diff --git a/Exec/Channel_Test/inputs_orlanski b/Exec/Channel_Test/inputs_orlanski new file mode 100644 index 0000000..abb789c --- /dev/null +++ b/Exec/Channel_Test/inputs_orlanski @@ -0,0 +1,105 @@ +# ------------------ INPUTS TO MAIN PROGRAM ------------------- +max_step = 10 + +amrex.fpe_trap_invalid = 0 + +fabarray.mfiter_tile_size = 1024 1024 1024 + +# PROBLEM SIZE & GEOMETRY +geometry.prob_lo = 0. 0. -50. +geometry.prob_hi = 100000. 300000. 0. + +amr.n_cell = 20 60 50 +#amr.n_cell = 10 10 50 + +geometry.is_periodic = 0 0 0 + +#ylo.type = "SlipWall" +#yhi.type = "SlipWall" + +zlo.type = "SlipWall" +zhi.type = "SlipWall" + +remora.boundary_per_variable = 1 +temp.type = orlanski_rad orlanski_rad orlanski_rad orlanski_rad +salt.type = orlanski_rad orlanski_rad orlanski_rad orlanski_rad +scalar.type = orlanski_rad orlanski_rad orlanski_rad orlanski_rad +u.type = orlanski_rad orlanski_rad orlanski_rad orlanski_rad +v.type = orlanski_rad orlanski_rad orlanski_rad orlanski_rad +w.type = outflow outflow outflow outflow +ubar.type = outflow outflow outflow outflow +vbar.type = outflow outflow outflow outflow +zeta.type = outflow outflow outflow outflow +tke.type = outflow outflow outflow outflow + +# TIME STEP CONTROL +remora.fixed_dt = 800.0 # Timestep size (seconds) + +remora.fixed_ndtfast_ratio = 10 + +#remora.fixed_ndtfast_ratio = 30 # Ratio of baroclinic to barotropic time step + +# DIAGNOSTICS & VERBOSITY +remora.sum_interval = 1 # timesteps between integrated/max quantities, if remora.v > 0 +remora.v = 0 # verbosity in REMORA.cpp (0: none, 1: integrated quantities, etc, 2: print boxes) +amr.v = 1 # verbosity in Amr.cpp + +# REFINEMENT / REGRIDDING +amr.max_level = 0 # maximum level number allowed + +# CHECKPOINT FILES +remora.check_file = chk # root name of checkpoint file +remora.check_int = -57600 # number of timesteps between checkpoints + +# PLOTFILES +remora.plot_file = plt # prefix of plotfile name +remora.plot_int = 1 # number of timesteps between plotfiles +remora.plot_vars = salt temp x_velocity y_velocity z_velocity +remora.plotfile_type = amrex +remora.write_history_file = true + +# SOLVER CHOICE +remora.flat_bathymetry = false +remora.tracer_horizontal_advection_scheme = "upstream3" # upstream3 or centered4 +remora.spatial_order = 2 +remora.vertical_mixing_type = gls + +remora.gls_P = 3.0 +remora.gls_M = 1.5 +remora.gls_N = -1.0 +remora.gls_Kmin = 7.6e-6 +remora.gls_Pmin = 1.0e-12 + +remora.gls_cmu0 = 0.5477 +remora.gls_c1 = 1.44 +remora.gls_c2 = 1.92 +remora.gls_c3m = -0.4 +remora.gls_c3p = 1.0 +remora.gls_sigk = 1.0 +remora.gls_sigp = 1.3 + +remora.Zob = 0.002 +remora.Zos = 0.002 + +# turbulence closure parameters +remora.Akk_bak = 5.0e-6 +remora.Akp_bak = 5.0e-6 +remora.Akv_bak = 1.0e-5 + + +# Linear EOS parameters +remora.R0 = 1027.0 # background density value (Kg/m3) used in Linear Equation of State +remora.S0 = 15.0 # background salinity (nondimensional) constant +remora.T0 = 10.0 # background potential temperature (Celsius) constant +remora.Tcoef = 1.7e-4 # linear equation of state parameter (1/Celsius) +remora.Scoef = 7.6e-4 # linear equation of state parameter (nondimensional) +remora.rho0 = 1025.0 # Mean density (Kg/m3) used when Boussinesq approx is inferred + +remora.tcline = 25.0 + +# Coriolis params +remora.use_coriolis = true +remora.coriolis_type = beta_plane +remora.coriolis_f0 = 1.0e-4 +remora.coriolis_beta = 0.0 +