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1. Full Text Predictive-corrective incompressible SPH
by Solenthaler, B and Pajarola, R
ACM transactions on graphics, ISSN 0730-0301, 07/2009, Volume 28, Issue 3, pp. 1 - 6
incompressibility | SPH | fluid simulation | Incompressibility | Fluid simulation
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2. Full Text SPH accuracy improvement through the combination of a quasi-Lagrangian shifting transport velocity and consistent ALE formalisms
by Oger, G and Marrone, S and Le Touzé, D and de Leffe, M
Journal of computational physics, ISSN 0021-9991, 05/2016, Volume 313, pp. 76 - 98
Smooth SPH pressure fields | SPH accuracy | SPH convergence | Particle disordering | Arbitrary Lagrangian Eulerian | Weakly-compressible SPH | Physical Sciences | Computer Science, Interdisciplinary Applications | Technology | Physics, Mathematical | Computer Science | Physics | Science & Technology | Fluid dynamics | Anisotropy | Beer | Accuracy | Mathematical analysis | Mathematical models | Transport | Inclusions | Formalism | Navier-Stokes equations | Engineering Sciences
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3. Full Text The δ-ALE-SPH model: An arbitrary Lagrangian-Eulerian framework for the δ-SPH model with particle shifting technique
by Antuono, M and Sun, P.N and Marrone, S and Colagrossi, A
Computers & fluids, ISSN 0045-7930, 02/2021, Volume 216
Smoothed particle hydrodynamics | SPH Consistency | Delta-SPH | Particle shifting | Arbitrary-Lagrangian-Eulerian | SPH Accuracy
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4. Full Text A well-balanced path conservative SPH scheme for nonconservative hyperbolic systems with applications to shallow water and multi-phase flows
by Rossi, Giulia and Dumbser, Michael and Armanini, Aronne
Computers & fluids, ISSN 0045-7930, 09/2017, Volume 154, pp. 102 - 122
Osher (DOT) | and HLLEM | Single and two-layer shallow water equations and Pitman & Le model | Well-balanced SPH schemes | Comparison of different approximate Riemann solvers: Rusanov | Baer Nunziato model of compressible multiphase flow | Smoothed Particle Hydrodynamics (SPH) based on Riemann solvers | Path-conservative SPH schemes for non-conservative hyperbolic PDE | HLLEM | Mechanics | Computer Science, Interdisciplinary Applications | Technology | Computer Science | Science & Technology | Fluid dynamics | Conservatism | Shallow water equations | Fluid mechanics | Astrophysics | Compressibility | Partial differential equations | Computational fluid dynamics | Fluid flow | Finite element method | Incompressible flow | Accuracy | Topography | Meshless methods | Differential equations | Solvers | Mathematical models | Computing time | Hyperbolic systems | Riemann solver
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5. Full Text A consistent approach to particle shifting in the δ-Plus-SPH model
by Sun, P.N and Colagrossi, A and Marrone, S and Antuono, M and Zhang, A.-M
Computer methods in applied mechanics and engineering, ISSN 0045-7825, 05/2019, Volume 348, pp. 912 - 934
SPH accuracy | Particle shifting | Smoothed particle hydrodynamics | Weakly compressible flows | Delta-plus-SPH | SPH consistency | Mathematics, Interdisciplinary Applications | Engineering | Physical Sciences | Technology | Engineering, Multidisciplinary | Mechanics | Mathematics | Science & Technology | Domains | Compressibility | Algorithms | Robustness (mathematics) | Computer simulation | Continuity equation | Mathematical models | Model accuracy | Free surfaces
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6. Full Text Analysis and improvements of Adaptive Particle Refinement (APR) through CPU time, accuracy and robustness considerations
by Chiron, L and Oger, G and de Leffe, M and Le Touzé, D
Journal of computational physics, ISSN 0021-9991, 02/2018, Volume 354, pp. 552 - 575
Moving refinement area | SPH | SPH/SPH coupling | Adaptive Mesh Refinement (AMR) | Adaptive Particle Refinement (APR) | Smoothed particle disordering method | Physical Sciences | Computer Science, Interdisciplinary Applications | Technology | Physics, Mathematical | Computer Science | Physics | Science & Technology | Finite element method | Fluid mechanics | Central processing units--CPUs | Fluid dynamics | Computer simulation | Fluid flow | Constraint modelling | Robustness | Smooth particle hydrodynamics | Computational physics | Navier Stokes equations | Formalism | Engineering Sciences
