Computational Modelling

Publication list

Smoothed Particle Hydrodynamics

Granular Flow (Discrete Element Method)

Finite Element Method (Fastflo)

Other Subjects

Smoothed Particle Hydrodynamics

• P.W. Cleary and J. Ha, (2003). Three-Dimensional SPH Simulation of Light Metal Components. J. Light Metals, in press.

• J. Ha and P.W. Cleary, (2003). 3-dimensional SPH simulations of high pressure die casting. Proc: Int. Conf. CFD 2, in press.

• P.W. Cleary and J. Ha. Modelling the High Pressure Die Casting Process Using SPH. Material Forum, 25, 1-29, (2001).

• M. Prakash, F. Debroux and P.W. Cleary, . Three-dimensional modelling of dam-break induced flows using smoothed particle hydrodynamics. 14^th Australasian Fluid Mechanics Conference, Adelaide University, 10-14 December 2001, pp. 379-382.

• F. Debroux, M. Prakash and P.W. Cleary, . Three-dimensional modelling of a Tsunami interacting with real topographical coastline using smoothed particle hydrodynamics. 14^th Australasian Fluid Mechanics Conference, Adelaide University, 10-14 December 2001, pp. 311-314.

• P. W. Cleary, J. Ha and Ahuja, V., 
  High pressure die casting simulation using Smoothed Particle Hydrodynamics
  Int J. Cast Metals Res., 12, 335 –355, (2000).

• J. Ha and P. W. Cleary
  Comparison of SPH simulations of high pressure die casting with those of Schmidt and Klein
  Int J. Cast Metals Res., 12, 409 –418, (2000)

• P. W. Cleary, J. Ha and M. L. Sawley, 1999.  
  Modelling industrial fluid flow application using SPH, 
  Proc. IWBL'99, (2001) (in press)

• P. W. Cleary and J. Ha
  Three dimensional modelling of high pressure die casting 
  J. Cast Metals Res., 12, 357 –365, (2000).

• M. L. Sawley, P. W. Cleary, and J. Ha
  Using Smoothed Particle Hydrodynamics for industrial flow simulations 
  EPFL Supercomputing Review,12, 3 –8, (2000).

• J. Ha, Schuhmann, R., P. W. Cleary, Alguine, V. and Nguyen, T.
  Real-time X-ray Imaging and Numerical Simulation of Die Filling in Gravity Die Casting 
  Proc. Modelling of Casting, Welding and Advanced Solidification Processes IX, 151 –158, Shaker Verlag GMBH, 20-25th August, Aachen, Germany, (2000).

• P.W. Cleary, J. Ha, V. Alguine and T. Nguyen
  Casting process modelling
  Applied Mathematical Modelling, Volume: 26, Issue: 2, February, 2002, pp. 171-190.

• P.W. Cleary, M.L. Sawley and J. Ha
  Modelling industrial fluid flow using SPH
  Proc. 5th International Workshop on Bifurcation and Localization in Soils and Rock (IWBL'99), Perth (1999).

• M.L. Sawley, P.W. Cleary and J. Ha
  Modelling of flow in porous media and resin transfer moulding using smoothed particle hydrodynamics
  Proc. 2nd International Conference on CFD in the Minerals and Processing Industries, Melbourne, 473-478 (1999). (Download: PDF)

• P.W. Cleary and J. Ha
  Three dimensional modelling of high pressure die casting
  Proc. 2nd International Conference on CFD in the Minerals and Processing Industries, Melbourne, 437-442 (1999). (Download: PDF)

• J. Ha, P.W. Cleary, V. Alguine and T. Nguyen
  Simulation of die filling in gravity die casting using SPH and MAGMAsoft
  Proc. 2nd International Conference on CFD in the Minerals and Processing Industries, Melbourne, 423-428 (1999). (Download: PDF)

• W. Thorpe, P.W. Cleary, J. Ha, A.N. Stokes, V. Ahuja and M. Jahedi
  Simulation of fluid flow within the die cavity in high pressure die casting using smoothed particle hydrodynamics
  Proc. 20th International Die Casting Congress and Exposition, Cleveland, Paper T99-014 (1999).

