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Publication DateJournal of Computational Physics, ISSN 0021-9991, 05/2016, Volume 313, pp. 76 - 98
This paper addresses the accuracy of the weakly-compressible SPH method. Interpolation defects due to the presence of anisotropic particle structures inherent...
Smooth SPH pressure fields | SPH accuracy | SPH convergence | Particle disordering | Arbitrary Lagrangian Eulerian | Weakly-compressible SPH | INSTABILITY | STABILITY | ALGORITHM | SMOOTHED PARTICLE HYDRODYNAMICS | PHYSICS, MATHEMATICAL | FREE-SURFACE FLOWS | COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS | CONVERGENCE | SIMULATIONS | SCHEMES | Fluid dynamics | Anisotropy | Beer | Accuracy | Mathematical analysis | Mathematical models | Transport | Inclusions | Formalism | Navier-Stokes equations | Engineering Sciences
Smooth SPH pressure fields | SPH accuracy | SPH convergence | Particle disordering | Arbitrary Lagrangian Eulerian | Weakly-compressible SPH | INSTABILITY | STABILITY | ALGORITHM | SMOOTHED PARTICLE HYDRODYNAMICS | PHYSICS, MATHEMATICAL | FREE-SURFACE FLOWS | COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS | CONVERGENCE | SIMULATIONS | SCHEMES | Fluid dynamics | Anisotropy | Beer | Accuracy | Mathematical analysis | Mathematical models | Transport | Inclusions | Formalism | Navier-Stokes equations | Engineering Sciences
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Loading RightsComputers and Fluids, ISSN 0045-7930, 09/2017, Volume 154, pp. 102 - 122
The present paper is concerned with the development of a new path-conservative meshless Lagrangian particle method (SPH), for the solution of non-conservative...
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 | COMPRESSIBLE 2-PHASE FLOW | RIEMANN SOLVER | WENO SCHEMES | SMOOTHED PARTICLE HYDRODYNAMICS | Comparison of different approximate | FREE-SURFACE FLOWS | SOURCE TERMS | GODUNOV METHOD | ORDER | COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS | MECHANICS | Riemann solvers: Rusanov | UNSTRUCTURED MESHES | FINITE-VOLUME SCHEMES | Fluid dynamics | Conservatism
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 | COMPRESSIBLE 2-PHASE FLOW | RIEMANN SOLVER | WENO SCHEMES | SMOOTHED PARTICLE HYDRODYNAMICS | Comparison of different approximate | FREE-SURFACE FLOWS | SOURCE TERMS | GODUNOV METHOD | ORDER | COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS | MECHANICS | Riemann solvers: Rusanov | UNSTRUCTURED MESHES | FINITE-VOLUME SCHEMES | Fluid dynamics | Conservatism
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Loading RightsApplied Ocean Research, ISSN 0141-1187, 03/2018, Volume 72, pp. 60 - 75
The present work is dedicated to the enhancement and application of the recently developed -SPH scheme for two and three dimensional water entry problems. The...
δ+-SPH | Smoothed particle hydrodynamics | Cylinder water entry | Boundary condition | Free-surface flows | SPH | VARIABLE RESOLUTION | FLUID-STRUCTURE INTERACTIONS | delta(+)-SPH | TENSILE INSTABILITY | REFINEMENT | SCHEME | IMPACT | ENGINEERING, OCEAN | OCEANOGRAPHY | DELTA-PLUS-SPH | NUMERICAL-SIMULATION
δ+-SPH | Smoothed particle hydrodynamics | Cylinder water entry | Boundary condition | Free-surface flows | SPH | VARIABLE RESOLUTION | FLUID-STRUCTURE INTERACTIONS | delta(+)-SPH | TENSILE INSTABILITY | REFINEMENT | SCHEME | IMPACT | ENGINEERING, OCEAN | OCEANOGRAPHY | DELTA-PLUS-SPH | NUMERICAL-SIMULATION
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Loading RightsJournal of Computational Physics, ISSN 0021-9991, 12/2016, Volume 326, pp. 290 - 311
The incompressible Smoothed Particle Hydrodynamics (ISPH) method is derived in Eulerian form with high-order smoothing kernels to provide increased accuracy...
