influence of jet exit conditions on the passive scaler field of an axisymmetric free jet Journal of Fluid Mechanics, 2001; 432:91-125


2000



  1. Mc Iver, D.; Blackburn, H.; Nathan, G.  Spectral element - Fourier methods applied to simulation of turbulent pipe flow The ANZIAM Journal, 2000; 42:C954-C977

  2. Mi, J.; Nathan, G.; Luxton, R.  Centreline mixing characteristics of jets from nine differently shaped nozzles Experiments in Fluids, 2000; 28(1):93-94

  3. Newbold, G.; Nathan, G.; Nobes, D.; Turns, S.  Measurement and prediction of NOx emissions from unconfined propane flames from turbulent-jet, bluff-body, swirl and precessing jet burners Proceedings of the Combustion Institute, 2000; 28(1):481-487

  4. Parham, J.; Nathan, G.; Alwahabi, Z.  The influence of a co-flow on the instantaneous structure of a confined precessing jet flow Album of Visualization, 2000; 17:5-6

  5. Parham, J.; Nathan, G.; Smart, J.; Hill, S.; Jenkins, B.  The relationship between heat flux and NOx emissions in gas-fired rotary kilns Journal of the Institute of Energy, 2000; 73(494):25-34


1999



  1. Mi, J.; Nathan, G.  Effect of small vortex-generators on scalar mixing in the developing region of a turbulent jet International Communications in Heat and Mass Transfer, 1999; 42(21):3919-3926

  2. Newbold, G.; Nathan, G.  The Influence of Changes to Mixing on the Sooting and NOX Emission Characteristics of Unconfined Turbulent Jet Diffusion Flames Developments in Chemical Engineering and Mineral Processing, 1999; 7(3/4):361-374

  3. Parham, J.; Nathan, G.; Smart, J.; Jenkins, B.; Luxton, R.  Control of Heat Flux Profiles from Rotary Kiln Burners by Modification of Mixing Developments in Chemical Engineering and Mineral Processing, 1999; 7(3):333-344

  4. Smart, J.; Nathan, G.; Smith, N.; Newbold, G.; Nobes, D.; Morgan, D.  On the development of a coal fired precessing jet burner IFRF Online Combustion Journal, 1999; 199902

  5. Yousefpour, N.; Reppel, J.A.; Alwahabi, Z.; Nathan, G.; King, K.  The effect of precession on the ignition region in jet flames Developments in Chemical Engineering and Mineral Processing, 1999; 7(3-4):345-359


1998



  1. Mi, J.; Antonia, R.; Nathan, G.; Luxton, R.  Non-gaussian statistics of a passive scalar in turbulent flows Proceedings of the Combustion Institute, 1998; 27(1):986-996

  2. Nathan, G.; Hill, S.; Luxton, R.  An axisymmetric 'fluidic' nozzle to generate jet precession Journal of Fluid Mechanics, 1998; 370:347-380

  3. Schneider, G.; Nathan, G.; Luxton, R.  Phase-averaged velocity contours in a precessing jet flow Album of Visualization, 1998; 15:6

  4. Schneider, G.; Nathan, G.; Luxton, R.  Velocity decay in a precessing jet flow Album of Visualization, 1998; 15:6

  5. Smith, N.; Megalos, N.; Nathan, G.; Zhang, D.; Smart, J.  Precessing jet burners for stable and low NOx pulverised fuel flames - preliminary results from small-scale trials Fuel, 1998; 77(9-10):1013-1016


1997



  1. Newbold, G.; Nathan, G.; Luxton, R.  Large-Scale Dynamics of an Unconfined Precessing Jet Flame Combustion Science and Technology, 1997; 126(1-6):71-95

  2. Schneider, G.; Froud, N.; Syred, N.; Nathan, G.; Luxton, R.  Velocity measurements in a precessing jet flow using a three dimensional LDA system Experiments in Fluids, 1997; 23(2):89-98

  3. Schneider, G.; Hooper, J.; Musgrove, A.; Nathan, G.; Luxton, R.  Velocity and Reynolds stresses in a precessing jet flow Experiments in Fluids, 1997; 22(6):489-495

  4. Schneider, G.; Nathan, G.; Luxton, R.  Instantaneous image in a precessing jet flow Album of Visualization, 1997; 14:38634

