set job_ttol 1e-3
set job_ttol_units m
set job_ptol 1e-4
set job_printcmd_ps {lp -d%p %f}
set job_ctrlkey Control
set job_helpviewer {}
set job_printcmd_text {lp -d%p %f}
set job_autoraise 1
set job_listsort creation_order
set job_scratch jobdir
set job_autoraise 1
set job_xterm_opts {}
set job_home_direction -z
set job_precision 0
set job_diff_flag 0
set job_legend_sigfigs 0
set job_legend_figstype g
set problem_radthreshhold 0.05
set problem_time steady
set problem_nsteps 20
set problem_flowvar 1
set problem_opressure 101325.0
set problem_odensity 1.225
set problem_ideal_gas 0
set problem_turbulent 0
set problem_charvel 0
set problem_charlen 0
set problem_turbintens 0
set problem_turbmodel zero
set problem_turbmodel_a two
set problem_turb_prandtl 0.9
set problem_gravity 0
set problem_gravx 0
set problem_gravy -9.80665
set problem_gravz 0
set problem_ts 0
set problem_te 1
set problem_temp 20
set problem_pressure 0
set problem_init_per_object 0
set problem_init_x 0
set problem_init_y 0
set problem_init_z 0
set problem_init_t ambient
set problem_init_id {}
set problem_saveinter 10
set problem_stepincr 0.001
set problem_integrator first
set problem_increments fixed
set problem_varstep 0.001
set problem_tempvar 1
set problem_tsvary 0
set problem_tsvary_type linear
set problem_tsvary_lini 0.0
set problem_tsvary_lina 1.0
set problem_tsvary_pvals {}
set problem_tsvary_lini_units s
set problem_radtemp 20
set problem_temp_trans 0
array set problem_ambient {
    temp_trans_square_on 0.0
    temp_trans_curve {}
    temp_trans_sin_t 0.0
    temp_trans_square_phase 0.0
    temp_fixed 0.0
    temp_transient 0
    temp_trans_type linear
    temp_trans_square_off 0.0
    temp_trans_sin_t0 0.0
    temp_total 0.0
    temp_trans_power_a 0.0
    temp_trans_exp_a 0.0
    temp_trans_square_offval 0.0
    temp_trans_exp_b 0.0
    temp_trans_power_b 0.0
    temp_lincoeff 0.0
    temp_volume 0.0
    temp_linvalue 0.0
    temp_trans_sin_a 0.0
    temp_type volume
    temp_trans_linear_a 0.0
}
array set problem_ambient_units {
    temp_trans_square_on s
    temp_trans_square_phase s
    temp_trans_sin_t0 s
    temp_trans_square_off s
}
set problem_temp_units C
set problem_pressure_units N/m2
set problem_opressure_units N/m2
set problem_odensity_units kg/m3
set problem_use_odensity 0
set problem_radtemp_units C
set problem_init_t_units C
set problem_init_x_units m/s
set problem_init_y_units m/s
set problem_init_z_units m/s
set problem_ts_units s
set problem_te_units s
set problem_gravx_units m/s2
set problem_gravy_units m/s2
set problem_gravz_units m/s2
set problem_stepincr_units s
set problem_comfort 1
set problem_disco 0
set grid_type {}
set grid_convert_multi 0
set grid_max_elements 10000000
set grid_perobject 0
set grid_usesize_x 0
set grid_usesize_y 0
set grid_usesize_z 0
set grid_usesize_h 0
set grid_size_x 1
set grid_size_y 1
set grid_size_z 1
set grid_size_h 0
set grid_gcount_i 10
set grid_gcount_j 10
set grid_gcount_k 10
set grid_gtype unif
set grid_gmax_i 0.0
set grid_gmax_j 0.0
set grid_gmax_k 0.0
set grid_gmin_i 0.0
set grid_gmin_j 0.0
set grid_gmin_k 0.0
set grid_set_default_sizes 0
array set grid_gratio {
    j_dir 0
    j_rat 1
    i_init 0
    k_dir 0
    k_rat 1
    j_init 0
    k_init 0
    i_dir 0
    i_rat 1
}
set grid_hgrid 0
set grid_minglobal 0
set grid_global_maxrat 0
set grid_tetra_sm 1
set grid_tetra_smqual 0.4
set grid_tetra_smiters 10
