01-05 IMA Conference on Dense Granular Flows
Date: Monday 5 - Friday 9 January 2009 Location: Issac Newton Institute, Cambridge
The videos of the talks are now available to view at http://sms.cam.ac.uk/collection/521697.
Flows involving solid particulates are ubiquitous in nature and industry alike. Such flows are found in pharmaceutical production, the chemical industry, the food and agricultural industries, energy production and the environment. Many unsolved problems remain, however. For example, the rejection rate by US pharmaceutical manufacturers is around 5% with the cost of losing a single batch of medication ranging from £50,000 to £500,000. In order to be able to solve such problems, granular flows need to be understood so that their behaviour can be controlled and predicted.
To date, we are able to describe rapid granular flows, where the particles are highly agitated and there has been some success describing static systems. The intermediate regime, where these two phases meet and coexist, is not as well understood and yet is the most commonly observed behaviour of granular flow. The objective of this meeting will be to interface the two ends of the particulate flow spectrum – those working to understand the fundamentals of granular flows and those attempting to control particulate flows in an industrial setting - to develop solutions to the complex problems presented by dense granular flows.
Organising Committee
Ricky Wildman, Loughborough University (Chair)
Nico Gray, University of Manchester
Jonathon Huntley, Loughborough University
Jim McElwaine, University of Cambridge
Christine Hrenya, University of Colorado, USA
Invited Speakers
Bob Behringer, Duke University, North Carolina, USA
Statistics of Dense Granular Materials
Abstract: Dense granular materials present a number of interesting challenges. They are many-body systems with dissipative interactions. As suggested by Edwards et al., one would like to have a statistical approach analogous to Boltzmann statistics for energy-conserving systems. But the dissipative character of dense granular materials challenges conventional notions. New approaches require a careful examination, and suggest a number of experiments. This talk will focus on recent experiments that seek to characterize the statistics of dense granular systems and to test recent models. In particular, we have carried out experiments to determine the microscopic distributions of contact forces, the nature of jamming, the effect of stress anisotropy, the role of affine and non-affine motion in sheared granular systems, the effect of particle rotation, and the importance of particle shape. Many of these experiments use photoelastic particles. This allows the tracking of particle motion, and perhaps most importantly, the determination of the contact forces by the solution of a nonlinear inverse problem.
Our results are consistent with predictions from the force ensemble approach, but much more needs to be done.
Thomas C. Halsey, ExxonMobil Upstream Research, Houston, Texas
Motion of frictional grain packings
Jim Jenkins, Cornell University, USA
Dense Granular Flows Down Inclines
Abstract: We'll show how kinetic theory, slightly extended to include an additional length scale in the rate of collisional dissipation that is associated with clusters and/or correlated collisions, can predict the observed features of inclined flows of inelastic, frictional spheres over a rigid bumpy base in the absence of side walls and over the surface of a heap when side walls are present.
Biography: James T. Jenkins is the Walter S. Carpenter, Jr. Professor of Engineering in the Department of Theoretical and Applied Mechanics at Cornell University. His recent research has focused on the formulation of constitutive relations for dense, dissipative, collisional flows; analytical descriptions of debris flows; and the modeling of wind-blown sand.
Raffaella Ocone, Department of Chemical Engineering, Heriot-Watt University
Investigating the Intermediate Granular Flow Regime
Biography: Raffaella Ocone is Professor of Chemical Engineering at Heriot-Watt University, Edinburgh, UK. She received her MEng in Chemical Engineering from the University of Naples, Italy, and MA and PhD from Princeton University, USA. She was elected Fellow of the Royal Society of Edinburgh in 2006 and Cavaliere of the Order of Merit of the Italian Republic in 2007. She is a Chartered Engineer, a Chartered Scientist and a Fellow of the Institution of Chemical Engineers. Her research interests are in modelling complex systems, spanning from the hydrodynamics of solid/gas suspensions, to complex reaction networks. Recent work includes the modelling of biological systems.
