Scientific Program
Please Note: the scientific program may be subject to minor changes. Please always refer to the updated website version.
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Monday, 13.06.2016: Training day and registration |
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08:15 | Registration for training day | ||
09:00 | Lecture 1 on SPH method basics | R. A. Dalrymple | |
10:30 | Coffee Break | ||
11:00 | Lecture 2 on special topic on SPH method | W. Dehnen | |
12:30 | Lunch | ||
14:00 | Practice session 1 on SPH software | ||
15:30 | Coffee Break | ||
16:00 | Practice session 2 on SPH software | ||
17:30 | Registration for the workshop | ||
19:00 | End of afternoon registration |
Tuesday, 14.06.2016: Workshop Day 1 |
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08:15 | Registration | ||
09:00 | Opening | X.Y. Hu; B.Rogers N. Adams |
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09:15 | Keynote: SPH coupling with EBG for modeling fluid-flexible structure interactions | M.B. Liu Chair: N. Adams |
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10:10 | Coffee break |
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10:40 | Session 1: Free Surface and Moving Boundaries Applications | Chair: G. Fourtakas | |
993 | Study on Coarse-Fine-Interactions with an Adaptive SPH Formulation within the Context of Problems Driven by Surface Tension | D. Schnabel |
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987 | Comparison of numerical results using a barotropic and a non-isentropic EOS in SPH-ALE method | S. Pineda | |
985 | Recent results in the systematic derivation and convergence of SPH | I. Zisis |
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988 | Behavior of oil under breaking waves by a two-phase SPH model | T. Dalrymple |
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11:45 | Session 2: Solids and Structures | Chair: A. Khayyer | |
935 | A Novel, Purely Methodological Strategy for Controlling Dynamic Resolution in Smoothed Particle Hydrodynamics | F. Spreng |
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859 | Study on Abrasive Wear with a Lagrangian SPH Approach | P. Eberhard |
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969 | Development of fluid-solid coupling for the study of hydraulic fracturing using SPH | K. Pan |
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975 | Coupled Finite Element - SPH simulation of particle impact and adhesion for Cold Spray | P. Profizi |
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12:50 | Lunch |
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14:20 | Session 3: Multiple Continua and Multi-Phase Flows | Chair: P. Eberhard | |
926 | A simple ISPH algorithm for two-phase flows with high density ratios | M. Rezavand |
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952 | Numerical Modeling of Oil-Jet Lubrication for Spur Gears using Smoothed Particle Hydrodynamics | M. C. Keller |
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1004 | Modelling the 1958 Lituya Bay landslide and tsunami with ISPH | S. Lind |
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974 | Improved Shields criterion for SPH simulations of bed-load transport and scouring | A. Ghaïtanellis |
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15:25 | Session 4: Complex Physics | Chair: D. Violeau | |
990 | Coupling between DualSPHysics and Chrono-Engine: towards large scale HPC multiphysics simulations | R. Canelas |
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956 | SPH modeling of resonance wave pumping in closed tank: Parametric study | R. Carmigniani |
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989 | Hunting for Lagrangian Coherent Structures: SPH-LES turbulence simulations with Wall-adapting Local Eddy Viscosity (WALE) model | R. Canelas |
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996 | Smoothed Particle Hydrodynamics Modelling of Pulsed Laser Ablation of Aluminium and Associated Free-Surface Problems | A. W. Alshaer |
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16:30 | Coffee break | ||
17:00 | Session 5: Convergence | Chair: N. Quinlan | |
931 | Smoothed Particle Magnetohydrodynamics: A State of the Union | B. Lewis |
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955 | A first spectral analysis of the SPH Laplacian | D. Violeau |
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980 | An Eulerian-Lagrangian incompressible SPH formulation (ELI-SPH) | G. Fourtakas |
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1002 | Mathematical Analysis of Generalized Particle Methods for Poisson equations and heat equations | D. Tagami |
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18:05 | General Discussion panel 1 Introduction given by Monaghan Prize Winner A. Colagrossi |
Members: A. Colagrossi D. Le Touzé; S. Lind X.Y. Hu Chair: P. Stansby |
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19:15 | Welcome cocktail |
Wednesday, 15.06.2016: Workshop Day 2 |
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08:30 | Keynote: Smoothed dissipative particle dynamics or SPH at mesoscale: theory and applications | D. Fedosov Chair: J. Monaghan |
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09:25 | Session 6: Numerical Stability | Chair: N. Thuerey | |
967 | An Eulerian Weakly Compressible SPH Immersed Boundary Method for Fluid-Structure Interaction | B. Rogers |
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981 | Application of the Okubo-Weiss parameter to the dynamical smoothing length adjustment in SPH | M. Olejnik |
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986 | Multiphase model in SPH-ALE for modeling a fully compressible multiphase flow |
S. Pineda |
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930 | Long duration SPH simulations of sloshing in tanks with a low fill ratio and high stretching | M. D. Green |
