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  1. 2-D SPH modelling of poroelasticity: u-

    Article • Computers and Geotechnics, March 2025, Elsevier

    Professor Benedict D. Rogers

  2. Multiphysics Coupling Using SPH for Coastal Structures Subject to Tsunami-Driven Hydrodynamic and Debris Impact Loads

    Article • Journal of Waterway Port Coastal and Ocean Engineering, January 2025, American Society of Civil Engineers (ASCE)

    Professor Benedict D. Rogers

  3. Investigation of Flooded Bridge Piers Using a Coupled SPH-DEM Approach

    Article • December 2024, Springer Science + Business Media

    Professor Benedict D. Rogers

  4. Shore-Side Downfall Pressures Due to Waves Impacting a Vertical Seawall: An Experimental Study

    Article • Journal of Marine Science and Engineering, November 2024, MDPI AG

    Professor Benedict D. Rogers

  5. Buoyancy-driven circulation and multi-component mixing using SPH with a new adiabatic boundary condition

    Article • International Journal of Heat and Mass Transfer, November 2024, Elsevier

    Professor Benedict D. Rogers

  6. Benchmark of computational hydraulics models for open-channel flow with lateral cavities

    Article • Journal of Hydraulic Research, September 2024, Taylor & Francis

    Professor Benedict D. Rogers

  7. A general smoothed particle hydrodynamics (SPH) formulation for coupled liquid flow and solid deformation in porous media

    Article • Computer Methods in Applied Mechanics and Engineering, February 2024, Elsevier

    Professor Benedict D. Rogers

  8. Large eddy simulations of bubbly flows and breaking waves with smoothed particle hydrodynamics

    Article • Journal of Fluid Mechanics, October 2023, Cambridge University Press

    Professor Benedict D. Rogers

  9. The loading on a vertical cylinder in steep and breaking waves on sheared currents using smoothed particle hydrodynamics

    Article • Physics of Fluids, August 2023, American Institute of Physics

    Professor Benedict D. Rogers

  10. A numerical flume for waves on variable sheared currents using smoothed particle hydrodynamics (SPH) with open boundaries

    Article • Applied Ocean Research, June 2023, Elsevier

    Professor Benedict D. Rogers

  11. Numerical study on the structural response of a masonry arch bridge subject to flood flow and debris impact

    Article • Structures, February 2023, Elsevier

    Professor Benedict D. Rogers

  12. Mitigating tsunami effects on buildings via novel use of discrete onshore protection systems

    Article • Coastal Engineering Journal, January 2023, Taylor & Francis

    Professor Benedict D. Rogers

  13. Simulation of floating debris in SPH shallow water flow model with tsunami application

    Article • Advances in Water Resources, January 2023, Elsevier

    Professor Benedict D. Rogers

  14. Two-phase fully-coupled smoothed particle hydrodynamics (SPH) model for unsaturated soils and its application to rainfall-induced slope collapse

    Article • Computers and Geotechnics, November 2022, Elsevier

    Professor Benedict D. Rogers

  15. Focused wave interaction with a partially-immersed rectangular box using 2-D incompressible SPH on a GPU comparing with experiment and linear theory

    Article • European Journal of Mechanics - B/Fluids, September 2022, Elsevier

    Professor Benedict D. Rogers

  16. Experimental and Numerical Investigation of Floating Large Woody Debris Impact on a Masonry Arch Bridge

    Article • Journal of Marine Science and Engineering, July 2022, MDPI AG

    Professor Benedict D. Rogers

  17. Eulerian incompressible smoothed particle hydrodynamics on multiple GPUs

    Article • Computer Physics Communications, April 2022, Elsevier

    Professor Benedict D. Rogers

  18. Implicit iterative particle shifting for meshless numerical schemes using kernel basis functions

    Article • Computer Methods in Applied Mechanics and Engineering, April 2022, Elsevier