• J. Ha and P.W. Cleary
  Comparison of SPH simulations of high pressure die casting with the experiments and VOF simulations of Schmid and Klein
  J. Cast Metals Research, 12, 409 –418, (2000)

• P.W. Cleary, J. Ha and V. Ahuja
  High pressure die casting using smooth particle hydrodynamics
  . (Download: PDF)
   J. Cast Metals Research, 12, 335 –355, (2000).

• P.W. Cleary and J. Ha
  Three dimensional modelling of high pressure die casting
  J. Cast Metals Research, 12, 357-365, (2000).
  
• P.W. Cleary and J.J. Monaghan
  Conduction modelling using smoothed particle hydrodynamics
  Journal of Computational. Physics, 148, 227-264 (1999).

• P.W. Cleary
  Modelling confined multi-material heat and mass flows using SPH
  Applied Mathematical Modelling, 22, 981-993 (1998).

• J. Ha, V. Ahuja and P.W. Cleary
  Comparison of SPH simulation of high pressure die casting with experiment
  Proc. 13th Australasian Fluid Mechanics Conference, Melbourne, 901-904 (1998).

• P.W. Cleary and J. Ha
  Effect of heat transfer and solidification on high pressure die casting
  Proc. 13th Australasian Fluid Mechanics Conference, Melbourne, 679-682 (1998).

• P.W. Cleary and J. Ha
  SPH modelling of isothermal high pressure die casting
  Proc. 13th Australasian Fluid Mechanics Conference, Melbourne, 663-666 (1998).

• P.W. Cleary
  High pressure die casting simulations with SPH: Isothermal single fluid flow
  Proc. Chemeca 97, paper FL3B on CD-ROM, 29th Sep - 1st Oct, Rotorua NZ, (1997).

• P.W. Cleary
  Modelling confined multi-material heat and mass flows using SPH
  Proc. Int. Conf. on Computational Fluid Dynamics in Minerals and Metal Processing and Power Generation, Melbourne, 329-336 (1997).

• P.W. Cleary and J.J. Monaghan
  Boundary interactions and transition to turbulence for standard CFD problems using SPH
  Proc. 6th International Computational Techniques and Applications Conference, Canberra, 157-165 (1993).

Granular Flow (Discrete Element Method)

• D. Morton and P.W. Cleary, . An investigation of the factors affecting the reliability of shear cell measurements of wall-particle friction. Proc: 6th World Congress of Chemical Engineering, 1499

• F. Debroux,and P.W. Cleary, . Characterising the angles of failure and repose of avalanching granular material using the DEM method. Proc: 6th World Congress of Chem. Engineering, 1537

• R. Morrison, P.W. Cleary and W. Valery, . Comparing power and performance trends from DEM and JK modelling. Proc: SAG 2001

• P.W. Cleary, . Recent advances in DEM modelling of tumbling mills. Mineral Engineering,14 (10): 1295-1319 OCT 2001. 

• P.W. Cleary, F. Debroux and D. Morton. Advanced DEM modelling of industrial granular flows. Proc: 6th World Congress of Chemical Engineering, 1601

• P.W. Cleary, R. Morrison and S. Morrell, . Comparison of DEM and experiment for a scale model SAG mill. Int. J. Mineral Processing,  63 (2): 79-114 AUG 2001

• P.W. Cleary, R. Morrison and S. Morrell, . DEM validation for a scale model SAG Mill. Proc: SAG 2001 (to appear)

• P.W. Cleary
  Charge behaviour and power consumption in ball mills:  Sensitivity to mill operating conditions, liner geometry and charge composition 
  to appear:  Int. J. Min. Processing, 11 (11): 1061-1080 NOV 1998

• P.W. Cleary, and M. Sawley
  DEM modelling of industrial granular flows: 3D case studies and the effect of particle shape on hopper discharge 
  Applied Mathematical Modelling, Volume: 26, Issue: 2, February, 2002, pp. 89-111

• P.W. Cleary, and J. Ha
  Flow modelling in casting processes 
  Applied Mathematical Modelling, Volume: 26, Issue: 2, February, 2002, pp. 171-190.

