Commit 608f40e1 authored by Praetorius, Simon's avatar Praetorius, Simon

2 navierstokes demos added

parent 3b142e78
dimension of world: 2
% ====================== VARIABLES ========================
output_folder: output
output_postfix: _phase
mesh_name: mesh
polynomial-degree: 1
% ====================== MESH =============================
mesh->H: 4.1
obstacle->center: [2, 2]
obstacle->radius: 0.5
obstacle->num vertices: 7
obstacle->vertex[0]: [1.5, 2]
obstacle->vertex[1]: [2, 2.5]
%obstacle->vertex[2]: [2.5, 2]
%obstacle->vertex[3]: [2, 1.5]
obstacle->vertex[2]: [2.5, 2.05]
obstacle->vertex[3]: [4.5, 2.05]
obstacle->vertex[4]: [4.5, 1.95]
obstacle->vertex[5]: [2.5, 1.95]
obstacle->vertex[6]: [2, 1.5]
obstacle->P: 0.2
mesh->refinement->initial level: 4
mesh->refinement->level on interface: 12
mesh->refinement->level in inner domain: 4
mesh->refinement->level in outer domain: 0
mesh->refinement->interface width: 0.05
mesh->refinement->fade out width: 0.5
% ====================== MESH =============================
${mesh_name}->macro file name: macro/macro.25.4.2d
${mesh_name}->global refinements: 0
${mesh_name}->check: 0
% ====================== INCLUDES =========================
#include "init/navierStokes_TaylorHood.inc.2d"
% ====================== INCLUDES =========================
#include "init/reinit.inc.2d"
% =================== OUTPUT =========================================
ns->phase->output->filename: ${output_folder}/phase${output_postfix}_
ns->phase->output->ParaView animation: 1
ns->phase->output->ParaView format: 1
ns->phase->output->write every i-th timestep: 1
ns->phase->output->append index: 1
ns->phase->output->index length: 9
ns->phase->output->index decimals: 7
% ====================== USER_PARAMETER - NS ==============
ns->viscosity: 1/100
ns->theta: 0.5
%ns->force: [0.0, 9.81] % gravitational force [m/s^2]
ns->force dirichlet bc: 0
ns->Um: 1.5
ns->epsilon: 0.05
ns->beta: 1
ns->alpha: 2.7
ns->initial velocity: 0
ns->initial velocity value: 0.0
ns->laplace operator: 0 % 0... div(nu*grad(u)), 1... div(0.5*nu*(grad(u)+grad(u)^T)) [sehr langsam]
ns->non-linear term: 2 % 0... u^old*grad(u_i^old), 1... u'*grad(u_i^old), 2... u^old*grad(u'_i)
% ====================== TIMESTEPS ========================
adapt->max iteration: 1
adapt->max timestep iteration: 1
adapt->max time iteration: 1
adapt->timestep: 1.e-1
adapt->max timestep: 1e+10
adapt->min timestep: 1e-6
adapt->start time: 0.0
adapt->end time: 25
% ====================== ESTIMATORS =======================
adapt->strategy: 0 % 0=explicit, 1=implicit
WAIT: 1
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