  5. Schneider, G.; Nathan, G.; Luxton, R.  Structures in a precessing jet flow Album of Visualization, 1997; 14:38571

  6. Schneider, G.; Nathan, G.; Luxton, R.  Vortical structures in a precessing jet flow Album of Visualization, 1997; 14:38571


1996



  1. Nathan, G.; Turns, S.; Bandaru, R.  The effect of fuel jet precession on the global properties and emissions of free turbulent jet flames Combustion Science and Technology, 1996; 112:211-230


1992



  1. Nathan, G.; Luxton, R.; Smart, J.  Reduced NOₓ emissions and enhanced large scale turbulence from a precessing jet burner Symposium (International) on Combustion, 1992; 24(1):1399-1405


Book (edited)


2005



  1. Alwahabi, Z.; Dally, B.; Kalt, P.; Nathan, G.; Wong, C.  Proceedings of the 4th Australian Conference on Laser Diagnostics in Fluid Mechanics and Combustion

  2. Kalt, P.; Nathan, G.; Dally, B.  Proceedings of the 5th Asia-Pacific Conference on Combustion: ASPACC’05, the University of Adelaide, Adelaide, Australia, 17-20 July, 2005


Patent


2008



  1. Kelso, R.; Lanspeary, P.; Nathan, G.; Cutler, P.; Parham, J.; Mohd, B.; Hill, S.  Fluid mixing device

  2. Luxton, R.; Nathan, G.; Mi, J.  Oscillating Jets


2007



  1. Kelso, R.; Lanspeary, P.; Nathan, G.; Parham, J.; Kelly, G.; Cutler, P.; Budrulhisham, G.; Hill, S.  Fluid mixing device


2005



  1. Truce, R.; Wilkins, J.; Nathan, G.; Kelso, R.; Kalt, P.  Improved Particle Interactions in a Fluid Flow


Conference paper


2013



  1. Dong, X.; Ashman, P.; Nathan, G.  Global characteristics of hydrogen-hydrocarbon blended fuels turbulent diffusion flames Proceedings of the Australian Combustion Symposium, Perth, WA, 6-8 November 2013 / Mingming Zhu, Yu Ma, Yun Yu, Hari Vuthaluru, Zhezi Zhang and Dongke Zhang (eds.): pp.267-270

  2. Dong, X.; Ashman, P.; Nathan, G.; Sun, Z.  Optical design of a high flux solar simulator configurable to achieve either a line or a point focus Proceedings of Chemeca 2013 : Challenging Tomorrow, September 29-October 2, 2013, 2013 / pp.1-7

  3. Gu, D.; Sun, Z.; Medwell, P.; Alwahabi, Z.; Nathan, G.  Spectral Assessment of Interferences to Two-line Atomic Fluorescence (TLAF) in Turbulent Sooty Flames Proceedings of the Australian Combustion Symposium, Perth, WA, 6-8 November 2013 / Mingming Zhu, Yu Ma, Yun Yu, Hari Vuthaluru, Zhezi Zhang and Dongke Zhang (eds.): pp.263-266

  4. Guo, P.; Ashman, P.; van Eyk, P.; Nathan, G.  Hybrid solar gasification of biomass in a dual fluidized bed reactor for the polygeneration of liquid fuels and electricity Proceedings of Chemeca 2013, 2013 / article 28954

  5. Jafarian, S.; Arjomandi; Nathan, G.  Modelling the influence of high intensity radiation flux on particle performance in a hybrid solar chemical looping combustion reactor Proceedings of the 50th Annual Conference, Australian Solar Energy Society (Australian Solar Council), Melbourne, December 2012, 2013 / pp.1-11

  6. Lau, T.C.; Nathan, G.J.  New understanding of the influence of Stokes number on particle-laden jets from simultaneous planar measurements of number density and velocity Proceedings of the 4th International Conference on Jets, Wakes and Separated Flows, 2013 / pp.1-12

  7. Mahmoud, S.; Medwell, P.; Dally, B.; Alwahabi, Z.; Nathan, G.  Simultaneous measurements of temperature and soot volume fraction in turbulent diffusion flames Proceedings of the Australian Combustion Symposium, Perth, WA, 6-8 November 2013 / Mingming Zhu, Yu Ma, Yun Yu, Hari Vuthaluru, Zhezi Zhang and Dongke Zhang (eds.): pp.104-107