Incompressible SPH | Eulerian SPH | High-order SPH | ALE-ISPH | VISCOUS FLOWS | BOUNDARY-CONDITIONS | SPH | PHYSICS, MATHEMATICAL | SCHEME | COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS | NAVIER-STOKES EQUATIONS | STABILITY ANALYSIS | CIRCULAR-CYLINDER | PROJECTION METHOD | FREE GALERKIN METHODS | DRIVEN CAVITY PROBLEM | Fluid dynamics | Analysis | Wave propagation
Incompressible SPH | Eulerian SPH | High-order SPH | ALE-ISPH | VISCOUS FLOWS | BOUNDARY-CONDITIONS | SPH | PHYSICS, MATHEMATICAL | SCHEME | COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS | NAVIER-STOKES EQUATIONS | STABILITY ANALYSIS | CIRCULAR-CYLINDER | PROJECTION METHOD | FREE GALERKIN METHODS | DRIVEN CAVITY PROBLEM | Fluid dynamics | Analysis | Wave propagation
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Loading RightsJournal of Computational Physics, ISSN 0021-9991, 10/2019, p. 109000
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Loading RightsJournal of Computational Physics, ISSN 0021-9991, 02/2018, Volume 354, pp. 552 - 575
While smoothed-particle hydrodynamics (SPH) simulations are usually performed using uniform particle distributions, local particle refinement techniques have...
Moving refinement area | SPH | SPH/SPH coupling | Adaptive Mesh Refinement (AMR) | Adaptive Particle Refinement (APR) | Smoothed particle disordering method | RIEMANN SOLVERS | HYDRODYNAMICS | PHYSICS, MATHEMATICAL | FREE-SURFACE FLOWS | COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS | FLUID | MESH REFINEMENT | BOUNDARY
Moving refinement area | SPH | SPH/SPH coupling | Adaptive Mesh Refinement (AMR) | Adaptive Particle Refinement (APR) | Smoothed particle disordering method | RIEMANN SOLVERS | HYDRODYNAMICS | PHYSICS, MATHEMATICAL | FREE-SURFACE FLOWS | COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS | FLUID | MESH REFINEMENT | BOUNDARY
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Loading RightsComputer Methods in Applied Mechanics and Engineering, ISSN 0045-7825, 03/2017, Volume 315, pp. 25 - 49
The present work is dedicated to the improvement of the -SPH scheme. This is an enhanced weakly-compressible SPH model widely used in recent years thanks to...
Particle shifting | Smoothed particle hydrodynamics | Tensile instability | Free-surface flows | Weakly-compressibility | [formula omitted]-SPH | δ-SPH | VISCOUS FLOWS | STABILITY | delta-SPH | ALGORITHM | STATE | SIMULATION | MATHEMATICS, INTERDISCIPLINARY APPLICATIONS | MECHANICS | ENGINEERING, MULTIDISCIPLINARY
Particle shifting | Smoothed particle hydrodynamics | Tensile instability | Free-surface flows | Weakly-compressibility | [formula omitted]-SPH | δ-SPH | VISCOUS FLOWS | STABILITY | delta-SPH | ALGORITHM | STATE | SIMULATION | MATHEMATICS, INTERDISCIPLINARY APPLICATIONS | MECHANICS | ENGINEERING, MULTIDISCIPLINARY
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Loading RightsComputer Physics Communications, ISSN 0010-4655, 03/2018, Volume 224, pp. 63 - 80
It is well known that the use of SPH models in simulating flow at high Reynolds numbers is limited because of the tensile instability inception in the fluid...
Viscous flow past a body | Tensile instability | Vortex flows | Smoothed Particle Hydrodynamics | High Reynolds numbers | [formula omitted]-SPH | Boundary layer | SPH | STABILITY | ALGORITHM | LAMINAR | delta(+)-SPH | PHYSICS, MATHEMATICAL | ACCURACY | FREE-SURFACE FLOWS | TRANSITION | COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS | VISCOUS-FLOW | IMPROVEMENTS | SCHEMES
Viscous flow past a body | Tensile instability | Vortex flows | Smoothed Particle Hydrodynamics | High Reynolds numbers | [formula omitted]-SPH | Boundary layer | SPH | STABILITY | ALGORITHM | LAMINAR | delta(+)-SPH | PHYSICS, MATHEMATICAL | ACCURACY | FREE-SURFACE FLOWS | TRANSITION | COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS | VISCOUS-FLOW | IMPROVEMENTS | SCHEMES
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Loading RightsEngineering Geology, ISSN 0013-7952, 01/2014, Volume 168, pp. 86 - 97
Geo-disasters result in serious loss of life and property, and prediction and prevention of these disasters is of great importance. The smoothed particle...
