#------------------------------------# # Run control parameters for the PEM # #------------------------------------# #---------- Planet type ----------# planet_type=mars #---------- Output parameters ----------# # Frequency of outputs for the PEM? Default = 1 ecritpem=1 #---------- Orbital parameters ----------# # Do you want to follow an orbital forcing read in "obl_ecc_lsp.asc"? Default = .false. # evol_orbit_pem=.false. # If evol_orbit_pem=.true., number of Earth years before present to start the PEM run? Default = 0 # year_earth_bp_ini=0 # Do you want to vary the obliquity when following "obl_ecc_lsp.asc"? Default = .true. # var_obl=.false. # Do you want to vary the eccentricity when following "obl_ecc_lsp.asc"? Default = .true. # var_ecc=.false. # Do you want to vary the ls perihelie when following "obl_ecc_lsp.asc"? Default = .true. # var_lsp=.false. #---------- Stopping criteria parameters ----------# # If evol_orbit_pem=.false., maximal number of iterations if no stopping criterion is reached? Default=100000000 # Max_iter_pem=10 # Acceptance rate of sublimating H2O ice surface change? Default = 0.2 # h2o_ice_crit=0.2 # Acceptance rate of sublimating CO2 ice surface change? Default = 0.2 # co2_ice_crit=0.2 # Acceptance rate of pressure surface change? Default = 0.15 # ps_criterion = 0.15 # Time step length of the PEM in Martian years? Default = 1. # dt=1 #---------- Subsurface parameters ----------# # Do you want to run with subsurface physical processes in the PEM? Default = .true. # soil_pem=.true. # Do you want to run with adsoprtion in the PEM? Default = .false. # adsorption_pem=.true. # Do you want to modify the soil thermal properties with the pressure? Default = .false. # reg_thprop_dependp=.false. # Value of the geothermal flux? Default = 0. # fluxgeo=0. # Depth at which the breccia layer begins? Default = 10 m # depth_breccia=10. # Depth at which the bedrock layer begins? Default = 1000 m # depth_bedrock=1000. # Is the ice table computed at equilibrium? Default = .true. # icetable_equilibrium=.false. # Is the ice table computed with the dynamic method? Default = .false. # icetable_dynamic=.false. #---------- Ice management parameters ----------# # Amount of H2O ice to initialize the huge reservoir if the variable is not present in "startfi_PEM.nc"? Default = 9200. kg.m-2 (= 10 m) # ini_huge_h2oice=1.e4 # Threshold to consider the amount of H2O ice as an infinite reservoir? Default = 460. kg.m-2 (= 0.5 m) # inf_h2oice_threshold=2.e3 # Do you want H2O frost to transform into perennial H2O ice? Default = .false. # metam_h2oice=.false. # Threshold to consider frost is becoming perennial H2O ice? Default = 460. kg.m-2 (= 0.5 m) # metam_h2oice_threshold=5.e-2 # Do you want the H2O ice to flow along subslope inside a cell? Default = .true. # h2oice_flow=.true. # Do you want CO2 frost to transform into perennial CO2 ice? Default = .false. # metam_co2ice=.false. # Threshold to consider frost is becoming perennial CO2 ice? Default = 16500. kg.m-2 (= 10 m) # metam_co2ice_threshold=16.e3 # Do you want the CO2 ice to flow along subslope inside a cell? Default = .true. # co2ice_flow=.false. #---------- Layering parameters ----------# # Do you want to run with the layering algorithm? Default = .false. # layering=.true. # Some definitions for the physics, in file 'callphys.def' INCLUDEDEF=callphys.def