    Professor Benedict D. Rogers

  19. Massively Parallel Particle Hydrodynamics at Exascale

    Article • Computing in Science & Engineering, January 2022, Institute of Electrical & Electronics Engineers (IEEE)

    Professor Benedict D. Rogers

  20. Preface: Special Issue on Advances and Applications of SPH in Ocean Engineering

    Article • Applied Ocean Research, January 2022, Elsevier

    Professor Benedict D. Rogers

  21. Flood-Induced Hydrodynamic and Debris Impact Forces on Single-Span Masonry Arch Bridge

    Article • Journal of Hydraulic Engineering, November 2021, American Society of Civil Engineers (ASCE)

    Professor Benedict D. Rogers

  22. High-order consistent SPH with the pressure projection method in 2-D and 3-D

    Article • Journal of Computational Physics, November 2021, Elsevier

    Professor Benedict D. Rogers

  23. Large deformation analysis of granular materials with stabilized and noise-free stress treatment in smoothed particle hydrodynamics (SPH)

    Article • Computers and Geotechnics, October 2021, Elsevier

    Professor Benedict D. Rogers

  24. Seaweed ingress of cooling water intakes with predictions for Torness power station

    Article • Journal of Ocean Engineering and Marine Energy, September 2021, Springer Science + Business Media

    Professor Benedict D. Rogers

  25. Towards pseudo-spectral incompressible smoothed particle hydrodynamics (ISPH)

    Article • Computer Physics Communications, September 2021, Elsevier

    Professor Benedict D. Rogers

  26. A fluid–structure interaction model for free-surface flows and flexible structures using smoothed particle hydrodynamics on a GPU

    Article • Journal of Fluids and Structures, July 2021, Elsevier

    Professor Benedict D. Rogers

  27. Simulation of flow past a sphere on a rough bed using smoothed particle hydrodynamics (SPH)

    Article • Computational Particle Mechanics, June 2021, Springer Science + Business Media

    Professor Benedict D. Rogers

  28. Influence of Orientation and Arrangement of Structures on Tsunami Impact Forces: Numerical Investigation with Smoothed Particle Hydrodynamics

    Article • Journal of Waterway Port Coastal and Ocean Engineering, May 2021, American Society of Civil Engineers (ASCE)

    Professor Benedict D. Rogers

  29. DualSPHysics: from fluid dynamics to multiphysics problems

    Article • Computational Particle Mechanics, March 2021, Springer Science + Business Media

    Professor Benedict D. Rogers

  30. Grand challenges for Smoothed Particle Hydrodynamics numerical schemes

    Article • Computational Particle Mechanics, September 2020, Springer Science + Business Media

    Professor Benedict D. Rogers

  31. Review of smoothed particle hydrodynamics: towards converged Lagrangian flow modelling

    Article • Proceedings of the Royal Society A Mathematical Physical and Engineering Sciences, September 2020, Royal Society Publishing

    Professor Benedict D. Rogers

  32. Vector-based discrete element method for solid elastic materials

    Article • Computer Physics Communications, September 2020, Elsevier

    Professor Benedict D. Rogers

  33. High-order velocity and pressure wall boundary conditions in Eulerian incompressible SPH

    Article • Journal of Computational Physics, August 2020, Elsevier

    Professor Benedict D. Rogers

  34. New instability and mixing simulations using SPH and a novel mixing measure

    Article • Journal of Hydrodynamics, August 2020, Springer Science + Business Media

    Professor Benedict D. Rogers

  35. An incompressible smoothed particle hydrodynamics scheme for Newtonian/non‐Newtonian multiphase flows including semi‐analytical solutions for two‐phase inelastic Poiseuille flows

    Article • International Journal for Numerical Methods in Fluids, January 2020, Wiley

    Professor Benedict D. Rogers

  36. Modelling shore-side pressure distributions from violent wave breaking at a seawall

    Article • Proceedings of the Institution of Civil Engineers - Engineering and Computational Mechanics, September 2019, ICE Publishing