• P.W. Cleary
  Modelling Comminution Devices using DEM 
  Int.J.for Numer.Anal. Meth.Geomechan., 25, 83 –105, (2001).

• K. Liffman, Nguyen, M., G. Metcalfe, and P.W. Cleary
  Forces in piles of granular material:  an analytic and 3D DEM study 
  to appear:  Granular Matter, (2001).

• P.W. Cleary and M.L. Sawley
  DEM modelling of industrial granular flows: 3D case studies and the effect of particle shape on hopper discharge
  submitted to Applied Mathematical Modelling (2000).

• P.W. Cleary and D. Hoyer
  Centrifugal mill charge motion and power draw: comparison of DEM predictions with experiment
  International Journal of Mineral Processing, 59, 131-148 (2000).

• P.W. Cleary
  DEM simulation of industrial particle flows: case studies of dragline excavators, mixing in tumblers and centrifugal mills
  Powder Technology, 109, 83-104 (2000).

• M.L. Sawley and P.W. Cleary
  A parallel discrete element method for industrial granular flow simulations
  EPFL Supercomputing Review, 11, 23-29 (1999). (Download: PDF)

• P.W. Cleary and M.L. Sawley
  Three dimensional modelling of industrial granular flows
  Proc. 2nd International Conference on CFD in the Minerals and Processing Industries, Melbourne, 95-100 (1999). (Download: PDF)

• P.W. Cleary
  The effect of particle shape on hopper discharge
  Proc. 2nd International Conference on CFD in the Minerals and Processing Industries, Melbourne, 71-76 (1999). (Download: PDF)

• L. Popken and P.W. Cleary
  Comparison of kinetic theory and discrete element schemes for modelling granular Couette flows
  Journal of Computational Physics, 155, 1-25 (1999).

• G.K. Robinson and P.W. Cleary
  The conditions for sampling of particulate materials to be unbiased - investigation using granular flow modelling
  Minerals Engineering, 12, 1101-1118 (1999).
  
• P.W. Cleary
  Ball mill simulation using discrete element methods: charge motion, power draw, segregation and wear
  Proc. 6th International Conference on Bulk Materials Handling, Wollongong, 381-388 (1998).

• P.W. Cleary
  Conveyor belt application modelling using DEM: idler induced segregation and sample cutter bias
  Proc. 6th International Conference on Bulk Materials Handling, Wollongong, 145-152 (1998).

• P.W. Cleary
  The filling of dragline buckets
  Mathematical Engineering in Industry, 7, 1-24 (1998).

• P.W. Cleary, G. Metcalfe and K. Liffman
  How well do discrete element granular flow models capture the essentials of mixing and segregation processes?
  Applied Mathematical Modelling, 22, 995-1008 (1998).

• P.W. Cleary
  Predicting charge motion, power draw, segregation, wear and particle breakage in ball mills using discrete element methods
  Minerals Engineering, 11, 1061-1080 (1998).

• P.W. Cleary
  Discrete element modelling of industrial granular flow applications
  TASK Quarterly - Scientific Bulletin, 2, 385-416 (1998).

• P.W. Cleary
  Draglines, ball mills, commodity sampling and other industrial applications: Modelling using object oriented discrete element methods
  Proc. 3rd World Particle Technology Congress, Brighton U.K. (1998).

• G. Metcalfe, L. Graham, K. Liffman, P.W. Cleary and M. Shattuck
  Imaging of laboratory scale industrial granular flows
  Proc. 3rd World Particle Technology Congress, June 7-9th, Brighton, England (1998).

