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2-day course on Smoothed Particle Hydrodynamics (SPH)
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With world-leading authorities from research and industry,
this 2-day course on the SPH method will cover
basic theory, develop methodologies for modelling both
fluids (weakly compressible and incompressible), modelling
solids, high-performance computing and GPUs, hands-on
session with the open-source DualSPHysics code for real
applications, industrial perspectives, finishing with latest
state-of-the-art developments for SPH with exciting new
paradigms of variable
resolution and Eulerian SPH.
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| Date: |
April 10, 2018 - April 11, 2018
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| Location: |
University of Manchester, George Begg Building, Manchester, Manchester, United Kingdom
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| Web Page: |
http://www.mace.manchester.ac.uk/study/cpd/short-courses/smoothed-particle-hydrodynamics-%28sph%29-cpd-course/#d.en.608371
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| Contact Email: |
benedict.rogers@manchester.ac.uk
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| Organizer: |
Dr Benedict Rogers
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| Application Areas: |
Astrophysics, River and Coastal Engineering, Environmental, Maritime, Offshore and Ship Hydrodynamics, Nuclear Reactor Thermal Hydraulics, Oil, Gas & Petrochemical, General CFD, Hydraulics
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| Special Fields: |
Fluid-Structure Interaction, Non-Newtonian Flows, Multiphase Flows, Free-Surface & Sub-Surface Flows, Flows with Particles, Incompressible Flows, Fluid Mechancis, Scientific Computing, Smoothed Particle Hydrodynamics (SPH), High Performance Computing, GPU Simulations
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| Deadlines: |
March 31, 2018 (registration)
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| Type of Event: |
Workshop, International
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| Description: |
Smoothed particle hydrodynamics (SPH) is one of the most
exciting new areas in the field of computational fluid
dynamics and mechanics. The method is opening up the
possibility of research and application into fields that
were well beyond any modelling capability which are now
being actively pursued. The method can be applied to
fluids, solids, multiple phases and is ideal for highly
complex geometries and fluid-structure interaction where
mesh-based methods struggle.
This new course is suitable for researchers, developers and
users starting from the basics of the method through,
developing theory for both fluids and solids, and then how
the state-of-the-art method is applied to real applications
using the DualSPHysics open-source software.
We have invited world-renowned experts in SPH from both
universities and industry across Europe to give keynote
lectures.
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Event record first posted on January 18, 2018, last modified on January 25, 2018
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