    Professor Benedict D. Rogers

  37. Local uniform stencil (LUST) boundary condition for arbitrary 3-D boundaries in parallel smoothed particle hydrodynamics (SPH) models

    Article • Computers & Fluids, August 2019, Elsevier

    Professor Benedict D. Rogers

  38. Flexible slender body fluid interaction: Vector-based discrete element method with Eulerian smoothed particle hydrodynamics

    Article • Computers & Fluids, January 2019, Elsevier

    Professor Benedict D. Rogers

  39. Numerical wave basin using incompressible smoothed particle hydrodynamics (ISPH) on a single GPU with vertical cylinder test cases

    Article • Computers & Fluids, January 2019, Elsevier

    Professor Benedict D. Rogers

  40. Eulerian weakly compressible smoothed particle hydrodynamics (SPH) with the immersed boundary method for thin slender bodies

    Article • Journal of Fluids and Structures, January 2019, Elsevier

    Professor Benedict D. Rogers

  41. New massively parallel scheme for Incompressible Smoothed Particle Hydrodynamics (ISPH) for highly nonlinear and distorted flow

    Article • Computer Physics Communications, December 2018, Elsevier

    Professor Benedict D. Rogers

  42. On the Coupling of Incompressible SPH with a Finite Element Potential Flow Solver for Nonlinear Free-Surface Flows

    Article • International Journal of Offshore and Polar Engineering, September 2018, International Society of Offshore and Polar Engineers

    Professor Benedict D. Rogers

  43. Multi-phase SPH model for simulation of erosion and scouring by means of the shields and Drucker–Prager criteria.

    Article • Advances in Water Resources, July 2018, Elsevier

    Professor Benedict D. Rogers

  44. Incompressible SPH (ISPH) with fast Poisson solver on a GPU

    Article • Computer Physics Communications, May 2018, Elsevier

    Professor Benedict D. Rogers

  45. An Eulerian–Lagrangian incompressible SPH formulation (ELI-SPH) connected with a sharp interface

    Article • Computer Methods in Applied Mechanics and Engineering, February 2018, Elsevier

    Professor Benedict D. Rogers

  46. Editorial: efficient design in a modern engineering world – the challenges

    Article • Proceedings of the Institution of Civil Engineers - Engineering and Computational Mechanics, September 2017, ICE Publishing

    Professor Benedict D. Rogers

  47. Landslides and tsunamis predicted by incompressible smoothed particle hydrodynamics (SPH) with application to the 1958 Lituya Bay event and idealized experiment

    Article • Proceedings of the Royal Society A Mathematical Physical and Engineering Sciences, March 2017, Royal Society Publishing

    Professor Benedict D. Rogers

  48. Smoothed Particle Hydrodynamics (SPH) modelling of transient heat transfer in pulsed laser ablation of Al and associated free-surface problems

    Article • Computational Materials Science, February 2017, Elsevier

    Professor Benedict D. Rogers

  49. Unsteady open boundaries for SPH using semi-analytical conditions and Riemann solver in 2D

    Article • Computer Physics Communications, January 2017, Elsevier

    Professor Benedict D. Rogers

  50. A multi-phase particle shifting algorithm for SPH simulations of violent hydrodynamics with a large number of particles

    Article • Journal of Hydraulic Research, September 2016, Taylor & Francis

    Professor Benedict D. Rogers

  51. Modelling of interaction between structure due to a tsunami wave

    Article • Proceedings of the Institution of Civil Engineers - Engineering and Computational Mechanics, September 2016, ICE Publishing

    Professor Benedict D. Rogers, Lee Cunningham

  52. Fixed and moored bodies in steep and breaking waves using SPH with the Froude–Krylov approximation

    Article • Journal of Ocean Engineering and Marine Energy, June 2016, Springer Science + Business Media