• P.W. Cleary, A.N. Stokes and Hurley, J.
  Efficient collision detection for three dimensional super-ellipsoidal particles
  Proc. 8th International Computational Techniques and Applications Conference, Adelaide (1997). (Download: PDF)

• P.W. Cleary
  Industrial particle flow modelling: Discrete element methods and their applications
  Proc. Chemeca 97, paper PT1a on CD Rom, reprinted in Chemeca 97 Particle Technology Workshop, Ed. C. Davies, 1-12, Rotorua NZ, (1997).

• K. Liffman, G. Metcalfe and P.W. Cleary
  Convective due to horizontal shaking
  Proc. International Conference on Computational Fluid Dynamics in Minerals and Metal Processing and Power Generation, Melbourne, 165-168 (1997).

• P.W. Cleary, G. Metcalfe and K. Liffman
  How well do discrete element granular flow models capture the essentials of mixing and segregation processes?
  Proc. International Conference on Computational Fluid Dynamics in Minerals and Metal Processing and Power Generation, Melbourne, 149-156 (1997).

• K. Liffman, G. Metcalfe and P.W. Cleary
  Particle segregation and convective transport due to horizontal shaking
  Physical Review Letters, 79, 4574-4576 (1997).

• K. Liffman, G. Metcalfe and P.W. Cleary
  Convection due to horizontal shaking
  Proc. Powders & Grains 97, Eds. R. B. Behringer and J. T. Jenkins, Publisher, A. A. Balkema, Rotterdam, 405-408 (1997). (Download: PDF)

• P.W. Cleary
  Modelling industrial granular flows for draglines and centrifugal mills
  Australian Journal of Mining, 12, No. 131, 6-70 (1997).

• P.W. Cleary and N.G. Barton
  Use of particle methods to design mineral processing equipment
  Zeitschrift fur Angewandte Mathematik und Mechanik, 76, Supplement 4, Eds E. Kreuzer and O. Mahrenholtz, Akademie Verlag, Berlin, 253-256 (1996).

• P.W. Cleary
  Discrete element modelling industrial granular flows
  Proc. 2nd Australian Engineering Mathematics Conference, Institute of Engineers, Sydney, 301-308 (1996).

• C.S. Campbell, P.W. Cleary and M.A. Hopkins
  Large scale landslide simulations: Global deformation, velocities and basal friction
  Journal of Geophysical Research, 100, 8267-8283 (1995).

• P.W. Cleary
  Modelling industrial granular flows
  Proc. 1st Australian Engineering Mathematics Conference, Melbourne, 169-177 (1994).

• P.W. Cleary and C.S. Campbell
  Self-lubrication for long run-out landslides: Examination by computer simulation
  Journal of Geophysical Research, B. Solid Earth, 98, 21,911-924 (1993).

• P.W. Cleary
  Design and loading of dragline buckets
  Proc. Mathematics in Industry Study Group, 39-67 (1993).

• P.W. Cleary
  Modelling granular flows with complex boundary geometries
  Proc. 6th International Computational Techniques and Applications Conference, Canberra, 148-156 (1993).

• P.W. Cleary
  Extensions of the hybrid method for granular flows
  Proc. 5th International Computational Techniques and Applications Conference, Adelaide (1991).

Finite Element Method (Fastflo)

• X.-L. Luo, N.G. Barton, K.H. Gebauer and A.N. Stokes, “Finite element analysis of a compressible packed chromatographic bed”, Proc 6th World Congress of Chemical Engineering, 1521 (Melbourne, Australia, 23-27 September 2001).

• X.-L. Luo, N.G. Barton, K.H. Gebauer and A.N. Stokes, “Flow through a packed chromatographic bed supplied by a liquid distribution system”, Proc 6th World Congress of Chemical Engineering, 1522 (Melbourne, Australia, 23-27 September 2001).