SPH method | Geo-disasters | Application research | Large deformation | Post failure behavior | BOUNDARY-CONDITIONS | 2-DIMENSIONAL SPH SIMULATIONS | TENSION INSTABILITY | INCOMPRESSIBLE SPH | DYNAMIC PROBLEMS | FLOW-LIKE LANDSLIDES | COUPLED SPH | DAM-BREAK | FREE-SURFACE FLOWS | GEOSCIENCES, MULTIDISCIPLINARY | ENGINEERING, GEOLOGICAL | NUMERICAL-SIMULATION | Fluid dynamics | Analysis | Methods
SPH method | Geo-disasters | Application research | Large deformation | Post failure behavior | BOUNDARY-CONDITIONS | 2-DIMENSIONAL SPH SIMULATIONS | TENSION INSTABILITY | INCOMPRESSIBLE SPH | DYNAMIC PROBLEMS | FLOW-LIKE LANDSLIDES | COUPLED SPH | DAM-BREAK | FREE-SURFACE FLOWS | GEOSCIENCES, MULTIDISCIPLINARY | ENGINEERING, GEOLOGICAL | NUMERICAL-SIMULATION | Fluid dynamics | Analysis | Methods
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Loading RightsComputer Methods in Applied Mechanics and Engineering, ISSN 0045-7825, 02/2018, Volume 329, pp. 532 - 552
An Eulerian–Lagrangian incompressible SPH (ELI-SPH) formulation is proposed that improves accuracy over a fully Lagrangian formulation for many problems. This...
Lagrangian SPH | Incompressible SPH | ALE | Eulerian SPH | Improved accuracy | Eulerian solid boundary conditions | MATHEMATICS, INTERDISCIPLINARY APPLICATIONS | MECHANICS | ENGINEERING, MULTIDISCIPLINARY | DIFFUSION | FLOWS | SMOOTHED PARTICLE HYDRODYNAMICS | Beer
Lagrangian SPH | Incompressible SPH | ALE | Eulerian SPH | Improved accuracy | Eulerian solid boundary conditions | MATHEMATICS, INTERDISCIPLINARY APPLICATIONS | MECHANICS | ENGINEERING, MULTIDISCIPLINARY | DIFFUSION | FLOWS | SMOOTHED PARTICLE HYDRODYNAMICS | Beer
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Loading RightsJournal of Computational Physics, ISSN 0021-9991, 08/2012, Volume 231, Issue 21, pp. 7057 - 7075
In this paper we present a new formulation of the boundary condition at static and moving solid walls in SPH simulations. Our general approach is both...
Boundary condition | Solid walls | SPH | COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS | MULTIPHASE SPH METHOD | MODELS | SIMULATIONS | FLOWS | PHYSICS, MATHEMATICAL | Aerodynamics | Analysis | Formulations | Computational fluid dynamics | Computer simulation | Fluid flow | Boundary conditions | Walls | Cylinders | Three dimensional
Boundary condition | Solid walls | SPH | COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS | MULTIPHASE SPH METHOD | MODELS | SIMULATIONS | FLOWS | PHYSICS, MATHEMATICAL | Aerodynamics | Analysis | Formulations | Computational fluid dynamics | Computer simulation | Fluid flow | Boundary conditions | Walls | Cylinders | Three dimensional
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Loading RightsEngineering Analysis with Boundary Elements, ISSN 0955-7997, 09/2019, Volume 106, pp. 571 - 587
The conventional SPH method does not perform well for simulating flows around rigid bodies. Especially, it is difficult to get convergent and accurate results...