Dr Philippe Rogueda FRSC CChem CSci EurIng, Novartis UK
Multiphase flow enigmas in inhalation delivery
Biography: Philippe Rogueda is a world expert on formulation science, especially on the formulation of medicinal aerosols. His expert lies in the field of colloid and physical chemistry, in relation to particle engineering and non aqueous formulations.
Professor Jonathan Seville, School of Engineering, University of Warwick
Granular Flows at the Single Particle Level
Biography: Jonathan Seville is Dean of Engineering at the University of Warwick, UK. He holds degrees in Chemical Engineering from the Universities of Cambridge and Surrey and has held visiting appointments at the University of British Columbia and the Technical University of Denmark. He is a Chartered Engineer, a Fellow of the Institution of Chemical Engineers and a Fellow of the Royal Academy of Engineering. His research includes a wide range of solids processing activities, including particle formation, agglomeration, compaction and coating; fluidisation and reactor design; positron emission particle tracking; discrete element method modelling; and supercritical fluid processes.
Programme
Monday, 5 January
| 09.00 - 10.00 | Registration |
| 10.00 - 10.20 | Welcome by Sir David Wallace and Introduction |
| 10.20 - 11.00 | Plenary: Investigating the Intermediate Granular Flow Regime Raffaella Ocone |
| 11.00 - 11.45 | Coffee |
| 11.45 - 12.10 | The flow of fluidised particles Andrew J. Hogg, Mark A. Gilbertson and David E. Jessop |
| 12.10 - 12.35 | Bed-load transport by laminar shearing flows Julien Chauchat, Malika Ouriemi, Pascale Aussillous, Marc Medale and Elisabeth Guazzelli |
| 12.35 - 13.00 | Agitated medium dense slurries in a dead-end filtration geometry Professor M.A. Koenders and Curt Koenders |
| 13.00 - 14.00 | Lunch |
| 14.00 - 14.40 | Plenary: Multiphase flow enigmas in inhalation delivery Dr. Philippe Rogueda |
| 14.40 - 15.05 | “Modelling Dosator Performance” Case Study of Solving In Dense Granular Flow O.A. Angulo, R.J. Berry and M.S.A. Bradley |
| 15.05 - 15.30 | Power-law rheology and the growing correlation length at the jamming transition Takahiro Hatano |
| 15.30 - 16.10 | Coffee |
| 16.10 - 16.35 |
Velocity and concentration profiles measurements in |
| 17.15 - 18.15 |
Opening Reception |
Tuesday, 6 January
| 09.00 - 09.40 | Plenary: Statistics of Dense Granular Materials Bob Behringer |
| 09.40 - 10.05 | The modelling of dense, slow granular flow using a new plasticity model David Harris |
| 10.05 - 10.30 | Axisymmetric granular collapse: a transient 3D flow test of visco-plasticity Laurent Lacaze and Rich R. Kerswell |
| 10.30 - 10.55 | Percussion of granular material by one grain: Experiment and model Jérôme Crassous, Djaoued Beladjine and Alexandre Valance |
| 10.55 - 11.20 | Washboard Road Nicolas Taberlet, Jim McElwaine and Stephen W. Morris |
| 11.20 - 11.45 | Coffee |
| 11.45 - 12.00 | An Exact Solution for a Model of Plasticity for Powder Materials in an Un-Steady Plane Strain Process Olga Chesnikova and Alexander Pirumov |
| 12.00 - 12.15 | Rapid Granular Chute Flow – Multiple steady flow solutions and their linear stability Mark J. Woodhouse and Andrew J. Hogg |
| 12.15 - 12.30 | A Comparative Study of Models for Incompressible Granular Materials Sergei Alexandrov and David Harris |