set grid_tetra_smcoarse 1
set grid_tetra_smcasp 0.2
set grid_tetra_smciters 5
set grid_tetra_prisms 0
set grid_tetra_prism_num 4
set grid_tetra_prism_height 0.0
set grid_tetra_prism_yplus 0.001
set grid_run_tetssi 1
array set grid_prism_families {
    ORFN 0
}
set grid_triangulation_tolerance 0.0005
array set grid_tetra_params {
    tetra_size_on_surfs 0
    n_cells_in_gap 2
    natural_size_refinement 32
    tetra_size_on_curves 0
    split_spanning 1
    tetra_ratio 0
    edge_criterion 0.05
    natural_size_factor 0.8
}
set grid_cutter_tries 20
set grid_allow_addfaces 0
set grid_no_tetra 0
set grid_no_cutter 0
set grid_cutter_surface 0
set grid_subgrids 0
set grid_ratios 0
set grid_mesh_parts_separate 1
set grid_settings_type normal
set grid_tetra_settings_type normal
set solve_startmon 1
set solve_when now
set solve_time {}
set solve_where here
set solve_remote {}
set solve_id {}
set solve_jobtype new
set solve_jobinterp {}
set solve_method segiter
set solve_segiter_num 100
set solve_segdirect_num 100
set solve_coupled_num 50
set solve_segiter_tol 0.01
set solve_segdirect_tol 0.01
set solve_coupled_tol 0.01
set solve_coupled_rtol 0.01
set solve_iter_sym_method CR
set solve_iter_nonsym_method CGS
set solve_iter_sym_num 1e-5
set solve_iter_nonsym_num 1e-6
set solve_sym_cond gauss-seidel
set solve_nonsym_cond gauss-seidel
set solve_upwind_relax_type firstcut
set solve_upwind_type first
set solve_relax_type hybrid
set solve_relax_velocity_min 0.5
set solve_relax_pressure_min 0.75
set solve_relax_temperature_min 0.5
set solve_relax_turbulent_ke_min 0.5
set solve_relax_turbulent_diss_min 0.5
set solve_relax_velocity_max 0.0
set solve_relax_pressure_max 0.0
set solve_relax_temperature_max 0.0
set solve_relax_turbulent_ke_max 0.0
set solve_relax_turbulent_diss_max 0.0
set solve_upwind_velocity 0.1
set solve_upwind_temperature 0.1
set solve_upwind_turbulent_ke 0.1
set solve_upwind_turbulent_diss 0.1
set solve_extrapolation 1
set solve_outflow_treatment 0
set solve_pre_mem 0
set solve_solve_mem 0
set solve_mem_elems 0
set solve_mem_nodes 0
set solve_ruser {}
set solve_rdir {}
set solve_root {}
set solve_fluent_inc {}
set solve_segmethod PPROJECTION
set solve_pupdate 0.15
set solve_temp_min ambient
set solve_temp_max 0
set solve_setup_once 0
set solve_damp_on 0
set solve_damp_flow 0
set solve_damp_temp 1
set solve_mag_change_check 2
set solve_solver uns
set solve_disable_rad 0
set solve_export 0
set solve_export_type Nastran
set solve_export_file {}
set solve_do_trials 0
set solve_old_naming 0
set solve_parallel 0
set solve_parallel_num 4
set solve_parallel_file {}
set solve_use_metis 1
set solve_allow_zone_merge 1
set solve_concurrent_num 1
set solve_precis 1
set solve_trial_prefix trial
set solve_trial_fixed_prefix 1
set solve_parallel_spath {}
set uns_numiter 100
set uns_numtransiter 20
set uns_crit 0.001
set uns_crit_energy 1e-6
array set uns_disc_order {
    species_default 1
    turb_d 1
    pressure 1
    energy 1
    temperature 1
    momentum 1
    turb_k 1
}
array set uns_under_rel {
    species_default 1.0
    turb_d 0.5
    bodyforce 1.0
    viscosity 1.0
    pressure 0.3
    energy 1.0
    temperature 1.0
    momentum 0.7
    turb_k 0.5
}
array set uns_solver_type {
    species_default flex
    turb_d flex
    bodyforce flex
    pressure V
    energy flex
    temperature flex
    momentum flex
    turb_k flex
}
array set uns_term_crit {