Kernel gradient-free (KGF) | SPH (smoothed particles hydrodynamics) | Particle shifting technology (PST) | Airfoil | KGF-SPH | VISCOUS FLOWS | HYDRODYNAMICS SPH | BOUNDARY-CONDITION | FREE-SURFACE FLOWS | MATHEMATICS, INTERDISCIPLINARY APPLICATIONS | ENGINEERING, MULTIDISCIPLINARY | INCOMPRESSIBLE FLOWS | TRANSPORT-VELOCITY | CIRCULAR-CYLINDER | DELTA-PLUS-SPH | NUMERICAL-SIMULATION | Aerodynamics | Turbulence | Models | Analysis | Methods
Kernel gradient-free (KGF) | SPH (smoothed particles hydrodynamics) | Particle shifting technology (PST) | Airfoil | KGF-SPH | VISCOUS FLOWS | HYDRODYNAMICS SPH | BOUNDARY-CONDITION | FREE-SURFACE FLOWS | MATHEMATICS, INTERDISCIPLINARY APPLICATIONS | ENGINEERING, MULTIDISCIPLINARY | INCOMPRESSIBLE FLOWS | TRANSPORT-VELOCITY | CIRCULAR-CYLINDER | DELTA-PLUS-SPH | NUMERICAL-SIMULATION | Aerodynamics | Turbulence | Models | Analysis | Methods
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Loading RightsJournal of Computational Physics, ISSN 0021-9991, 2012, Volume 231, Issue 4, pp. 1499 - 1523
The incompressible smoothed particle hydrodynamics (ISPH) method with projection-based pressure correction has been shown to be highly accurate and stable for...
Free-surface flow simulation | Fick’s law | Truncated-kernel error | Incompressible SPH | Fick's law | SPH METHOD | COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS | SIMULATION | PHYSICS, MATHEMATICAL | Wave propagation | Algorithms | Fluid dynamics | Anisotropy | Stability | Computational fluid dynamics | Fluid flow | Hydrodynamics | Instability | Mathematical models | Diffusion
Free-surface flow simulation | Fick’s law | Truncated-kernel error | Incompressible SPH | Fick's law | SPH METHOD | COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS | SIMULATION | PHYSICS, MATHEMATICAL | Wave propagation | Algorithms | Fluid dynamics | Anisotropy | Stability | Computational fluid dynamics | Fluid flow | Hydrodynamics | Instability | Mathematical models | Diffusion
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Loading RightsJournal of Computational Physics, ISSN 0021-9991, 03/2017, Volume 332, pp. 236 - 256
The paper provides a comparative investigation on accuracy and conservation properties of two particle regularization schemes, namely, the Dynamic...
Accuracy | Conservation | Particle shifting | Incompressible SPH | Dynamic stabilization | Particle regularization schemes | Optimized particle shifting | INCOMPRESSIBLE SPH METHOD | STABILITY | MULTIPHASE FLOWS | ALGORITHM | HYDRODYNAMICS | PHYSICS, MATHEMATICAL | FREE-SURFACE FLOWS | COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS | TRANSPORT-VELOCITY | ENHANCEMENT
Accuracy | Conservation | Particle shifting | Incompressible SPH | Dynamic stabilization | Particle regularization schemes | Optimized particle shifting | INCOMPRESSIBLE SPH METHOD | STABILITY | MULTIPHASE FLOWS | ALGORITHM | HYDRODYNAMICS | PHYSICS, MATHEMATICAL | FREE-SURFACE FLOWS | COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS | TRANSPORT-VELOCITY | ENHANCEMENT
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Loading RightsInternational Journal of Multiphase Flow, ISSN 0301-9322, 2017, Volume 95, pp. 175 - 187
We present an approach to model collisions of different droplets using Smoothed Particle Hydrodynamics (SPH). We consider bouncing and coalescence of two...
ISPH | Bouncing | WCSPH | Free surface | SPH | Surface tension | Newtonian | Non-Newtonian | Coalescence | Droplet dynamic | FLUID-FLOW | ALGORITHM | INCOMPRESSIBLE SPH | SIMULATION | FREE-SURFACE FLOWS | SPH METHOD | MECHANICS | INTERFACE | MULTIPHASE SPH | LATTICE BOLTZMANN METHOD | Models | Fluid dynamics | Analysis | Force and energy
ISPH | Bouncing | WCSPH | Free surface | SPH | Surface tension | Newtonian | Non-Newtonian | Coalescence | Droplet dynamic | FLUID-FLOW | ALGORITHM | INCOMPRESSIBLE SPH | SIMULATION | FREE-SURFACE FLOWS | SPH METHOD | MECHANICS | INTERFACE | MULTIPHASE SPH | LATTICE BOLTZMANN METHOD | Models | Fluid dynamics | Analysis | Force and energy
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