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10:30 | Coffee break | ||
11:00 | Session 7: Boundary conditions | Chair: A. Amicarelli | |
906 | Applying Riemann solvers to SPH open boundaries in free surface and confined flows | A. Joly |
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944 | Consistency issues on SPH energy conservation when simulating viscous flows around solid bodies |
J. L. Cercos-Pita |
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950 | Simulation of particle flows in a Humphrey’s spiral concentrator using dusty liquid SPH | J. Kwon |
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983 | Open boundary conditions for large-scale SPH simulations | A. Tafuni |
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12:05 | Session 8: High-Performance Computing | Chair: R. Vacondio | |
932 | HPC Predictions of Primary Atomization with SPH: Challenges and Lessons Learned | S. Braun | |
947 | Auto-balancing Voronoi domain decomposition for parallel SPH simulation of materials in extremes | M. Egorova |
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953 | A physics-motivated Centroidal Voronoi Particle domain decomposition method | L. Fu |
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973 | Can SPH simulations of blood flow contribute to clinical decision making in Arterial Valve Disease treatment? | P. Groenenboom | |
13:10 | Lunch | ||
14:20 | Session 9: New applications of SPH (e.g. shallow-water, laser cutting) | Chair: M. Neuhauser | |
918 | Advanced fluid visualisation with DualSPHysics and Blender | O. García-Feal | |
962 | Coupling SPH with a potential Eulerian model for wave propagation problems | J. Chicheportiche |
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971 | Aquaplaning simulations using a coupling between Smoothed Particle Hydrodynamics and Finite Element method | C. Hermange |
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997 | A wetting and drying semi-implicit SPH algorithm for the shallow water equations | A. O. Bankole | |
15:25 | Coffee break | ||
15:45 | Session 10: Maritime and Naval Architecture Applications | Chair: S. Marrone |
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893 | SPH model to simulate Oscillating Water Column wave energy converter | C. Altomare |
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929 | SPH formulation of the Finite-Time Lyapunov Exponents for the detection of Lagrangian Coherent Structures | P.N. Sun |
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961 | Improvements on Particle Refinement method with SPH | L. Chiron | |
958 | SPH simulation of skipping stones and bombs | J. Monaghan | |
16:50 | General Discussion panel 2: Introduction given by M. Stanic; A. J. C. Crespo; N. Thuerey |
Members: M. Stanic N. Thuerey; A. Crespo P. Groenenboom Chair: X.Y. Hu |
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17:40 | Steering Committee meeting | ||
19:00 | Trip to Banquet Venue (Restaurant Schlosscafé im Palmenhaus) | ||
20:00 | Banquet |
Thursday, 16.06.2016: Workshop Day 3 |
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09:15 | Session 11: Process Engineering | Chair: D. Fedosov | |
954 | Simulating dam-break flows with WCSPH based on a new low-dissipation Riemann solver | C. Zhang |
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920 | A GPU-Compatible Scheme for Coupling SPH to Process-Based Wastewater Treatment Models | M. Meister | |
959 | Modeling the multiphase flow characteristics in randomly packed bed reactor with complex shapes of catalyst pellets using adaptive SPH | A. Thyagarajan |
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984 | SPH Simulation of a Transfer Box | I. Kondor |
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10:20 | Coffee break | ||
10:50 | Session 12: Hydraulic Applications | Chair: T. Indinger | |
970 | A well-balanced path conservative SPH scheme for non-conservative hyperbolic systems with applications to multi-phase flows | G. Rossi | |
945 | Validation of massively parallel free-surface SPH simulations of gravity-driven flow and partitioning dynamics at complex fracture intersections | J. Kordilla | |
994 | Modelling sediment erosion in fluvial channels using SPH | E. Zubeldia | |
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11:40 | Session 13: High-Performance Computing | Chair: B. Rogers | |
934 | NanoFluidX: an Industrial SPH Code for Powertrain Component Simulation | M. Stanic | |
957 | From particles to mesh and back | D. Duque | |
999 | Large-scale Particle-based Simulations for Debris Flows using Dynamic Domain Decomposition with Space Filling Curves on A GPU Supercomputer | S. Tsuzuki | |
1006 | A new framework for variable resolution adaptive SPH with fully object-oriented SPHysics on emerging technology | R. Vacondio | |
12:55 | Lunch | ||
14:25 | Session 14: Alternative approaches | Chair: K. Um |
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995 | Augmented Lagrangain SPH Method for Incompressible Flows | M. Yildiz | |
960 | A spherical kernel for the Finite Volume Particle Method and application to surface tension | A. Maertens | |
964 | Coupling weakly-compressible SPH with Finite Volume: an algorithm for simulating free-surface flows | S. Marrone | |
1000 | A novel refinement technique for projection-based particle methods | N. Tsuruta | |
15:30 | Session 15: Modelling of Viscosity,Turbulence and Incompressible Flows |
Chair: P. Groenenboom | |
937 | Analysis of Free Surface Simulation using Breaking-dam Benchmark | K. Um | |
976 | Comparative Study on Accuracy and Conservation Properties of Particle Regularization Schemes and Proposal of an Improved Particle Shifting Scheme | A. Khayyer | |
1001 | A SPH model for dike overtopping and dam liquefaction with bed-load transport, bottom drag and mobile boundaries | A. Amicarelli | |
1003 | Flow dynamics on a U shaped channel flow: a numerical study | G. Viccione | |
16:35 | Closing and Ceremony for the Student Prize |