    species_default 0.1
    turb_d 0.1
    bodyforce 0.1
    pressure 0.1
    energy 0.1
    temperature 0.1
    momentum 0.1
    turb_k 0.1
}
array set uns_resid_tol {
    species_default 0.1
    turb_d 0.1
    bodyforce 0.1
    pressure 0.1
    energy 0.1
    temperature 0.1
    momentum 0.1
    turb_k 0.1
}
array set graph_color {
    opening yellow
    {mesh quad} yellow
    resistance purple
    {cad point} #e6e6fa
    block pink
    package purple
    names white
    plate orange
    {mesh selected} orange
    ventres green
    heatsink purple
    part gray
    enclosure blue
    wall beige
    domain blue
    {cad line} gray
    highlight red
    source green
    network purple
    title white
    {mesh bar} white
    {mesh hexa} #e6e6fa
    vent green
    pcb yellow
    fan cyan
    {mesh penta} #fae6e6
    heat_exchanger pink
    pipe yellow
    date white
    {mesh quality} red
    {mesh adjacent} orange
}
array set graph_width {
    opening 1
    {mesh quad} 1
    resistance 1
    {cad point} 4
    block 1
    package 1
    names {}
    plate 1
    {mesh selected} 1
    ventres 1
    heatsink 1
    part 1
    enclosure 1
    wall 1
    domain 1
    {cad line} 2
    highlight 1
    source 1
    network 1
    title {}
    {mesh bar} 4
    {mesh hexa} 1
    vent 1
    pcb 1
    fan 1
    {mesh penta} 1
    heat_exchanger 1
    pipe 1
    date {}
    {mesh quality} 1
    {mesh adjacent} 1
}
array set graph_shadepolicy {
    opening view
    {mesh quad} {}
    resistance view
    {cad point} {}
    block view
    package view
    names {}
    plate view
    {mesh selected} {}
    ventres view
    heatsink view
    part view
    enclosure view
    wall view
    domain {}
    {cad line} {}
    highlight {}
    source view
    network view
    title {}
    {mesh bar} {}
    {mesh hexa} {}
    vent view
    pcb view
    fan view
    {mesh penta} {}
    heat_exchanger view
    pipe view
    date {}
    {mesh quality} {}
    {mesh adjacent} {}
}
array set graph_fancy {
    opening 1
    {mesh quad} {}
    resistance 1
    {cad point} {}
    block {}
    package 1
    names {}
    plate {}
    {mesh selected} {}
    ventres 1
    heatsink {}
    part {}
    enclosure {}
    wall {}
    domain {}
    {cad line} {}
    highlight {}
    source 1
    network 1
    title {}
    {mesh bar} {}
    {mesh hexa} {}
    vent 1
    pcb {}
    fan 1
    {mesh penta} {}
    heat_exchanger 1
    pipe {}
    date {}
    {mesh quality} {}
    {mesh adjacent} {}
}
array set graph_font {
    opening fixed
    {mesh quad} {}
    resistance fixed
    {cad point} {}
    block fixed
    package fixed
    names fixed
    plate fixed
    {mesh selected} {}
    ventres fixed
    heatsink fixed
    part fixed
    enclosure fixed
    wall fixed
    domain fixed
    {cad line} {}
    highlight {}
    source fixed
    network fixed
    title fixed
    {mesh bar} {}
    {mesh hexa} {}
    vent fixed
    pcb fixed
    fan fixed
    {mesh penta} {}
    heat_exchanger fixed
    pipe fixed
    date fixed
    {mesh quality} {}
    {mesh adjacent} {}
}
set default_pipe_radius 0.1
set shape_x_grid_on 0
set shape_y_grid_on 0
set shape_z_grid_on 0
set shape_x_grid 1.0
set shape_y_grid 1.0
set shape_z_grid 1.0
set shape_color_gray 1
set new_shape_factor 0.2
set default_fluid_family FLUID
set gmax_in_def_units 1
set family_name_type full
set family_name_nchars 6