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7. Full Text High-order Eulerian incompressible smoothed particle hydrodynamics with transition to Lagrangian free-surface motion
by Lind, S.J and Stansby, P.K
Journal of computational physics, ISSN 0021-9991, 12/2016, Volume 326, pp. 290 - 311
Incompressible SPH | Eulerian SPH | High-order SPH | ALE-ISPH | Physical Sciences | Computer Science, Interdisciplinary Applications | Technology | Physics, Mathematical | Computer Science | Physics | Science & Technology | Fluid dynamics | Analysis | Wave propagation
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8. Full Text Fast method to simulate dynamics of two-phase medium with intense interaction between phases by smoothed particle hydrodynamics: Gas-dust mixture with polydisperse particles, linear drag, one-dimensional tests
by Stoyanovskaya, Olga and Davydov, Maxim and Arendarenko, Maxim and Isaenko, Elizaveta and Markelova, Tamara and Snytnikov, Valeriy
Journal of computational physics, ISSN 0021-9991, 2020
Polydisperse dusty gas | Aerodynamical drag | Multi-fluid SPH | Smoothed particle hydrodynamics (SPH) | Intense interphase interaction
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9. Full Text Characteristic parameters and process maps for fully-filled twin-screw extruder elements
by Bauer, Hannes and Matić, Josip and Khinast, Johannes
Chemical engineering science, ISSN 0009-2509, 02/2021, Volume 230
Twin-screw extruder elements | Extrusion | SPH | Scale-up
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10. Full Text An Eulerian–Lagrangian incompressible SPH formulation (ELI-SPH) connected with a sharp interface
by Fourtakas, G and Stansby, P.K and Rogers, B.D and Lind, S.J
Computer methods in applied mechanics and engineering, ISSN 0045-7825, 02/2018, Volume 329, pp. 532 - 552
Lagrangian SPH | Incompressible SPH | ALE | Eulerian SPH | Improved accuracy | Eulerian solid boundary conditions | Mathematics, Interdisciplinary Applications | Engineering | Physical Sciences | Technology | Engineering, Multidisciplinary | Mechanics | Mathematics | Science & Technology | Beer | Incompressible flow | Lagrange multiplier | Wave propagation | Propagation | Computational fluid dynamics | Transitions | Fluid flow | Particle mass | Regularization | Concentration gradient
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11. Full Text Multi-resolution Delta-plus-SPH with tensile instability control: Towards high Reynolds number flows
by Sun, P.N and Colagrossi, A and Marrone, S and Antuono, M and Zhang, A.M
Computer physics communications, ISSN 0010-4655, 03/2018, Volume 224, pp. 63 - 80
Viscous flow past a body | Tensile instability | Vortex flows | Smoothed Particle Hydrodynamics | High Reynolds numbers | [formula omitted]-SPH | Boundary layer | SPH | Physical Sciences | Computer Science, Interdisciplinary Applications | Technology | Physics, Mathematical | Computer Science | Physics | Science & Technology
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12. Full Text Prediction of slurry grinding due to media and coarse rock interactions in a 3D pilot SAG mill using a coupled DEM + SPH model
by Cleary, Paul W and Morrison, Rob D and Sinnott, Matt D
Minerals engineering, ISSN 0892-6875, 12/2020, Volume 159, p. 106614
Population balance model | Fine grinding | SPH | Coupled DEM and SPH | Slurry composition | DEM
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13. Full Text The δplus-SPH model: Simple procedures for a further improvement of the SPH scheme
by Sun, P.N and Colagrossi, A and Marrone, S and Zhang, A.M
Computer methods in applied mechanics and engineering, ISSN 0045-7825, 03/2017, Volume 315, pp. 25 - 49
Particle shifting | Smoothed particle hydrodynamics | Tensile instability | Free-surface flows | Weakly-compressibility | [formula omitted]-SPH | δ-SPH | Mathematics, Interdisciplinary Applications | Engineering | Physical Sciences | Technology | Engineering, Multidisciplinary | Mechanics | Mathematics | Science & Technology | Compressibility | Stability | Continuity equation | Dissipation | Mathematical models | High frequencies | Irregularities | Continuity (mathematics) | Fragmentation
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