REFERENCES
- Becker , H.A. , Hottel , H.C. , and Williams , G.C. ( 1963 ) Mixing and flow in ducted turbulent jets . Proc. Combust. Instit. , 9 , 7 – 19 .
- Becker , H.A. , Hottel , H.C. , and Williams , G.C. ( 1967 ) The nozzle-fluid concentration field of the round, turbulent, free jet . J. Fluid Mech. , 30 , 2 , 285 – 303 .
- Curtet , R. ( 1958 ) Confined jets and recirculation with cold air . Combust. Flame , 2 , 383 – 411 . [CROSSREF]
- Dahm , W.J.A. and Dimotakis , P.E. ( 1990 ) Mixing at large Schmidt number in the self-similar far field of turbulent jets . J. Fluid Mech. , 217 , 299 – 330 .
- Ellis , J. ( 2000 ) An Initial View on Methodologies for Emission Baselines: Cement Case Study . OECD Information Paper, Annex I Expert Group, Paris, http://www.oecd.org/dataoecd/17/12/2390789.pdf (accessed November 2004) .
- Hill , S.J. , Nathan , G.J. , and Luxton , R.E. ( 1992 ) Precessing and Axial Flows Following a Sudden Expansion in an Axisymmetric Nozzle . Eleventh Australasian Fluid Mechanics Conference , University of Tasmania , Hobart , Australia , 14–18 Dec. 1113 – 1116 .
- Jenkins , B.G. ( 1998 ) Modeling—It's plastic, mathematic, stochastic, elastic and fantastic . Dev. Chem. Eng. Min. Proc. , 7 , 3 – 4 .
- Karasso , P.S. and Mungal , M.G. ( 1996 ) Scalar mixing and reaction in plane liquid shear layers . J. Fluid Mech. , 323 , 23 – 63 .
- Karasso , P.S. and Mungal , M.G. (1997) Mixing and reaction in curved liquid shear layers. J. Fluid Mech. , 334, 381–409. [CROSSREF]
- Kiu , S. , Leong , R. , and Chen , Y.S. ( 2002 ) Validation of Physical and Mathematical Modelling Criteria for Advanced GyroTherm Burners . Internal Report, Department of Mechanical Engineering , University of Adelaide .
- Luxton , R.E. , Nathan , G.J. , and Luminis Pty. Ltd. ( 1991 ) Controlling the Motion of a Fluid Jet . U.S. Letters patent 5,060,867 .
- Manias , C.G. and Nathan , G.J. ( 1993 ) The precessing jet gas burner—a low NOx burner providing process efficiency and product quality improvements . World Cement , 24 , 3 , 4 – 11 . [CSA]
- Manias , C.G. and Nathan , G.J. ( 1994 ) Low NOx clinker production . World Cement , 25 , 5 , 54 – 56 . [CSA]
- Mi , J. and Nathan , G.J. ( 2003 ) The effect of probe resolution on the measurement of a passive scalar and its derivatives . Exp. Fluids , 34 , 686 – 696 . [CROSSREF]
- Mi , J. , Nobes , D.S. , and Nathan , G.J. ( 2001 ) Influence of jet exit conditions on the passive scalar field of an axisymmetric free jet . J. Fluid. Mech. , 432 , 91 – 125 .
- Miller , P.L. and Dimotakis , P.E. ( 1991 ) Reynolds number dependence of scalar fluctuations in a high Schmidt number turbulent jet . Phys. Fluids A , 3 , 5 , 1156 – 1163 . [CROSSREF]
- Moles , F.D. , Watson , D. , and Lain , P.B. ( 1972 ) The Aerodynamics of the Rotary Cement Kiln . Fourth Symposium on Flames and Industry , Imperial College , London , pp. 2 – 10 .
- Mullinger , P.J. ( 1999 ) The relevance of predictive techniques to industrial combustion and heat transfer problems . Dev. Chem. Eng. Min. Proc. , 7 , 3–4 , 225 – 244 .
- Nathan , G.J. and Dally , B.B. ( 2003 ) Challenges and Progress in the Modeling of Heat Transfer and NOx Emissions from Rotary Kiln Flames Involving Unsteady Flows . Third International Conference on CFD in the Minerals and Process Industries , CSIRO , Melbourne , Australia , 10–12 Dec.
