Скачать или смотреть Numerical simulation of landslides by coupling fluid-structure interaction

This is a validation case for high fidelity fluid-structure modelling by Dr. Pan Yang.

Min. ms_f: 0.1m
Max. ms_f: 5.0m
dt_f: 2e-3s
Fluid domain: 164m*60m
ms_s:0.25m
dt_s: 2e-6s

The code is the couple of Fluidity-Multiphase and FEMDEM-Y2D, both developed in Applied Modelling Computation Group (AMCG) at Imperial College London. For details about our open-source code, please refer to http://www.imperial.ac.uk/earth-scien... and GitHub repositories.

The fantastic adaptive mesh is implemented in Fluidity, which is an open source, general purpose, multiphase computational fluid dynamics code capable of numerically solving the Navier-Stokes equation and accompanying field equations on arbitrary unstructured finite element meshes in one, two and three dimensions. It is parallelised using MPI and is capable of scaling to many thousands of processors. Other innovative and novel features include the use of anisotropic adaptive mesh technology, and a user-friendly GUI and a Python interface which can be used to calculate diagnostic fields, set prescribed fields or set user-defined boundary conditions.

The specific cases are animated by Pan Yang. If given by the animations with ideas, please cite his papers shown as follow:
[1] Yang P, Xiang J, Fang F, Pavlidis D, Latham JP, Pain CC. Modelling of fluid-structure interaction with multiphase viscous flows using an immersed-body method. Journal of Computational Physics. 2016 Sep 15; 321:571-92.
[2] Xiao D, Yang P, Fang F, Xiang J, Pain CC, Navon IM. Non-intrusive reduced order modelling of fluid-structure interactions. Computer Methods in Applied Mechanics and Engineering. 2016 May 1; 303:35-54.
[3] Yang P, Xiang J, Chen M, Fang F, Pavlidis D, Latham JP, Pain CC. The immersed-body gas-solid interaction model for blast analysis in fractured solid media. International Journal of Rock Mechanics and Mining Sciences. 2017 Jan 31; 91:119-32.
[4] ●Xiao D, Yang P, Fang F, Xiang J, Pain CC, Navon IM, Chen M. A non-intrusive reduced-order model for compressible fluid and fractured solid coupling and its application to blasting. Journal of Computational Physics. 2017 Feb 1; 330:221-44.
[5] ●Yang P, Xiang J, Fang F, Pavlidis D, Pain CC. Turbulence modelling with fluid-structure interaction using an immersed-body method, Journal of Computational Physics, 2017 August 29, Submitted.
[6] ●Latham J-P, Yang P, Lei Q, Obeysekara A, Salinas P, Pavlidis D, Xiang J, and Pain CC. Blast fragmentation in rock with discontinuities using an equation of state gas model coupled to a transient dynamics fracturing and fragmenting FEMDEM model, American Rock Mechanics Association (ARMA), 2017 June 28; 17-703. (CONFERENCE)