All Stories

  1. Volume conservation issue within SPH models for long-time simulations of violent free-surface flows
  2. A regularized high-order diffusive smoothed particle hydrodynamics scheme without tensile instability
  3. A numerical investigation on three-dimensional swirling instability in viscous sloshing flows
  4. Derivation of an improved smoothed particle hydrodynamics model for establishing a three-dimensional numerical wave tank overcoming excessive numerical dissipation
  5. Clone particles: A simplified technique to enforce solid boundary conditions in SPH
  6. Numerical Calculation of Slosh Dissipation
  7. Energy dissipation in violent three-dimensional sloshing flows induced by high-frequency vertical accelerations
  8. A novel multi-resolution technique for solving complex vorticity patterns in planar viscous flows past bodies through the DVH method
  9. Intermittency patterns in the chaotic transition of the planar flow past a circular cylinder
  10. An accurate and robust axisymmetric SPH method based on Riemann solver with applications in ocean engineering
  11. Numerical study on the dissipation mechanisms in sloshing flows induced by violent and high-frequency accelerations. I. Theoretical formulation and numerical investigation
  12. Numerical study on the dissipation mechanisms in sloshing flows induced by violent and high-frequency accelerations. II. Comparison against experimental data
  13. Da Vinci's observation of turbulence: A French-Italian study aiming at numerically reproducing the physics behind one of his drawings, 500 years later
  14. Regimes identification of the viscous flow past an elliptic cylinder for Reynolds number up to 10000
  15. General isotropic micropolar fluid model in smoothed particle hydrodynamics
  16. Smoothed particle hydrodynamics method from a large eddy simulation perspective. Generalization to a quasi-Lagrangian model
  17. A global analysis of a coupled violent vertical sloshing problem using an SPH methodology
  18. Bifurcations and chaos transition of the flow over an airfoil at low Reynolds number varying the angle of attack
  19. Shear-viscosity-independent bulk-viscosity term in smoothed particle hydrodynamics
  20. A consistent approach to particle shifting in the δ-
  21. Viscous flow past a cylinder close to a free surface: Benchmarks with steady, periodic and metastable responses, solved by meshfree and mesh-based schemes
  22. Extreme wave impacts on a wave energy converter: load prediction through a SPH model
  23. A dynamic δ-SPH model: How to get rid of diffusive parameter tuning
  24. Energy balance during generation, propagation and absorption of gravity waves through the δ-LES-SPH model
  25. Multiple bifurcations of the flow over stalled airfoils when changing the Reynolds number
  26. Numerical simulations of the transition from laminar to chaotic behaviour of the planar vortex flow past a circular cylinder
  27. On the filtering of acoustic components in weakly-compressible SPH simulations
  28. SPH energy conservation for fluid–solid interactions
  29. Smoothed particle hydrodynamics method from a large eddy simulation perspective
  30. SPH modelling of viscous flow past a circular cylinder interacting with a free surface
  31. The δplus-SPH model: Simple procedures for a f...
  32. Particle Methods for Viscous Flows: Analogies and Differences Between the SPH and DVH Methods
  33. Low Reynolds Flow Past a Circular Cylinder Close to a Free-Surface With Vertical Motion Dynamics
  34. Detection of Lagrangian Coherent Structures in the SPH framework
  35. Analysis of free-surface flows through energy considerations: Single-phase versus two-phase modeling
  36. Simulating 2D viscous flow around geometries with vertices through the Diffused Vortex Hydrodynamics method
  37. Energy-decomposition analysis for viscous free-surface flows
  38. Computation of flow features and hydrodynamic coefficients around heave plates oscillating near a seabed
  39. The Diffused Vortex Hydrodynamics Method
  40. Energy balance in the δ-SPH scheme
  41. Numerical simulation of 2D-vorticity dynamics using particle methods
  42. High Froude Number Viscous Flow Past a Circular Cylinder
  43. Prediction of energy losses in water impacts using incompressible and weakly compressible models
  44. A measure of spatial disorder in particle methods
  45. Numerical Investigation of the Flow Features Around Heave Plates Oscillating Close to a Free Surface or Seabed
  46. Viscous Flow Past a Circular Cylinder Below a Free Surface
  47. Mechanical energy dissipation induced by sloshing and wave breaking in a fully coupled angular motion system. I. Theoretical formulation and numerical investigation
  48. Mechanical energy dissipation induced by sloshing and wave breaking in a fully coupled angular motion system. II. Experimental investigation
  49. Nonlinear water wave interaction with floating bodies in SPH
  50. Viscous bubbly flows simulation with an interface SPH model
  51. An accurate SPH modeling of viscous flows around bodies at low and moderate Reynolds numbers
  52. A critical investigation of smoothed particle hydrodynamics applied to problems with free‐surfaces
  53. A Classification of Shallow Water Resonant Sloshing in a Rectangular Tank
  54. SPH Multiphase Simulation of Bubbly Flows: Towards Oil and Water Separation
  55. Smoothed Particle Hydrodynamics: Benchmarking on Selected Test Cases Within the NextMuSE Initiative
  56. Numerical and Experimental Investigation of Nonlinear Shallow Water Sloshing
  57. The damping of viscous gravity waves
  58. Smoothed-particle-hydrodynamics modeling of dissipation mechanisms in gravity waves
  59. Numerical diffusive terms in weakly-compressible SPH schemes
  60. Conservation of circulation in SPH for 2D free‐surface flows
  61. Study of ship wave breaking patterns using 3D parallel SPH simulations
  62. The fluid mechanics of splashing bow waves on ships: A hybrid BEM–SPH analysis
  63. Particle packing algorithm for SPH schemes
  64. Simulating 2D open-channel flows through an SPH model
  65. Two-dimensional modal method for shallow-water sloshing in rectangular basins
  66. A 2D+t SPH model to study the breaking wave pattern generated by fast ships
  67. Publisher’s Note: Theoretical analysis and numerical verification of the consistency of viscous smoothed-particle-hydrodynamics formulations in simulating free-surface flows [Phys. Rev. E84, 026705 (2011)]
  68. Theoretical analysis and numerical verification of the consistency of viscous smoothed-particle-hydrodynamics formulations in simulating free-surface flows
  69. Theoretical Analysis of the No-Slip Boundary Condition Enforcement in SPH Methods
  70. Propagation of gravity waves through an SPH scheme with numerical diffusive terms
  71. δ-SPH model for simulating violent impact flows
  72. Next-generation Multi-mechanics Simulation Engine in a Highly Interactive Environment
  73. Fast free-surface detection and level-set function definition in SPH solvers
  74. Free-surface flows solved by means of SPH schemes with numerical diffusive terms
  75. A study of violent sloshing wave impacts using an improved SPH method
  76. An Hamiltonian interface SPH formulation for multi-fluid and free surface flows
  77. A simple procedure to improve the pressure evaluation in hydrodynamic context using the SPH
  78. Theoretical considerations on the free-surface role in the smoothed-particle-hydrodynamics model
  79. A set of canonical problems in sloshing, Part I: Pressure field in forced roll—comparison between experimental results and SPH
  80. Gridless simulations of splashing processes and near-shore bore propagation
  81. Pipe-Soil Interaction: An Evaluation of a Numerical Model
  82. Numerical simulation of interfacial flows by smoothed particle hydrodynamics