    Professor Benedict D. Rogers

  53. Modelling multi-phase liquid-sediment scour and resuspension induced by rapid flows using Smoothed Particle Hydrodynamics (SPH) accelerated with a Graphics Processing Unit (GPU)

    Article • Advances in Water Resources, June 2016, Elsevier

    Professor Benedict D. Rogers

  54. A theoretical model for quantifying expansion of intumescent coating under different heating conditions

    Article • Polymer Engineering & Science, March 2016, Wiley

    Professor Benedict D. Rogers

  55. Composite modelling of subaerial landslide–tsunamis in different water body geometries and novel insight into slide and wave kinematics

    Article • Coastal Engineering, March 2016, Elsevier

    Professor Benedict D. Rogers

  56. Incompressible–compressible flows with a transient discontinuous interface using smoothed particle hydrodynamics (SPH)

    Article • Journal of Computational Physics, March 2016, Elsevier

    Professor Benedict D. Rogers

  57. Variable resolution for SPH in three dimensions: Towards optimal splitting and coalescing for dynamic adaptivity

    Article • Computer Methods in Applied Mechanics and Engineering, March 2016, Elsevier

    Professor Benedict D. Rogers

  58. Smoothed particle hydrodynamics (SPH) for free-surface flows: past, present and future

    Article • Journal of Hydraulic Research, January 2016, Taylor & Francis

    Professor Benedict D. Rogers

  59. Multi-phase SPH modelling of violent hydrodynamics on GPUs

    Article • Computer Physics Communications, November 2015, Elsevier

    Professor Benedict D. Rogers

  60. DNS and LES of 3-D wall-bounded turbulence using Smoothed Particle Hydrodynamics

    Article • Computers & Fluids, July 2015, Elsevier

    Professor Benedict D. Rogers

  61. Automotive fuel cell sloshing under temporally and spatially varying high acceleration using GPU-based Smoothed Particle Hydrodynamics (SPH)

    Article • Advances in Engineering Software, May 2015, Elsevier

    Professor Benedict D. Rogers

  62. An incompressible SPH scheme with improved pressure predictions for free-surface generalised Newtonian flows

    Article • Journal of Non-Newtonian Fluid Mechanics, April 2015, Elsevier

    Professor Benedict D. Rogers

  63. On the approximate zeroth and first-order consistency in the presence of 2-D irregular boundaries in SPH obtained by the virtual boundary particle methods

    Article • International Journal for Numerical Methods in Fluids, March 2015, Wiley

    Professor Benedict D. Rogers

  64. Editorial

    Article • Proceedings of the Institution of Civil Engineers - Engineering and Computational Mechanics, March 2015, ICE Publishing

    Professor Benedict D. Rogers

  65. DualSPHysics: Open-source parallel CFD solver based on Smoothed Particle Hydrodynamics (SPH)

    Article • Computer Physics Communications, February 2015, Elsevier

    Professor Benedict D. Rogers

  66. Numerical predictions of water–air wave slam using incompressible–compressible smoothed particle hydrodynamics

    Article • Applied Ocean Research, January 2015, Elsevier

    Professor Benedict D. Rogers

  67. Boussinesq modelling of tsunami and storm wave impact

    Article • Proceedings of the Institution of Civil Engineers - Engineering and Computational Mechanics, September 2014, ICE Publishing

    Lee Cunningham, Professor Benedict D. Rogers

  68. Tsunami wave and structure interaction: an investigation with smoothed-particle hydrodynamics

    Article • Proceedings of the Institution of Civil Engineers - Engineering and Computational Mechanics, September 2014, ICE Publishing

    Lee Cunningham, Professor Benedict D. Rogers

  69. Numerical modelling of armour block sea breakwater with smoothed particle hydrodynamics

    Article • Computers & Structures, January 2014, Elsevier

    Professor Benedict D. Rogers

  70. Investigation of Wave-Structure Interaction Using State of the Art CFD Techniques

    Article • Open Journal of Fluid Dynamics, January 2014, Scientific Research Publishing, Inc,