• A.N. Stokes, N.G. Barton, X.-L. Luo and Z. Zhu, “Fluids, finite elements and multi-physics”, Proc CFSWA-2001 (Coupling of Fluids, Structures and Waves in Aeronautic), to appear in the Notes in Numerical Fluid Mechanics, eds N G Barton and J Periaux (Springer, 2002). X.L. Luo, N.G. Barton, K.H. Gebauer and A.N. Stokes, “Simulation of packed bed formation in chromatography columns”, Proc 4th World Congress on Particle Technology, Sydney July 2002.

• A.N. Stokes and N.G. Barton, “A consistent preconditioned Uzawa framework for CFD calculations, including fluid-structure interactions”, Proc 2nd International Conference on CFD, Sydney July 2002.

• K.H. Gebauer, X.-L. Luo, N.G. Barton and A.N. Stokes, “Full scale CFD analysis for the design of bioprocess chromatography columns”, to appear in Spica 2002, Heidelberg, 6-9 bOctober 2002.

• H-B Muhlhaus, BE Hobbs, R Freij-Ayoub, JL Walshe, A Ord and A.N. Stokes
  Multiple Scales in Rock Alteration and Ore Deposit Genesis
  Proc IWBP '99 (2001) (in press)

• P. Brown, J.R. Mooney, X.-L. Luo and G. Pantelis
  The modelling of flow and chemical reactions in waste piles
  Proc. 2nd International Conference on CFD in the Minerals and Processing Industries, Melbourne (1999).

• Z. Zhu and A.N. Stokes
  Predicting turbulent gas-liquid and solid-liquid multi-phase flows in a stirred mixing tank
  Proc. Chemeca '98, Port Douglas (1998).

• X.-L. Luo
  An incremental difference formulation for viscoelastic flows and high  resolution FEM solutions at high Weissenberg numbers
  Journal of Non-Newtonian Fluid Mechanics, 79, 57-75 (1998).

• J.R. Mooney and A.N. Stokes
  Time-varying MHD flows with free surfaces
  Applied Mathematical Modelling, 22, 949-962 (1998).

• X.-L. Luo
  Finite element simulation of the Weissenberg effect using orthogonal trajectory grids
  Proc. 13th Australasian Fluid Mechanics Conference, Melbourne, 309-317 (1998).

• Z. Zhu and A.N. Stokes
  Computing flows with moving interfaces : Application in mould filling
  Proc. 13th Australasian Fluid Mechanics Conference, Melbourne, 435-443 (1998).

• Z. Zhu and A.N. Stokes
  Computing diffusion flames with multistage combustion models
  Proc. 13th Australasian Fluid Mechanics Conference, Melbourne, 1043-1046 (1998).

• Y. Liu, N. Phan-Thien, R. Kemp and X.-L. Luo
  Coupled conduction-convection problem for an underground rectangular duct containing three insulated cables
  Numerical Heat Transfer, Part A, 31, 411-431 (1997).

• J. Ha and Z. Zhu
  Simulation of reactive flows in burners
  Proc. International Conference on Computational Fluid Dynamics in Mineral Metal Processing and Power Generation, Melbourne, 237-245 (1997).

• Z. Zhu and A.N. Stokes
  Simulation of two-phase flows in a stirred mixing tank
  Proc. International Conference on CFD in Mineral & Metal Processing and Power Generation, Melbourne, 387-394 (1997).

• J.R. Mooney and A.N. Stokes
  Time-varying MHD flows with free surfaces
  Proc. International Conference on CFD in Mineral & Metal Processing and Power Generation, Melbourne, 63-69 (1997).

• Z. Zhu and A.N. Stokes
  Predicting diffusion flames with three combustion models
  Proc. 10th International Conference on Numerical Methods in Thermal Problems, Swansea (1997).

• P.W. Cleary and A.N. Stokes
  Comparison of thermal efficiency of supplementary cooling panel combinations for cooling a room
  Proc. 8th International Computational Techniques and Applications Conference, Adelaide, (1997).

