Special Issue: "Advances in numerical modelling of oceanic fluid dynamics" in Engineering Applications of Computational Fluid Mechanics. Link of the special issue: https://t.co/vvpQZMhGOU. If any queries, please feel free to contact the guest editors.

We are delighted to announce that the open-source SPH code, DualSPHysics+, which is a modified version of the open-source DualSPHysics code @DualSPHysics, has been further enhanced to model hydroelastic FSI problems. The main novel feature corresponds to a tuning-parameter free

New Paper: https://t.co/TgOuUyXC2u

We are delighted to announce that an enhanced version of DualSPHysics @DualSPHysics for simulation of incompressible free-surface fluid flows has been released with respect to enhanced stability, accuracy, energy/volume conservation and the numerical resolution of the continuity

Postdoc positions available in my group @ Zhejiang University ( https://t.co/RWyarg9RrH) Topic 1: CFD simulation of breaking wave and/or breaking wave impact by using particle or mesh methods Topic 2: Fast prediction of wave/current fields by machine-learning-assisted computations

Two postdoc positions in my group ( https://t.co/RWyargqUtH). Topics: (1) Analysis and optimization of tuned liquid mass damper for bridge vibration control; (2) Machine learning reduced-order modelling for large- scale fluid flows.

Newly published paper in OE https://t.co/EAlxfU6817. An FDM-FEM viscous flow model is developed for wave interaction with submerged fluid-filled membrane breakwater. Wave dissipation properties of the breakwater under various operation conditions are investigated.

SPH Online IV Monday, September 12, 2022 (15:00 – 18:10 UTC) Focus Topic: Solids & Structures We look forward to welcoming you!

We have an exciting new PhD opportunity in collaboration with @JBAConsulting . Please see the link below for more information ! #PhD #engineering #flooding #machinelearning https://t.co/GGQ7u3ONoA

A familiar face joined us for our most recent WBR meeting. It was great to have @MinLuo_ZJU back (virtually). A really interesting presentation on his recent work relating the interaction of fluid flow with porous media using The Lagrangian particle method.

Start of a new set of experiments for Xin! #waves #overtopping #flume

We are looking forward to seeing to your contributions. You can find more information on the web: https://t.co/KmHau3jaQA

New Paper: A Comparative Study on the Accuracy and Conservation Properties of the SPH Method for Fluid Flow Interaction with Porous Media https://t.co/JMmeyZHu3I

Thanks for the @royalsociety International Exchange🇬🇧🇮🇹, I have the opportunity to work with Prof. Maurizio Brocchini & his team @UnivPoliMarche. Our Part 1 #BreakingWaves induced vortices has just been published in @JFluidMech https://t.co/bRih6EuInA & stay tuned for the next

A postdoc position about the development of an advanced multi-body SPH model and the use of it to investigate the hydrodynamic performance and efficiency of a marine energy harvester.

Particle methods in ocean and coastal engineering https://t.co/nSb7Ggz2zi