    Professor Benedict D. Rogers

  71. Investigation of wall bounded flows using SPH and the unified semi-analytical wall boundary conditions

    Article • Computer Physics Communications, November 2013, Elsevier

    Professor Benedict D. Rogers

  72. Towards accelerating smoothed particle hydrodynamics simulations for free-surface flows on multi-GPU clusters

    Article • Journal of Parallel and Distributed Computing, November 2013, Elsevier

    Professor Benedict D. Rogers

  73. Incompressible smoothed particle hydrodynamics (SPH) with reduced temporal noise and generalised Fickian smoothing applied to body–water slam and efficient wave–body interaction

    Article • Computer Methods in Applied Mechanics and Engineering, October 2013, Elsevier

    Professor Benedict D. Rogers

  74. New multi-GPU implementation for smoothed particle hydrodynamics on heterogeneous clusters

    Article • Computer Physics Communications, August 2013, Elsevier

    Professor Benedict D. Rogers

  75. Shallow water SPH for flooding with dynamic particle coalescing and splitting

    Article • Advances in Water Resources, August 2013, Elsevier

    Professor Benedict D. Rogers

  76. Modelling sediment resuspension in industrial tanks using SPH

    Article • La Houille Blanche, April 2013, EDP Sciences

    Professor Benedict D. Rogers

  77. Variable resolution for SPH: A dynamic particle coalescing and splitting scheme

    Article • Computer Methods in Applied Mechanics and Engineering, April 2013, Elsevier

    Professor Benedict D. Rogers

  78. Understanding the behaviour of pulsed laser dry and wet micromachining processes by multi-phase smoothed particle hydrodynamics (SPH) modelling

    Article • Journal of Physics D Applied Physics, January 2013, Institute of Physics Publishing

    Professor Benedict D. Rogers

  79. iCOASST – INTEGRATING COASTAL SEDIMENT SYSTEMS

    Article • Coastal Engineering Proceedings, December 2012, Coastal Engineering Research Council

    alejandro Souza, Professor Benedict D. Rogers

  80. SPH for 3D floating bodies using variable mass particle distribution

    Article • International Journal for Numerical Methods in Fluids, November 2012, Wiley

    Professor Benedict D. Rogers

  81. An integrated model system for coastal flood prediction with a case history for Walcott, UK, on 9 November 2007

    Article • Journal of Flood Risk Management, November 2012, Wiley

    Professor Benedict D. Rogers

  82. SPHysics – development of a free-surface fluid solver – Part 1: Theory and formulations

    Article • Computers & Geosciences, November 2012, Elsevier

    Professor Benedict D. Rogers

  83. SPHysics – development of a free-surface fluid solver – Part 2: Efficiency and test cases

    Article • Computers & Geosciences, November 2012, Elsevier

    Professor Benedict D. Rogers

  84. SPH Modeling of Shallow Flow with Open Boundaries for Practical Flood Simulation

    Article • Journal of Hydraulic Engineering, June 2012, American Society of Civil Engineers (ASCE)

    Professor Benedict D. Rogers

  85. A correction for balancing discontinuous bed slopes in two-dimensional smoothed particle hydrodynamics shallow water modeling

    Article • International Journal for Numerical Methods in Fluids, May 2012, Wiley

    Professor Benedict D. Rogers

  86. Smoothed particle hydrodynamics method applied to pulsatile flow inside a rigid two-dimensional model of left heart cavity

    Article • International Journal for Numerical Methods in Biomedical Engineering, March 2012, Wiley

    Professor Benedict D. Rogers

  87. Unified semi-analytical wall boundary conditions for inviscid, laminar or turbulent flows in the meshless SPH method

    Article • International Journal for Numerical Methods in Fluids, March 2012, Wiley

    Professor Benedict D. Rogers

  88. Flood Wave Modeling Based on a Two-Dimensional Modified Wave Propagation Algorithm Coupled to a Full-Pipe Network Solver