  8. Sun, Z.; Alwahabi, Z.; Nathan, G.; Dally, B.  Single-shot, time-resolved planar laser-induced incandescence (TR-LII) for soot particle sizing - part I: in a laminar flame Proceedings of the Australian Combustion Symposium, Perth, WA, 6-8 November 2013 / Mingming Zhu, Yu Ma, Yun Yu, Hari Vuthaluru, Zhezi Zhang and Dongke Zhang (eds.): pp.95-99

  9. Sun, Z.; Nathan, G.; Alwahabi, Z.; Dally, B.  Single-shot, time-resolved planar laser-induced incandescence (TR-LII) for soot particle sizing - part II: in a turbulent flame Proceedings of the Australian Combustion Symposium, Perth, WA, 6-8 November 2013 / Mingming Zhu, Yu Ma, Yun Yu, Hari Vuthaluru, Zhezi Zhang and Dongke Zhang (eds.): pp.100-103

  10. van Eyk, P.; Ashman, P.; Nathan, G.  Mathematical modelling of a hybrid solar entrained-flow gasifier Proceedings of the Australian Combustion Symposium, Perth, WA, 6-8 November 2013 / Mingming Zhu, Yu Ma, Yun Yu, Hari Vuthaluru, Zhezi Zhang and Dongke Zhang (eds.): pp.91-94


2012



  1. Cao, Y.; Tian, Z.; Nathan, G.  CFD modelling of the aerodynamics in a solar-enhanced vortex gasifier (SVG) - Part I. Validation case The 9th International Conference on CFD in the Minerals and Process Industries, Melbourne, Australia, 10-12 December, 2012 / C.B. Solnordal, P. Liovic, G.W. Delaney and P.J. Witt (eds.): 5p.

  2. Chen, X.; Tian, Z.; Nathan, G.  Numerical simulation of the flow within a fluidic precessing jet nozzle Proceedings of the 18th Australasian Fluid Mechanics Conference, held in Launceston, 3-7 December, 2012 / P.A. Brandner and B.W. Pearce (eds.): pp.1-4

  3. Dong, X.; Ashman, P.; Nathan, G.  A high-flux solar simulator system for investigating the influence of concentrated solar radiation on turbulent reacting flows Proceedings of the 50th Annual Conference of the Australian Solar Energy Society, held in Melbourne, December 2012: pp.1-14

  4. Qin, J.; Hu, E.; Nathan, G.  A modified thermodynamic model to estimate the performance of geothermal aided power generation plant Advanced Materials Research, 2012; 347-353:2875-2878

  5. Yu, J.; Cao, Y.; Tian, Z.; Xue, Y.; Nathan, G.  CFD modelling of the aerodynamics in a solar-enhanced vortex gasifier (SVG): Part II. A preliminary study of the locations of seal gas inlets The 9th International Conference on CFD in the Minerals and Process Industries, Melbourne, Australia, 10-12 December, 2012 / C.B. Solnordal, P. Liovic, G.W. Delaney and P.J. Witt (eds.): 6p.


2011



  1. Birzer, C.; Kalt, P.; Nathan, G.  The effect of radial injection on the particle distribution of an initially biased turbulent jet Proceedings of the Australian Combustion Symposium 2011: pp.1-4

  2. Birzer, C.; Kalt, P.; Nathan, G.  The effect of swirl injection on the particle distributions of an initially biased turbulent jet Proceedings of the 6th Australian Conference on Laser Diagnostics in Fluid Mechanics and Combustion, 2011: pp.1-4

  3. Chan, Q.; Medwell, P.; Dally, B.; Alwahabi, Z.; Nathan, G.  New seeding methodology for two-line atomic fluorescence Part I: Non-reacting flow Proceedings of the Australian Combustion Symposium 2011: pp.1-4

  4. Chan, Q.; Medwell, P.; Mahmoud, S.; Dally, B.; Alwahabi, Z.; Nathan, G.  New seeding methodology for concentration measurement Proceedings of the 6th Australian Conference on Laser Diagnostics in Fluid Mechanics and Combustion, 2011: pp.1-4