set family_name_sep_dims 1
array set grid_mesher_params {
    no_group_ogrids 0
    conformal 1
    plate_join_tolerance 0
    cartesian 0
    min_cylinder_face 4
    max_ratio 2
    no_ogrids 0
    height_max 0
    min_elements_gap 3
    min_triangle_face 4
    ignore_globals 0
    ignore_perobject 0
    max_ogrid 0
    min_elements_block 2
    conformal_tol 0.01
}
set meshing_units mm
set meshing_frequency_value 0
set meshing_frequency_scale GHz
array set tdv_mouse_bindings {
    select 1
    scale 3
    trans 2
    rot 1
    cancel 3
    done 2
    scale_dir 1
}
set tdv_user_views {}
set expression_cur_trials {}
set expression_mode all
set expression_edit_trial_how_solveid nums
array set unit_data {
    kg/m2 { 0        1          0 mass/area                	0 }
    g/cm2-s { 0        0.1        0 mass_flow/area             0 }
    {} { 0        1          0 "" }
    kg/m3 { 0        1          0 density            	0 }
    m/s2 { 0        1          0 acceleration        	0 }
    mm { 0        1000       0 "length roughness"         0 }
    1/cm2 { 0        1e-4       0 1/area             	0 }
    cm/s { 0        100        0 "speed velocity"           0 }
    C { -273.15  1          0 temperature        	0 }
    microns { 0        1e6	   0 "length roughness"         0 }
    cal/s-m-K { 0        0.23890    0 conductivity       	0 }
    lbm/ft-s { 0        0.671969   0 viscosity          	0 }
    kcal/kg-C { 0        2.38852e-4 0 sp_heat            	0 }
    mm2 { 0        1e6        0 area               	0 }
    ft/s { 0        3.28084    0 "speed velocity"           0 }
    cm/s2 { 0        100        0 acceleration               0 }
    N/m2 { 0        1          0 pressure           	0 }
    mm3 { 0        1e9        0 volume               	0 }
    kg/m-s { 0        1          0 viscosity          	0 }
    BTU/s-ft2 { 0        8.8114e-5  0 "power/area heat_flux"     0 }
    Rd { 0        1.8        0 temp_change        	0 }
    F { -459.67  1.8        0 temperature        	0 }
    BTU/s-ft3 { 0        8.8114e-5  0 power/volume               0 }
    erg/cm2-s { 0        1000       0 "power/area heat_flux"     0 }
    Kd { 0        1          0 temp_change        	0 }
    m2 { 0        1          0 area               	0 }
    ft2/s2 { 0        10.76391   0 turbulent_k                0 }
    kg/s-m2 { 0        1          0 mass_flow/area     	0 }
    m3 { 0        1          0 volume               	0 }
    ft2/s3 { 0        10.76391   0 turbulent_o                0 }
    in2 { 0        1550.003   0 area               	0 }
    ft { 0        3.28084    0 "length roughness" 	0 }
    in3 { 0        61023.7    0 volume               	0 }
    m2/s2 { 0        1          0 turbulent_k                0 }
    lbm { 0        2.20462    0 mass                	0 }
    J/kg-C { 0        1          0 sp_heat            	0 }
    K { 0        1          0 temperature        	0 }
    m2/s3 { 0        1          0 turbulent_o                0 }
    kg/kmol { 0        1          0 mol_weight         	0 }
    BTU/h-ft-F { 0        0.577934   0 conductivity       	0 }
    kcal/kg-K { 0        2.38852e-4 0 sp_heat            	0 }
    ft2 { 0        10.76391   0 area               	0 }
    W/C-m2 { 0        1          0 heat_tr_coeff              0 }
    ft3 { 0        35.3147    0 volume               	0 }
    mm/s2 { 0        1000       0 acceleration               0 }