    Article • Journal of Hydraulic Engineering, March 2012, American Society of Civil Engineers (ASCE)

    Professor Benedict D. Rogers

  89. Incompressible smoothed particle hydrodynamics for free-surface flows: A generalised diffusion-based algorithm for stability and validations for impulsive flows and propagating waves

    Article • Journal of Computational Physics, February 2012, Elsevier

    Professor Benedict D. Rogers

  90. Accurate particle splitting for smoothed particle hydrodynamics in shallow water with shock capturing

    Article • International Journal for Numerical Methods in Fluids, July 2011, Wiley

    Professor Benedict D. Rogers

  91. GPUs, a New Tool of Acceleration in CFD: Efficiency and Reliability on Smoothed Particle Hydrodynamics Methods

    Article • PLOS One, June 2011, PLOS

    Professor Benedict D. Rogers

  92. Smoothed Particle Hydrodynamics: Approximate zero-consistent 2-D boundary conditions and still shallow-water tests

    Article • International Journal for Numerical Methods in Fluids, April 2011, Wiley

    Professor Benedict D. Rogers

  93. Wave body interaction in 2D using smoothed particle hydrodynamics (SPH) with variable particle mass

    Article • International Journal for Numerical Methods in Fluids, January 2011, Wiley

    Professor Benedict D. Rogers

  94. On the approximation of local efflux/influx bed discharge in the shallow water equations based on a wave propagation algorithm

    Article • International Journal for Numerical Methods in Fluids, April 2010, Wiley

    Professor Benedict D. Rogers

  95. Foreword: SPH for free-surface flows

    Article • Journal of Hydraulic Research, January 2010, Taylor & Francis

    Professor Benedict D. Rogers

  96. Simulation of caisson breakwater movement using 2-D SPH

    Article • Journal of Hydraulic Research, January 2010, Taylor & Francis

    Professor Benedict D. Rogers

  97. State-of-the-art of classical SPH for free-surface flows

    Article • Journal of Hydraulic Research, January 2010, Taylor & Francis

    Professor Benedict D. Rogers

  98. The Effects of Building Representation and Clustering in Large-Eddy Simulations of Flows in Urban Canopies

    Article • Boundary-Layer Meteorology, July 2009, Springer Science + Business Media

    Professor Elie Bou-Zeid, Professor Benedict D. Rogers

  99. SPH MODELING OF TSUNAMI WAVES

    Article • September 2008, World Scientific Pub Co Pte Lt

    Professor Benedict D. Rogers

  100. Smoothed Particle Hydrodynamics for Water Waves

    Article • January 2007, ASME International

    Professor Benedict D. Rogers

  101. Numerical modeling of water waves with the SPH method

    Article • Coastal Engineering, February 2006, Elsevier

    Professor Benedict D. Rogers

  102. Godunov-type adaptive grid model of wave–current interaction at cuspate beaches

    Article • International Journal for Numerical Methods in Fluids, September 2004, Wiley

    Professor Benedict D. Rogers

  103. Mathematical balancing of flux gradient and source terms prior to using Roe’s approximate Riemann solver

    Article • Journal of Computational Physics, December 2003, Elsevier

    Professor Benedict D. Rogers

  104. GODUNOV-TYPE MODEL OF WAVE-INDUCED NEARSHORE CURRENTS AT A MULTI-CUSPED BEACH IN THE UKCRF

    Article • March 2003, World Scientific Pub Co Pte Lt

    Professor Benedict D. Rogers

  105. Q-Tree Model of Nearshore Flows at Multi-Cusps

    Article • March 2001, American Society of Civil Engineers (ASCE)

    Professor Benedict D. Rogers

  106. A numerical method for the determination of weakly non-hydrostatic non-linear free surface wave propagation

    Article • International Journal for Numerical Methods in Fluids, January 2001, Wiley

    Professor Benedict D. Rogers