#microfluidics #Glasgow
@UofGSciEng Looks cool. #MoFEM simulation done just for pure fun. I will run it for longer. (BTW note cool hanging node mesh refinement)

An example of an error indicator is driven non-conforming mesh adaptivity for #advection problem using upwind high order #DG. Wind velocity is discretised by vector potential function in H1 one space. #MOFEM can do very cool things. That technology is implemented for 2d/3d problems. #FEM #FEA #HPC

Example #code is here:
http://mofem.eng.gla.ac.uk/mofem/html/tutorial_level_set.html

Working on a tutorial in #MoFEM for upwind #Discontinuous #Galerkin (#DG) for advection of #LevelSet. Cool progress, but a bit of work still to do.

#FEM #science

In the tutorial, I show how to build infrastructure for code and method testing, checking constituency between skeleton and volume integral and consistency between the right-hand side and tangent matrix.

http://mofem.eng.gla.ac.uk/mofem/html/tutorial_level_set.html

Squeezed elastoplastic tube in #MoFEM using multifield plasticity approach.
A benchmark case for a field-split block solver with problem-tailored Schur complement precondition. The paper with this example is in the final stage of internal revision, just before submission. #Simulation #FEA #FEM #Plasticity #HPC

Squeezed elastoplastic tube in #MoFEM using multifield plasticity approach.
A benchmark case for a field-split block solver with problem-tailored Schur complement precondition. The paper with this example is in the final stage of internal revision, just before submission. #SimulationFriday #HPC

Squeezed elastoplastic tube in #MoFEM using multifield plasticity approach.
A benchmark case for a field-split block solver with problem-tailored Schur complement precondition. The paper with this example is in the final stage of internal revision, just before submission. #SimulationFriday #HPC

Some very preliminary results on macrosegregation lead & tin alloy by Richard Olley for his first #UKACM conference in #Warwick Univerity. #FEA

The colour shows the lead concentration, and the lines are velocities in the fluid phase. The container is cooled on the sides.

Implementation in #MoFEM,

Seminars. Andrei Shvarts presents today to the Materials & Manufacturing Research Group
at 3 pm at Glasgow University, the simulation of Triboelectric Energy Harvesting (TENG) and his work in #MoFEM.