• C.-H. Li and R. Glowinski
  Modelling and numerical simulations of low Mach number compressible flows
  International Journal of Numerical Methods in Fluids 23, 77-103 (1996).

• X.-L. Luo
  Operator splitting algorithm for viscoelastic flow and numerical analysis for the flow around a sphere in a tube
  Journal of Non-Newtonian Fluid Mech. 63, 121-140 (1996).

• X.-L. Luo
  Operator splitting computation of turbulent flow in an axisymmetric narrowing bend using several k-e models and wall functions
  International Journal of Numerical Methods in Fluids 22, 1189-1205 (1996).

• X.-L. Luo, A.N. Stokes and N.G. Barton
  Turbulent flow around a car body - report of Fastflo solutions
  Proc. WUA-CFD Conference, Freiburg (1996).

• A.N. Stokes, X.-L. Luo and J.R. Mooney
  Using Fastflo with operator splitting to solve industrial problems
  Proc. AEMC96 Conference, Sydney, 251-259 (1996).

• Z. Zhu and A.N. Stokes
  Simulating turbulent combusting flows with Fastflo
  Proc. AEMC96 Conference, Sydney, 259-265 (1996).

• Z. Zhu and A.N. Stokes
  Solving swirling turbulent combustion using Fastflo
  Proc. WUA-CFD Conference, Freiburg, 86-93 (1996).

• P.W. Cleary and A.N. Stokes
  Transient natural convection at high Ra
  Proc. 7th International Computational Techniques and Applications Conference, Melbourne, 207-214 (1995).

• P.W. Cleary
  Cold jets or hot plumes? The bifurcation structure of natural convective flows between a cold plate and a hot body
  Proc. 12th Australasian Fluid Mechanics Conference, Sydney, 629-633 (1995).

• P.W. Cleary
  Multi-cell flow in differentially heated slots
  Proc. 12th Australasian Fluid Mechanics Conference, Sydney (1995).

• X.-L. Luo
  Turbulent flow modelling with the non-linear k-epsilon model using Fastflo
  Proc. 6th Asian Fluid Mechanics Conference, Singapore, Vol. 2, 1456-1459 (1995).

• X.-L. Luo
  Modelling 3D turbulent flow in a continuous casting tundish using Fastflo
  Proc. 12th Australasian Fluid Mechanics Conference, Sydney, 581-584 (1995).

• J.R. Mooney and F.R. de Hoog
  Modelling steady state free surface flows using Fastflo
  Proc. 12th Australasian Fluid Mechanics Conference, Sydney, 407-410 (1995).

• A.N. Stokes
  Using conjugate gradient methods in solving the incompressible Navier-Stokes equations
  Proc. 7th International Computational Techniques and Applications Conference, Melbourne, 725-732 (1995).

• Z. Zhu
  Numerical simulation of turbulent incompressible flows with a RNG based k-e model
  Proc. 1st Asian CFD Conference, Hong Kong, 1073-1078 (1995).

• Z. Zhu and A.N. Stokes
  Computation of turbulent combustion flows with a finite element method
  Proc. 7th Computational Techniques and Applications Conference, Melbourne, 855-862 (1995).

• Z. Zhu and A.N. Stokes
  Computation of swirling turbulent diffusion flames with a finite-element method
  Proc. 12th Australasian Fluid Mechanics Conference, 525-528 (1995).

• N.G. Barton, P.W. Cleary, J. Ha, M. Krishnamoorthy, J.R. Mooney and A.N. Stokes
  Industrial case studies at the interface between engineering and applied mathematics
  Proc. 1st Australian Engineering Mathematics Conference, Melbourne, 23-40, (1994).

• Z. Zhu
  Artificial-compressibility method with upwinding
  Proc. 6th Computational Techniques and Applications Conference, Canberra, 502-510 (1994).