  5. Jafarian, S.; Arjomandi, M.; Nathan, G.; Nasehi, S.  Application of chemical looping combustion for solar thermal energy storage Proceedings of the Australian Combustion Symposium, held at Shoal Bay, NSW, 29 November-1st December, 2011 / E. Kennedy, B. Dlugogorski, B. Moghtaderi and A. Masri (eds.): pp.1-5

  6. Medwell, P.; Chan, Q.; Alwahabi, Z.; Dally, B.; Nathan, G.  Temperature measurement in particle-laden reacting flows Proceedings of the 6th Australian Conference on Laser Diagnostics in Fluid Mechanics and Combustion, 2011: pp.6-13

  7. Medwell, P.; Chan, Q.; Dally, B.; Alwahabi, Z.; Nathan, G.  New seeding methodology for two-line atomic fluorescence Part II: Reacting flows Proceedings of the Australian Combustion Symposium 2011: pp.1-4

  8. Qi, G.; Nathan, G.; Kelso, R.  Aerodynamics of long aspect ratio fibrous particles under settling Proceedings of the ASME/JSME 2011 8th Thermal Engineering Joint Conference, held in Honolulu, Hawaii, 13-17 March, 2011: pp.1-10

  9. van Eyk, P.; Ashman, P.; Nathan, G.; Alwahabi, Z.  Quantitative in-situ measurements of sodium release from combusting South Australian brown coal particles Proceedings of the Australian Combustion Symposium, held at Shoal Bay, NSW, 29 November-1st December, 2011 / E. Kennedy, B. Dlugogorski, B. Moghtaderi and A. Masri (eds.): pp.219-222


2010



  1. Battye, D.; Ashman, P.; Nathan, G.  Economics of geothermal feedwater heating for steam Rankine cycles Proceedings of the 2010 Australian Geothermal Energy Conference, 17-19 November 2010, Adelaide Convention Centre, Adelaide / H. Gurgenci and R. Weber (eds.): pp.253-256

  2. Birzer, C.; Kalt, P.; Nathan, G.  A method to characterise jets using correlations of large-scale features in instantaneous planar images Proceedings of 17th Australasian Fluid Mechanics Conference, 5-9 December, 2010, University of Auckland: 4 p.

  3. Chan, Q.; Medwell, P.; Kalt, P.; Alwahabi, Z.; Dally, B.; Nathan, G.  Evaluation of nonlinear regime two-line atomic fluorescence (NTLAF) in sooty flames Proceedings of the 8th Asia-Pacific Conference on Combustion (ASPACC-10) 2010: pp.843-848

  4. Chan, Q.; Medwell, P.; Kalt, P.; Alwahabi, Z.; Dally, B.; Nathan, G.  Simultaneous imaging of soot concentration and temperature in ethylene diffusion flames Proceedings of the Chemeca 2010 Conference, held in Adelaide, South Australia, 26-29 September 2010

  5. Dickinson, R.; Parham, J.; Nathan, G.  Responding to Peak Electricity Loads Using Renewable Fuel Proceedings of the Chemeca 2010 Conference, 2010

  6. Hsu, L.J.; Alwahabi, Z.; King, K.; Ashman, P.; Nathan, G.; Li, Y.; Li, Z.; Alden, M.  Quantitative Concentrations of Sodium and Potassium Released from Brown Coal and Pine Wood in a Laminar Premixed Flame Using Libs Proceedings of the Chemeca 2010 Conference, 2010

  7. Hsu, L.J.; Alwahabi, Z.; Nathan, G.; Li, Z.; Alden, M.  Study of the quantitative release of sodium and potassium from brown coal and pine wood in a laminar pre-mixed methane flame using LIBS Proceedings of 2009 Annual Bulletin of the Australian Institute of High Energetic Materials, 2010 / pp.17-22

  8. Hu, E.; Nathan, G.; Battye, D.; Perignon, G.; Nishimura, A.  An efficient way to generate power from low to medium temperature solar and geothermal resources Proceedings of the Chemeca 2010 Conference, 2010; pp.1-7

  9. Nathan, G.; Kalt, P.; Alwahabi, Z.; Dally, B.; Medwell, P.; Chan, Q.  Recent advances in measurement of turbulent reacting flows in which heat transfer is dominated by radiation Proceedings of 14th International Heat Transfer Conference (vol. 8), held in Washington DC, USA, 8-13 Aug 2010: Paper no. IHTC14-23422 pp. 775-793


2009



  1. Bhuana, D.; Ashman, P.; Nathan, G.  Silica deposition in Enhanced Geothermal Systems Proceedings of the Australian Geothermal Energy Conference 2009.