    BTU/s-ft-F { 0        1.60537e-4 0 conductivity               0 }
    lbm/ft3 { 0        0.062426   0 density            	0 }
    Btu/F-s { 0        5.26696e-4 0 conductance          	0 }
    gr { 0        14172.34   0 mass                	0 }
    m2/s { 0        1          0 diffusivity        	0 }
    BTU/ft2-s-F { 0        4.89167e-5 0 heat_tr_coeff     	 	0 }
    Cu-oz/ft2 { 0        29362.4    0 "length roughness" 	0 }
    R { 0        1.8        0 temperature        	0 }
    gr/lbm { 0        1          0 gr/lbm                     0 }
    J/kg-K { 0        1          0 "sp_heat heat_capacity"    0 }
    cm2/s { 0        1e4        0 diffusivity                0 }
    lbm/s { 0        2.20462    0 mass_flow          	0 }
    W/K-m2 { 0        1          0 heat_tr_coeff      	0 }
    Amp { 0        1          0 e_current                  0 }
    Ohm-m { 0        1          0 e_resistance               0 }
    cfm { 0        2118.8802  0 volume_flow		0 }
    BTU/ft2-h-F { 0        0.17614937 0 heat_tr_coeff              0 }
    ft/s2 { 0        3.28084    0 acceleration               0 }
    W { 0        1          0 "power heat rad_flux"  	0 }
    m/s { 0        1          0 "speed velocity"     	0 }
    g/kg { 0        1          0 g/kg                       0 }
    BTU/h-ft-R { 0        0.577934   0 conductivity       	0 }
    erg/cm3-s { 0        1000       0 power/volume               0 }
    erg/s { 0        1e7        0 "power heat rad_flux"      0 }
    HP { 0        1.34102e-3 0 "power heat rad_flux"      0 }
    deg { 0        57.2957805 0 angle              	0 }
    Fd { 0        1.8        0 temp_change        	0 }
    cm2 { 0        1e4        0 area               	0 }
    mil { 0        39370.08   0 "length roughness" 	0 }
    BTU/lb-F { 0        2.38852e-4 0 sp_heat            	0 }
    BTU/h-ft2 { 0        0.3170878  0 "power/area heat_flux"     0 }
    cm3 { 0        1e6        0 volume               	0 }
    1/s { 0        1          0 1/time               	0 }
    Btu/R-s { 0        5.26696e-4 0 conductance          	0 }
    BTU/h-ft3 { 0        0.3170878  0 power/volume               0 }
    BTU/ft2-s-R { 0        4.89167e-5 0 heat_tr_coeff              0 }
    lbm/min { 0        132.2774   0 mass_flow                  0 }
    lb/ft-s { 0        0.671969   0 viscosity          	0 }
    in { 0        39.37008   0 "length roughness" 	0 }
    rad { 0        1          0 angle              	0 }
    ft3/min { 0        2118.8802  0 volume_flow                0 }
    m3/s { 0        1	   0 volume_flow	        0 }
    BTU/ft2-h-R { 0        0.17614937 0 heat_tr_coeff              0 }
    W/m-C { 0        1          0 conductivity       	0 }
    fpm { 0        196.8504   0 "speed velocity"           0 }
    c { 0        2.99793e+8 0 "speed velocity"           0 }
    in/s2 { 0        39.37008   0 acceleration               0 }
    oz/ft2 { 0        3.2765     0 mass/area                	0 }
    kg/s { 0        1          0 mass_flow          	0 }
    dyn/cm2 { 0        10         0 pressure                   0 }
    psi { 0        1.45038e-4 0 pressure                   0 }
    cm3/s { 0        1e6        0 volume_flow                0 }
    W/m2 { 0        1          0 "power/area heat_flux"     0 }
    ft2/s { 0        10.76391   0 diffusivity                0 }
    lbm/s-ft2 { 0        0.20483    0 mass_flow/area     	0 }