• P.C. Bandopadhayay, H. Salt, J.G. Symons, P.W. Cleary and A.N. Stokes
  Supplementary cooling of office buildings using planar heat pipe panels
  Proc. 6th International Symposium on Transport Phenomena in Thermal Engineering, Korea (1993).

• P.W. Cleary, A.N. Stokes, J.G. Symons and P.C. Bandopadhayay
  Implications for experimental design from numerical modelling of natural convective heat transfer
  Proc. 3rd World Conference on Experimental Heat Transfer, Fluid Mechanics and Thermodynamics, Honolulu (1993).

• C.-H. Li
  Numerical simulation of flow past a circular cylinder by operator splitting
  Proc. 6th Biennial Conference on Computational Techniques and Applications, Canberra, 345-353 (1993).

• J.R. Mooney
  Solution of natural convection problems using Fastflo
  Proc. 6th Biennial Conference on Computational Techniques and Applications, Canberra, 371-378 (1993).

• P.W. Cleary, A.N. Stokes, J.G. Symons and P.C. Bandopadhayay
  Numerical modelling of free convective heat transfer from heated plates in an enclosure
  Proc. 11th Australasian Fluid Mechanics Conference, Hobart (1992).

• C.-H. Li
  Numerical solution of Navier-Stokes equation by operator splitting
  Proc. 6th International Conference in Australia on Finite Element Methods, Sydney (1991).

Other Subjects

• N.G. Barton
  The role of mathematics in recent technological development
  Proc. Mathematics and its Role in Civilization, Macao (2000).

• Z. Zhu and A.N. Stokes
  A finite element platform for pricing path-dependent exotic options
  Proc. Quantitative Methods in Finance 1999 Conference, Sydney (1999). (Download: PDF)

• A.N. Stokes and Z. Zhu
  Improved accuracy for fast partial differential equation methods for options with optimal early exercise
  Proc. Quantitative Methods in Finance 1999 Conference, Sydney (1999).

• O. Byrde, W. Couzy, M.O. Deville and M.L. Sawley
  High-performance parallel computing for incompressible flow simulations
  Computational Mechanics, Special issue: "Advances in parallel computing methods for fluid mechanics", 23, 98-107 (1999).

• O. Byrde and M.L. Sawley
  Parallel computation and analysis of the flow in a static mixer
  Computers and Fluids, 28, 1-18 (1999).

• O. Byrde and M.L. Sawley
  Optimization of a Kenics static mixer for non-creeping flow conditions
  Chemical Engineering Journal, 72, 163-169 (1999).

• M. Caponnetto, A. Castelli, Ph. Dupont, B. Bonjour, P.-L. Mathey, S. Sanchi and M.L. Sawley
  Sailing yacht design using advanced numerical flow simulations
  Proc. 14th Chesapeake Sailing Yacht Symposium, Annapolis MA, 97-104 (1999).

• O. Byrde and M.L. Sawley
  Gaining insights into the flow in a static mixer
  in "Industrial Strength Parallel Computing", A. Koniges (ed.), Morgan Kaufmann Publishers, Chapter 11, in press.

• S.A. Williams, M.L. Sawley and D. Cobut
  Distributed run-time visualization and solution steering of parallel flow simulations
  Computers in Physics, 12, 493-502 (1998).

• M. Caponnetto, A. Castelli, B. Bonjour, P.-L. Mathey, S. Sanchi and M.L. Sawley
  America's Cup yacht design using advanced numerical flow simulations
  EPFL Supercomputing Review, 10, 24-28 (1998). (Download: PDF)

• M.L. Sawley and O. Byrde
  A study of the Kenics static mixer via high-performance parallel flow simulations
  Proc. 13th Australasian Fluid Mechanics Conference, Melbourne, 913-916 (1998).

• N.G. Barton, P.W. Cleary, J. Ha, M. Krishnamoorthy, J.R. Mooney and A.N. Stokes
  Industrial case studies at the interface between engineering and applied mathematics
  Proc. 1st Australian Engineering Mathematics Conference, Melbourne, 23-40 (1994).

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