Current achievements and future perspectives for projection-based particle methods with applications in ocean engineering

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[3]  Salvatore Marrone,et al.  Coupling of Smoothed Particle Hydrodynamics with Finite Volume method for free-surface flows , 2016, J. Comput. Phys..

[4]  Benedict D. Rogers,et al.  Incompressible-compressible flows with a transient discontinuous interface using smoothed particle hydrodynamics (SPH) , 2016, J. Comput. Phys..

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[12]  Axel Klar,et al.  Numerical simulation of wetting phenomena by a meshfree particle method , 2014, J. Comput. Appl. Math..

[13]  Yee-Chung Jin,et al.  Investigation of non-deformable and deformable landslides using meshfree method , 2015 .

[14]  Benedict D. Rogers,et al.  Multi-phase SPH modelling of violent hydrodynamics on GPUs , 2015, Comput. Phys. Commun..

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[16]  R. Dalrymple,et al.  SPH modeling of dynamic impact of tsunami bore on bridge piers , 2015 .

[17]  Bin Chen,et al.  A contoured continuum surface force model for particle methods , 2015, J. Comput. Phys..

[18]  James J. Feng,et al.  An incompressible smoothed particle hydrodynamics method for the motion of rigid bodies in fluids , 2015, J. Comput. Phys..

[19]  A. Tayebi,et al.  Development of Moving Particle Explicit (MPE) method for incompressible flows , 2015 .

[20]  Xudong Fu,et al.  Incompressible SPH scour model for movable bed dam break flows , 2015 .

[21]  Dominique Laurence,et al.  DNS and LES of 3-D wall-bounded turbulence using Smoothed Particle Hydrodynamics , 2015 .

[22]  Damien Violeau,et al.  Buoyancy modelling with incompressible SPH for laminar and turbulent flows , 2015 .

[23]  Abbas Khayyer,et al.  Corrected higher order Laplacian for enhancement of pressure calculation by projection-based particle methods with applications in ocean engineering , 2015 .

[24]  Damien Violeau,et al.  Optimal time step for incompressible SPH , 2015, J. Comput. Phys..

[25]  A. Colagrossi,et al.  Prediction of energy losses in water impacts using incompressible and weakly compressible models , 2015 .

[26]  B. Rogers,et al.  An incompressible SPH scheme with improved pressure predictions for free-surface generalised Newtonian flows , 2015 .

[27]  Salvatore Marrone,et al.  Numerical Simulations of the Flow Past Surface-Piercing Objects , 2015 .

[28]  Makoto Sueyoshi,et al.  Free surface flow impacting on an elastic structure: Experiment versus numerical simulation , 2015 .

[29]  Mostafa Safdari Shadloo,et al.  Numerical Simulation of Long Wave Runup for Breaking and Nonbreaking Waves , 2015 .

[30]  Corrado Altomare,et al.  Applicability of Smoothed Particle Hydrodynamics for estimation of sea wave impact on coastal structures , 2015 .

[31]  Abbas Khayyer,et al.  Space potential particles to enhance the stability of projection-based particle methods , 2015 .

[32]  P. Hopkins A new class of accurate, mesh-free hydrodynamic simulation methods , 2014, 1409.7395.

[33]  H. Gotoh,et al.  MPS-BASED SIMULATION OF SCOURING DUE TO SUBMERGED VERTICAL JET WITH SUB-PARTICLE-SCALE SUSPENDED LOAD MODEL , 2015 .

[34]  S. Marrone,et al.  A consistent continuous particle reordering in weakly-compressible SPH through an ALE formalism , 2015 .

[35]  Jong-Chun Park,et al.  An Enhanced Fully Lagrangian Coupled MPS-based Solver for Fluid-Structure Interactions , 2015 .

[36]  Benedict D. Rogers,et al.  Numerical predictions of water–air wave slam using incompressible–compressible smoothed particle hydrodynamics , 2015 .

[37]  P. Lin,et al.  ISPH wave simulation by using an internal wave maker , 2015 .

[38]  Xing Zheng,et al.  Comparative study of different SPH schemes on simulating violent water wave impact flows , 2014 .

[39]  Ling Qian,et al.  A compressible multiphase flow model for violent aerated wave impact problems , 2014, Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences.

[40]  Q. W. Ma,et al.  Incompressible SPH method based on Rankine source solution for violent water wave simulation , 2014, J. Comput. Phys..

[41]  Gaurav Tomar,et al.  An improved free surface modeling for incompressible SPH , 2014 .

[42]  Hitoshi Gotoh,et al.  Development of a fully Lagrangian MPS-based coupled method for simulation of fluid-structure interaction problems , 2014 .

[43]  S. Yoshimura,et al.  Improved MPS-FE Fluid-Structure Interaction CoupledMethod with MPS PolygonWall Boundary Model , 2014 .