  2. Birzer, C.; Kalt, P.; Nathan, G.  Toward optimising instantaneous particle clusters in pulverised fuel combustion systems Proceedings of the Australian Combustion Symposium 2009.

  3. Chan, Q.; Medwell, P.; Alwahabi, Z.; Kalt, P.; Dally, B.; Nathan, G.  Effects of solvent on laser-induced fluorescence in the context of two-line atomic fluorescence Proceedings of the Australasian Conference on Optics, Lasers and Spectroscopy and Australian Conference on Optical Fibre Technology in association with the International Workshop on Dissipative Solitons, 2009: pp.44-45

  4. Chan, Q.; Medwell, P.; Kalt, P.; Alwahabi, Z.; Dally, B.; Nathan, G.  Comparison of water and acetone as solvent for two-line atomic fluorescence (TLAF) Proceedings of the Australian Combustion Symposium: : The University of Queensland, 2-4 December / A.Y. Klimenko ... [et al.] (eds.), pp.95-98

  5. Chan, Q.; Medwell, P.; Kalt, P.; Alwahabi, Z.; Dally, B.; Nathan, G.  Temperature imaging of nonpremixed flames using non-linear regime two-line atomic fluorescence (NTLAF) Proceedings of the Australian Combustion Symposium 2009 : The University of Queensland, 2-4 December, 2009 / A.Y. Klimenko ... [et al.](eds.), pp.63-66

  6. Chan, Q.; Medwell, P.; Kalt, P.; Alwahabi, Z.; Dally, B.; Nathan, G.  Temperature measurement using non-linear two-line atomic fluorescence 7th Asia-Pacific Conference on Combustion, National Taiwan University, Taipei, Taiwan 24-27 May 2009.

  7. Hsu, L.J.; Alwahabi, Z.; Nathan, G.; Li, Z.; Alden, M.  Study of released atomic potassium and sodium of Loy Yang coal and pine wood in a laminar pre-mixed methane flame Proceedings of the Australian Combustion Symposium: The University of Queensland, 2-4 December / A.Y. Klimenko ... [et al.] (eds.), pp.211-214

  8. Hsu, L.J.; Alwahabi, Z.; Nathan, G.; Li, Z.; Alden, M.  Study of the quantitative release of sodium and potassium from Loy Yang coal and biomass in a laminar pre-mixed methane flame Proceedings of the 2009 Multilingual Interdisciplinary Conference on Chemical, Mechanical & Materials Engineering, 2009; pp.70-75

  9. Hsu, L.J.; Li, Y.; Alwahabi, Z.; Nathan, G.; Li, Z.; Alden, M.  Quantitive Measurement of Sodium and Potassium Released from Australian Loy Yang Coal and Pine Wood by Using Laser Induced Breakdown Spectroscopy Proceedings of the Australian Conference on Optics, Lasers and Spectoscopy, November 2009;. pp.463-464

  10. Nathan, G.; Alwahabi, Z.; Dally, B.; Medwell, P.; Chan, Q.  Progress and challenges in experimental investigations of realistic turbulent reacting flows Proceedings of the Australian Combustion Symposium 2009.

  11. Saw, W.; Nathan, G.; Ashman, P.; Alwahabi, Z.; Hupa, M.  Surface temperature measurement of a burning black liquor droplet using two-colour optical pyrometry Proceedings of the Australian Combustion Symposium 2009.

  12. Saw, W.; Nathan, G.; Ashman, P.; Hupa, M.  Influence of droplet size on the release of atomic sodium during the combustion of black liquor Proceedings of the Australian Combustion Symposium, 2-4 December, 2009. pp.163-166

  13. van Eyk, P.; Ashman, P.; Alwahabi, Z.; Nathan, G.  Kinetics of sodium release from a single brown coal particle burning in a flat flame Proceedings of the Australian Combustion Symposium 2009.


