1d310b3d3SAdeleke O. Bankoleproblem: newtonian 2d310b3d3SAdeleke O. Bankole 3d310b3d3SAdeleke O. Bankole# Time Stepping Settings 4d310b3d3SAdeleke O. Bankoleimplicit: true 5d310b3d3SAdeleke O. Bankolestab: supg 6d310b3d3SAdeleke O. Bankole 737cbb16aSJed Browncheckpoint_interval: 10 8d310b3d3SAdeleke O. Bankole 9d310b3d3SAdeleke O. Bankolets: 10d310b3d3SAdeleke O. Bankole adapt_type: 'none' 11d310b3d3SAdeleke O. Bankole type: alpha 12d310b3d3SAdeleke O. Bankole dt: .05 13b5eea893SJed Brown max_time: 100 14d310b3d3SAdeleke O. Bankole alpha_radius: 0.5 15d6734f85SAdeleke O. Bankole monitor_solution: cgns:vortexshedding-q3-g1-n08.cgns 16b5eea893SJed Brown monitor_solution_interval: 5 17ca69d878SAdeleke O. Bankole monitor_wall_force: ascii:force.csv:ascii_csv 18d310b3d3SAdeleke O. Bankole 19d310b3d3SAdeleke O. Bankole# Reference state is used for the initial condition, zero velocity by default. 20b5eea893SJed Brown 21b5eea893SJed Brown# This choice of pressure and temperature have a density of 1 and acoustic speed 22b5eea893SJed Brown# of 100. With velocity 1, this flow is Mach 0.01. 23d310b3d3SAdeleke O. Bankolereference: 24d310b3d3SAdeleke O. Bankole pressure: 7143 25d310b3d3SAdeleke O. Bankole temperature: 24.92 26b5eea893SJed Brown 27b5eea893SJed Brown# If the the outflow is placed close to the cylinder, this will recirculate cold 28b5eea893SJed Brown# fluid, demonstrating how the outflow BC is stable despite recirculation. 29b5eea893SJed Brownoutflow: 30b5eea893SJed Brown temperature: 20 31b5eea893SJed Brown 32d310b3d3SAdeleke O. Bankole# Freestream inherits reference state as default 33d310b3d3SAdeleke O. Bankolefreestream: 34d310b3d3SAdeleke O. Bankole velocity: 1,0,0 35d310b3d3SAdeleke O. Bankole# Small gravity vector to break symmetry so shedding can start 36*7afa9fc3SJames Wrightgravity: 0,-.01,0 37d310b3d3SAdeleke O. Bankole 38b5eea893SJed Brown# viscosity corresponds to Reynolds number 100 39d310b3d3SAdeleke O. Bankolemu: 0.01 40b5eea893SJed Brownk: 14.34 # thermal conductivity, Pr = 0.71 typical of air 41d310b3d3SAdeleke O. Bankole 42d310b3d3SAdeleke O. Bankole## DM Settings: 43d6734f85SAdeleke O. Bankoledegree: 3 44d6734f85SAdeleke O. Bankoledm_plex_filename: examples/fluids/meshes/cylinder-q1-n08.msh 45d310b3d3SAdeleke O. Bankole 46d310b3d3SAdeleke O. Bankole# Boundary Settings 47*7afa9fc3SJames Wrightbc_symmetry_z: 6 48d310b3d3SAdeleke O. Bankolebc_wall: 5 49b5eea893SJed Brownbc_freestream: 1 50b5eea893SJed Brownbc_outflow: 2 51*7afa9fc3SJames Wrightbc_symmetry_y: 3,4 52d310b3d3SAdeleke O. Bankolewall_comps: 1,2,3 53d310b3d3SAdeleke O. Bankole 54b5eea893SJed Brown# Primitive variables are preferred at low Mach number 55d310b3d3SAdeleke O. Bankolestate_var: primitive 56d310b3d3SAdeleke O. Bankole 57d310b3d3SAdeleke O. Bankoledm_view: 58d310b3d3SAdeleke O. Bankolets_monitor: 59d310b3d3SAdeleke O. Bankolesnes_lag_jacobian: 20 60d310b3d3SAdeleke O. Bankolesnes_lag_jacobian_persists: 61d310b3d3SAdeleke O. Bankole 62d310b3d3SAdeleke O. Bankole#pmat_pbdiagonal: 63d310b3d3SAdeleke O. Bankole#ksp_type: bcgsl 64d310b3d3SAdeleke O. Bankole#pc_type: vpbjacobi 65b5eea893SJed Brownamat_type: shell 66