[44]  Robert A. Dalrymple,et al.  Three-dimensional reversed horseshoe vortex structures under broken solitary waves , 2014 .

[45]  Kohei Murotani,et al.  MPS–FEM PARTITIONED COUPLING APPROACH FOR FLUID–STRUCTURE INTERACTION WITH FREE SURFACE FLOW , 2014 .

[46]  Taro Arikawa,et al.  On enhancement of Incompressible SPH method for simulation of violent sloshing flows , 2014 .

[47]  D. Touzé,et al.  A coupled MPS-FEM model for the analysis of violent flows-structures interaction , 2014 .

[48]  Christophe Kassiotis,et al.  Unified semi-analytical wall boundary conditions applied to 2-D incompressible SPH , 2014, J. Comput. Phys..

[49]  Sung-Chul Hwang,et al.  Two-Dimensional Particle Simulation for Behaviors of Floating Body near Quaywall during Tsunami , 2014 .

[50]  A. Mayrhofer AN INVESTIGATION INTO WALL BOUNDARY CONDITIONS AND THREE-DIMENSIONAL TURBULENT FLOWS USING SMOOTHED PARTICLE HYDRODYNAMICS , 2014 .

[51]  Wei Gao Qiao,et al.  Simulation and Optimization of B-Pillar Crashworthiness Based on Virtual Test , 2014 .

[52]  D. Touzé,et al.  Coupled MPS-FEM Model for Violent Flows-Structures Interaction , 2014 .

[53]  R. Dalrymple,et al.  Three-Dimensional SPH Modeling of a Bar/Rip Channel System , 2014 .

[54]  K. Liao,et al.  Numerical Simulation of Free Surface Flow Impacting on an Elastic Plate , 2014 .

[55]  Abbas Khayyer,et al.  A New Surface Tension Model for Particle Methods with Enhanced Splash Computation , 2014 .

[56]  Damien Violeau,et al.  On the maximum time step in weakly compressible SPH , 2014, J. Comput. Phys..

[57]  Andrea Colagrossi,et al.  A critical investigation of smoothed particle hydrodynamics applied to problems with free‐surfaces , 2013 .

[58]  A. Skillen,et al.  Incompressible smoothed particle hydrodynamics (SPH) with reduced temporal noise and generalised Fickian smoothing applied to body–water slam and efficient wave–body interaction , 2013 .

[59]  Liu Chao Qiu,et al.  OpenCL-Based GPU Acceleration of ISPH Simulation for Incompressible Flows , 2013 .

[60]  Abbas Khayyer,et al.  A short note on Dynamic Stabilization of Moving Particle Semi-implicit method , 2013 .

[61]  K. Kakuda,et al.  Three-dimensional Fluid Flow Simulations UsingGPU-based Particle Method , 2013 .

[62]  Hitoshi Gotoh,et al.  Computational Wave Dynamics , 2013 .

[63]  Hitoshi Gotoh,et al.  Enhancement of performance and stability of MPS mesh-free particle method for multiphase flows characterized by high density ratios , 2013, J. Comput. Phys..

[64]  Christian Ulrich,et al.  Multi-physics SPH simulation of complex marine-engineering hydrodynamic problems , 2013 .

[65]  Nikolaus A. Adams,et al.  A transport-velocity formulation for smoothed particle hydrodynamics , 2013, J. Comput. Phys..

[66]  Benedict D. Rogers,et al.  Investigation of wall bounded flows using SPH and the unified semi-analytical wall boundary conditions , 2013, Comput. Phys. Commun..

[67]  Masoud Montazeri Namin,et al.  Moving particle method for modeling wave interaction with porous structures , 2013 .

[68]  Stefano Sibilla,et al.  3D SPH modelling of hydraulic jump in a very large channel , 2013 .

[69]  誠一 越塚,et al.  陽的MPS法とHamiltonian MPS法を用いた3次元流体-構造連成解析手法の開発 , 2013 .

[70]  Jose L. Cercos-Pita,et al.  On the consistency of MPS , 2013, Comput. Phys. Commun..

[71]  Ashkan Rafiee,et al.  A simple SPH algorithm for multi‐fluid flow with high density ratios , 2013 .

[72]  Dominique Laurence,et al.  Unified semi‐analytical wall boundary conditions for inviscid, laminar or turbulent flows in the meshless SPH method , 2013 .

[73]  Moo-Hyun Kim,et al.  A Particle Simulation of 2-D Vessel Motions Interactingwith Liquid-Sloshing Cargo , 2013 .

[74]  Ibrahim Hassan,et al.  Modeling unsteady flow characteristics using smoothed particle hydrodynamics , 2013 .

[75]  Xin Liu,et al.  An improved incompressible SPH model for simulation of wave–structure interaction , 2013 .