| 12.30 - 12.45 | Granular flows on unconfined slopes Daisuke Takagi, Jim N. McElwaine and Herbert E. Huppert |
| 12.45 - 13.00 | Triggering of submarine granular avalanches Mickael Pailha, Maxime Nicolas and Olivier Pouliquen |
| 13.00 - 14.00 | Lunch |
| 14.00 - 14.25 | Impact in a granular medium Dr Yann Bertho, Antoine Seguin and Philippe Gondret |
| 14.25 - 14.50 | Heterogeneities in Granular Dynamics Professor A. Mehta, G.C. Barker and J.M. Luck |
| 14.50 - 15.15 | Prediction of the hydrodynamics of slightly wet suspended particles Dr. Yassir T. Makkawi |
| 15.15 - 15.40 | Modelling and experiments of wet granular flows in rotating drums Shuiqing Li and J.S. Marshall |
| 15.40 - 16.10 | Coffee and Posters |
| 16.10 - 16.35 |
Foam as a soft granular material |
Wednesday, 7 January
| 09.00 - 09.40 | Plenary: Motion of frictional grain packings Thomas C. Halsey |
| 09.40 - 10.05 | Volcanic Hazards and Uncertainty: Granular Flow Simulations and Statistics E. Bruce Pitman |
| 10.05 - 10.30 | Modelling shallow gravity-driven solid-fluid mixtures over arbitrary Topography Ioana Luca, Yih-Chin Tai and Chih-Yu Kuo |
| 10.30 - 10.55 | Dense granular gases: Can they jam? N. Rivier |
| 10.55 - 11.20 | A multiscale simulation technique for granular flow Chris H. Rycroft |
| 11.20 - 11.45 | Coffee |
| 11.45 - 12.10 |
A shear rate dependent critical state theory to describe the initiation |
| 12.10 - 12.35 | Experimental observations of fluid-inertial behaviour of dam-break, dense granular flows and their relevance for the propagation of pyroclastic flows Olivier Roche, S. Montserrat, Y. Niño and A. Tamburrino |
| 12.35 - 13.00 | Transition from discontinuous avalanches to continuous flow Prof. Dr. Philippe Gondret, Raphaël Fischer and Marc Rabaud |
| 13.00 - 14.00 | Lunch |
| 14.00 | Trip |
Thursday, 8 January
| 09.00 - 09.40 | Plenary: Dense Granular Flows Down Inclines Jim Jenkins |
| 09.40 - 10.05 | Rapid Granular Flows: From Kinetic Theory to Granular Dynamics V. Kumaran |
| 10.05 - 10.30 | Modelling of particle size segregation and its applications to geophysical problems Anthony Thornton, J.M.N.T. Gray and P. Kokelaar |
| 10.30 - 10.55 | Elastic Effects in Granular Flows Charles S. Campbell |
| 10.55 - 11.30 | Coffee |
| 11.30 - 11.45 | Pre-avalanche structural rearrangements in granular packing S. Kiesgen de Richter, G. Le Caër, R. Delannay, P.Richard and V. Zaitsev |
| 11.45 - 12.00 | Consequences of the μ(I) constitutive law C.J. Cawthorn, E.J. Hinch and J.N. McElwaine |
| 12.00 - 12.15 | The flow generated by oblique impingement of granular material on an inclined plane C.G. Johnson and J.M.N.T. Gray |
| 12.15 - 12.30 | Lateral instability of dense granular flows on a rough incline Tamás Börzsönyi, Robert E. Ecke and Jim N. McElwaine |
| 12.30 - 12.45 | Structures Formation by Migration of Particles in Suspension flows M. Ibrahim, U.Tuzun, A. Skeldon, D.M. Heyes and M.A. Koenders |
| 12.45 - 13.00 | Simultaneous measurement of viscosity and kinetic temperature in a driven dense granular suspension Sonia May and Matthias Schroeter |
| 13.00 - 14.00 | Lunch |
| 14.00 - 14.25 | Nuclear Magnetic Resonance studies of an ultrasonically vibrated granular bed J.M. Huntley, T. Tarvaz, N.A. Sheikh, R.D. Wildman, A.J. Sederman and M.D. Mantle |