2008



  1. Birzer, C.; Kalt, P.; Nathan, G.  A methodology for measuring particle clustering from planar images Proceedings of the 11th International conference multiphase flow in industrial plant, 2008

  2. Birzer, C.; Kalt, P.; Nathan, G.  A statistical analysis of a technique to measure large-scale particle cluster Proceedings of the Fifth Australian Conference on Laser Diagnostics in Fluid Mechanics and Combustion, 2008 / P. O'Neill and K. Thiagarajan (eds.)

  3. Dally, B.; Szego, G.; Nathan, G.  High efficiency and low emission using MILD combustion technology Proceedings of the 3rd International Solar Cities Congress 2008: pp.321-330

  4. Medwell, P.; Chan, Q.; Kalt, P.; Alwahabi, Z.; Dally, B.; Nathan, G.  Development of two-line atomic fluorescence (TLAF) technique for temperature measurement Proceeding of the Fifth Australian conference on laser diagnostics in fluid mechanics and combustion, 3-4 December, 2008 / P. O'Neill and K. Thiagarajan (eds.)

  5. Medwell, P.; Chan, Q.; Kalt, P.; Alwahabi, Z.; Dally, B.; Nathan, G.  Non-linear regime two-line atomic fluorescence (NTLAF) for temperature measurement Proceeding of the 5th Australian conference on laser diagnostics in fluid mechanics and combustion, 3-4 December, 2008, pp.119–122

  6. Mi, J.; Kalt, P.; Nathan, G.  Near-field mixing characteristics of turbulent jet issuing from a notched-rectangular orifice plate New Trends in Fluid Mechanics Research: Proceedings of the Fifth International Conference on Fluid Mechanics (Shanghai, 2007) / F. G. Zhuang, J. C. Li (eds.): pp.162-165

  7. Nathan, G.; Parham, J.; Foreman, R.; Hill, S.  Naturally occuring precessing jet flows and their application in combustion Jets, wakes and separated flows : proceedings of the 2nd International Conference on Jets, Wakes and Separated Flows, ICJWSF-2008

  8. Qi, G.; Nathan, G.; Kelso, R.  The influence of number density of fibrous particles on the distributuion of settling velocities and fibre orientations Proceedings of the 3rd International Solar Cities Congress 2008: pp.201-211

  9. Saw, W.; Nathan, G.; Ashman, P.; Alwahabi, Z.  Assessment of the release of high concentration Na using quantitative PLIF Proceeding of the Fifth Australian conference on laser diagnostics in fluid mechanics and combustion, 2008 / P. O'Neill and K. Thiagarajan (eds.)

  10. Wong, C.; Kelso, R.; Nathan, G.  Power spectral density and time autocorrelation analyses of one-component LDA measurements within a fluidic precessing jet nozzle Proceedings of the 5th Australian Conference on Laser Diagnostics in Fluid Mechanics and Combustion, The University of Western Australia, 3-4 December, 2008 / P. O'Neill and K. Thiagarajan (eds.)


2007



  1. Alwahabi, Z.; Reppel, J.A.; Nathan, G.; Chan, Q.; King, K.  Structure of precessing jet methane flames from planar hydroxyl radical distributions Proceedings of the Australian Combustion Symposium / Assaad Masri (ed.):pp.38-41

  2. Deo, R.; Mi, J.; Nathan, G.  Experimental investigations of the effect of Reynolds number on a plane jet 16 AFMC: proceedings of the sixteenth Australasian Fluid Mechanics Conference, 3-7 December, 2007, Gold Coast, Australia / Peter Jacobs ... [et al.] (eds.):pp.www1-www4

  3. Lee, S.; Lanspeary, P.; Nathan, G.  Strouhal number of naturally-oscillating triangular and circular jets Proceedings of the 16th Australasian Fluid Mechanics Conference / P. Jacobs, T. McIntyre, M. Cleary, D. Buttsworth, D. Mee, R. Clements, R. Morgan, C. Lemckert (eds.), 3-7 December 2007: pp.447-450.

  4. Qamar, N.; Alwahabi, Z.; Chan, Q.; Nathan, G.; Roekaerts, D.  Measurement of soot volume fraction in TNF Delft flame - UTV - 2/5 - AC Proceedings of the Australian Combustion Symposium 2007 : The University of Sydney December 9-11 2007 / editors Assaad R. Masri [et al.]:42-45

  5. Saw, W.; Hupa, M.; Ashman, P.; Nathan, G.; Forssen, M.; Alwahabi, Z.  Insight into the fate of atomi

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