[76]  Junichiro Makino,et al.  A DENSITY-INDEPENDENT FORMULATION OF SMOOTHED PARTICLE HYDRODYNAMICS , 2012, 1202.4277.

[77]  D. Violeaua,et al.  Numerical Modelling of Boom and Oil Spill with SPH , 2013 .

[78]  Leigh McCue,et al.  Free-surface flow interactions with deformable structures using an SPH–FEM model , 2012 .

[79]  Salvatore Marrone,et al.  Numerical diffusive terms in weakly-compressible SPH schemes , 2012, Comput. Phys. Commun..

[80]  Murray Rudman,et al.  Comparative study on the accuracy and stability of SPH schemes in simulating energetic free-surface flows , 2012 .

[81]  Abbas Yeganeh-Bakhtiary,et al.  Lagrangian coupling two-phase flow model to simulate current-induced scour beneath marine pipelines , 2012 .

[82]  Jose L. Cercos-Pita,et al.  A Boundary Integral SPH Formulation --- Consistency and Applications to ISPH and WCSPH --- , 2012 .

[83]  Songdong Shao,et al.  Incompressible smoothed particle hydrodynamics simulation of multifluid flows , 2012 .

[84]  Hitoshi Gotoh,et al.  A 3D higher order Laplacian model for enhancement and stabilization of pressure calculation in 3D MPS-based simulations , 2012 .

[85]  Nikolaus A. Adams,et al.  A generalized wall boundary condition for smoothed particle hydrodynamics , 2012, J. Comput. Phys..

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[88]  W. Dehnen,et al.  Improving convergence in smoothed particle hydrodynamics simulations without pairing instability , 2012, 1204.2471.

[89]  J. Kano,et al.  Wettability Model Considering Three-Phase Interfacial Energetics in Particle Method , 2012 .

[90]  Mario Gallati,et al.  SPH Simulation of Sediment Flushing Induced by a Rapid Water Flow , 2012 .

[91]  Katsuji Tanizawa,et al.  Lagrangian simulations of ship-wave interactions in rough seas , 2012 .

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[95]  Jie Ouyang,et al.  A mixed corrected symmetric SPH (MC-SSPH) method for computational dynamic problems , 2012, Comput. Phys. Commun..

[96]  Hitoshi Gotoh,et al.  GPU-acceleration for Moving Particle Semi-Implicit method , 2011 .

[97]  Alain Combescure,et al.  Three dimensional SPH-FEM gluing for simulation of fast impacts on concrete slabs , 2011 .

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[102]  James J. Feng,et al.  Pressure boundary conditions for computing incompressible flows with SPH , 2011, J. Comput. Phys..

[103]  Modified Algorithm for Surface Tension with Smoothed Particle Hydrodynamics and Its Applications , 2011 .

[104]  B. Rogers,et al.  GPUs, a New Tool of Acceleration in CFD: Efficiency and Reliability on Smoothed Particle Hydrodynamics Methods , 2011, PloS one.

[105]  Matteo Antuono,et al.  Theoretical Analysis of the No-Slip Boundary Condition Enforcement in SPH Methods , 2011 .

[106]  Hitoshi Gotoh,et al.  Enhancement of stability and accuracy of the moving particle semi-implicit method , 2011, J. Comput. Phys..

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[109]  Seiichi Koshizuka,et al.  Current Achievements and Future Perspectives on Particle Simulation Technologies for Fluid Dynamics and Heat Transfer , 2011 .

[110]  Masanori Kikuchi,et al.  Solid-Liquid Flows Simulation for Debris Avalanche Analysis , 2011 .

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[112]  R. Fatehi,et al.  Error estimation in smoothed particle hydrodynamics and a new scheme for second derivatives , 2011, Comput. Math. Appl..

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[116]  Ioan Nistor,et al.  A corrected 3-D SPH method for breaking tsunami wave modelling , 2011, Natural Hazards.

[117]  Zhaochen Sun,et al.  Simulation of wave impact on a horizontal deck based on SPH method , 2010 .

[118]  G. Oger,et al.  SPH simulation of green water and ship flooding scenarios , 2010 .

[119]  P. M. Guilcher,et al.  Simulations of Hydro-Elastic Impacts Using a Parallel SPH Model , 2010 .

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[121]  H. Ichikawa,et al.  Smooth particle approach for surface tension calculation in moving particle semi-implicit method , 2010 .

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[125]  Bin Chen,et al.  Numerical Simulation of Taylor Bubble Formation in Micro-channel by MPS Method , 2010 .

[126]  Abbas Khayyer,et al.  A higher order Laplacian model for enhancement and stabilization of pressure calculation by the MPS method , 2010 .

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[130]  David Le Touzé,et al.  An Hamiltonian interface SPH formulation for multi-fluid and free surface flows , 2009, J. Comput. Phys..

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