| 14.25 - 14.50 | Particle Segregation in Oscillating Straining Flows Professor Jeffrey Marshall |
| 14.50 - 15.15 |
Can cellular automata based models accurately simulate |
| 15.15 - 15.40 | Dense Granular Flow: A Review of the Types of Problems, Approaches to Solutions and Outstanding Opportunities M.S.A. Bradley and R.J. Farnish |
| 15.40 - 16.10 | Coffee |
| 16.10 - 16.35 | Sorting out Segregation Mechanisms at the Interface between Densely Creeping and Energetic Granular Flows Kimberly Hill and Yi Fan |
| 16.35 - 17.00 |
Quasi-gaussian velocity distribution of a vibrated granular |
| 19.30 |
Formal Dinner at St. John’s. |
Friday, 9 January
| 09.00 - 09.40 | Plenary: Granular Flows at the Single Particle Level Professor Jonathan Seville |
| 09.40 - 10.05 | On the role of numerical diffusion on QMOM and DQMOM simulation of fluidized beds Luca Mazzei, Daniele L. Marchisio and Paola Lettieri |
| 10.05 - 10.30 | Orientational ordering in sheared inelastic dumbbells Julian Talbot |
| 10.30 - 10.55 | Stick slip dynamics in a sheared granular system A. Petri, A. Baldassarri, F. Dalton, F. Leoni, G. Pontuale and S. Zapperi |
| 10.55 - 11.45 | Coffee |
| 11.45 - 12.10 | Important Thermodynamic Aspects in the Formulation of Solid-fluid Debris Flow Models (dense and particle laden) Kolumban Hutter |
| 12.10 - 12.35 | Rheology of Confined Granular Flows: Scale Invariance, Glass Transition and Friction Weakening Alexandre Valance, P. Richard, M. Louge and R. Delannay |
| 12.35 - 13.00 | A new convection scenario in granulates under geometrical restriction Frank Rietz and Ralf Stannarius |
| 13.00 - 14.00 | Lunch |
| 14.00 - 14.25 | Size segregation in granular fluid flows Michele Larcher and James Thomas Jenkins |
| 14.25 - 14.50 | Free shear zones in granular bulk flow T. Unger, A. Ries, J. Kertesz and D.E. Wolf |
| 14.50 - 15.15 | Shock Waves and Snow Avalanches X. Cui and J.M.N.T. Gray |
| 15.15 - 15.40 | The Spatiotemporal Dynamics of Segregation-Band Drift in Particle- Laden Rimming Flow Peter J. Thomas and Estelle Guyez |
| 15.40 - 16.10 |
Coffee and Close |
Posters (during Tuesday afternoon coffee break)
Mathematical Modelling of Dense Granular Flow in Cone Crushers
John Billingham, Oliver Bain, Ian Lowndes and Sam Kingman
Recirculating Inclined Chute at DAMTP, Cambridge
Alex Holyoake
Acoustic Signals of Sand Flowing Down Inclined Slope
Danielle Tan, Steve Keast, Prof. Wolfgang Sachse and Prof. Jim Jenkins
A Constitutive Relation for Dense Suspensions
Luigi La Ragione and J.T. Jenkins
Conference Fees
Conference fees include lunch and refreshments on 5 - 9 January 2009 and the welcome reception.
| Non IMA Member: | £410.00 |
| IMA Member: | £340.00 |
| Student: | £200.00 |
Please note that the conference dinner is NOT included in the conference fee and that you will need to pay for this separately if you wish to attend.
Conference Dinner £45.00 (per person).
Support
Support is now available for researchers in the following categories:
Researchers from US institutions
Researchers from institutions from developing countries
Participants from the INI programme Granular and Particle Laden Flows, 2003
Early career researchers (PhD students and up to 5 years postdoctoral experience)
If you require support, please include your request with your submission or contact the conference chair, Ricky Wildman (r.d.wildman@lboro.ac.uk).