- Nathan , G.J. and Manias , C.G. ( 1995 ) The Role of Process and Flame Interaction in Reducing NOx Emissions. Second International Conference on Combustion and Emissions Control , The Institute of Energy , London , pp. 309 – 318 .
- Nathan , G.J. Turns , S.R. , and Bandaru , R.V. ( 1996 ) The influence of jet precession on NOx emissions and radiation from turbulent flames . Combust. Sci. Technol. , 112 , 211 – 230 .
- Nathan , G.J. , Hill , S.J. , and Luxton , R.E. ( 1998 ) An axisymmetric ‘fluidic’ nozzle to generate jet precession . J. Fluid Mech. , 380 , 347 – 380 . [CROSSREF]
- Newbold , G.J.R. ( 1997 ) Mixing and Combustion in Precessing Jet Flows . Ph.D. Thesis, Department of Mechanical Engineering , The University of Adelaide , Australia .
- Newbold , G.J.R. , Nathan , G.J. , and Luxton , R.E. (1997) Large-scale dynamics of an unconfined precessing jet flame. Combust. Sci. Technol. , 126, 1–6, 53.
- Newbold , G.J.R. , Nathan , G.J. , Nobes , D.S. , and Turns , S.R. ( 2000 ) Measurement and prediction of NOx emissions from unconfined propane flames from turbulent-jet, bluff-body, swirl and precessing jet burners . Proc. Combust. Instit. , 28 , 481 – 487 .
- Papanicolaou , P.N. and List , E.J. ( 1988 ) Investigations of round vertical turbulent buoyant jets . J. Fluid Mech. , 195 , 341 – 391 .
- Parham , J.J. ( 2000 ) Control and Optimisation of Mixing and Combustion from a Precessing Jet Nozzle . Ph.D. Thesis, Department of Mechanical Engineering , The University of Adelaide , Australia .
- Parham , J.J. Nathan , G.J. , Smart , J.P. , Hill , S.J. , and Jenkins , B.G. ( 2000a ) The relationship between heat flux and NOx emissions in gas-fired rotary kilns . J. Inst. Energy , 73 , 494 , 25 – 34 . [CSA]
- Parham , J.J. , Nathan , G.J. , and Alwahabi , Z.T. ( 2000b ) The influence of a coflow on the instantaneous structure of a confined precessing jet flow . The Album of Visualization , 17 , The Visualization Society of Japan . [CSA]
- Parham , J.J. , Nathan , G.J. , and Alwahabi , Z.T. ( 2001 ) Quantification of Mixing Characteristics for the Optimisation of Combustion in Rotary Kilns . Fourteenth Australasian Fluid Mechanics Conference , University of Adelaide , Adelaide , Australia , 10–14 Dec.
- Qamar , N. , Nathan , G.J. , Alwahabi , Z.T. , and King , K.D. ( 2005 ) The effect of global mixing on soot volume fraction: Measurements in simple jet, precessing jet and bluff body flames . Proc. Combust. Inst. , 30 , 1 , 1493 – 1500 . [CSA] [CROSSREF]
- Smith , E. , Nathan , G.J. , and Dally , B.B. ( 2003 ) Assessment of a Simple 2-D Steady State Model of the Flow Field Emerging from the Precessing Jet Nozzle . International Conference on Industrial and Applied Mathematics , Sydney .
- Spalding , B. ( 1962 ) The art of partial modeling . Proc. Combust. Inst. , 9 , 833 . [CSA]
- Thring , M.W. and Newby , M.P. ( 1953 ) Combustion length of enclosed turbulent jet flames . Proc. Combust. Instit. , 4 , 789 – 796 . [CSA]
- Turns , S.R. and Myhr , F.H. ( 1991 ) Oxides of nitrogen emissions from turbulent jet flames: Part I—Fuel effects and flames radiation . Combust. Flame , 87 , 319 – 335 . [CSA] [CROSSREF]
- Videgar , R. ( 1997 ) Gyro-Therm technology solves burner problems . World Cement , Nov . [CSA]
- Wong , C.Y. , Lanspeary , P.V. , Nathan , G.J. , Kelso , R.M. , and O'Doherty , T. ( 2003 ) Phase-averaged velocity in a fludic precessing jet nozzle and in its near external field . J. Exp. Therm. Fluid Sci. , 27 , 5 , 515 – 524 . [CSA] [CROSSREF]