    W/m3 { 0        1          0 power/volume               0 }
    g { 0        1000       0 mass                	0 }
    slugs/ft-s { 0        0.02088555 0 viscosity          	0 }
    BTU/lb-R { 0        2.38852e-4 0 sp_heat            	0 }
    lbf/ft2 { 0        2.08855e-2 0 pressure           	0 }
    torr { 0        7.50063e-3 0 pressure                   0 }
    Ohm/m { 0        1          0 e_resistance               0 }
    cm { 0        100        0 "length roughness" 	0 }
    in_water { 0        4.01606e-3 0 pressure   		0 }
    in/s { 0        39.37008   0 "speed velocity"           0 }
    kg { 0        1          0 mass                	0 }
    W/m-K { 0        1          0 conductivity       	0 }
    1/C { 0        1          0 vol_expansion		0 }
    ppmv { 0        1e6        0 concentration              0 }
    erg/g-K { 0        10000      0 sp_heat            	0 }
    BTU/hr { 0        3.4129693  0 "power heat rad_flux"   	0 }
    1/mm2 { 0        1e-6       0 1/area             	0 }
    m { 0        1          0 "length roughness" 	0 }
    g/mol { 0        1          0 mol_weight                 0 }
    cal/g-C { 0        2.38852e-4 0 sp_heat            	0 }
    1/F { 0        .555555555 0 vol_expansion      	0 }
    slug/ft3 { 0        1.94032e-3 0 density            	0 }
    1/m2 { 0        1          0 1/area             	0 }
    F-s/Btu { 0        1898.627   0 resistance          	0 }
    poise { 0        10         0 viscosity          	0 }
    g/s { 0        1000       0 mass_flow                  0 }
    W/C { 0        1          0 conductance          	0 }
    C/W { 0        1          0 resistance          	0 }
    1/in2 { 0        6.45161e-4 0 1/area             	0 }
    Pa { 0        1          0 pressure                   0 }
    atm { 0        9.86923e-6 0 pressure                   0 }
    1/K { 0        1          0 vol_expansion      	0 }
    s { 0        1          0 time               	0 }
    1/ft2 { 0        0.09290304 0 1/area             	0 }
    BTU/s { 0        9.48047e-4 0 "power heat rad_flux"      0 }
    cal/g-K { 0        2.38852e-4 0 sp_heat            	0 }
    fraction { 0        1          0 concentration              0 }
    ft3/s { 0        35.31467   0 volume_flow                0 }
    W/K { 0        1          0 conductance          	0 }
    K/W { 0        1          0 resistance          	0 }
    g/cm3 { 0        0.001      0 density            	0 }
    identity { 0        1          0 ""                         0 }
    1/R { 0        .555555555 0 vol_expansion      	0 }
    m3/min { 0        60         0 volume_flow	        0 }
    R-s/Btu { 0        1898.627   0 resistance          	0 }
    cal/s-m-C { 0        0.23890    0 conductivity       	0 }
    mm/s { 0        1000       0 "speed velocity"           0 }
    ft/min {0 196.8504 0 speed 1}
    erg/cm-s-K { 0        1e5        0 conductivity       	0 }
    met { 0        0.017182130584193 0 "power/area heat_flux"     0 }
    Cd { 0        1          0 temp_change        	0 }
}
array set unit_choices {
    density { kg/m3 lbm/ft3 slug/ft3 g/cm3 }
    heat_flux {W/m2 BTU/s-ft2 BTU/h-ft2 erg/cm2-s met}
    volume { m3 ft3 cm3 mm3 in3 }
    fan_curve { "" }
    resistance { C/W F-s/Btu K/W R-s/Btu }
    heat_tr_coeff { W/K-m2 BTU/ft2-s-F BTU/ft2-h-F W/C-m2 BTU/ft2-h-R 
                      BTU/ft2-s-R  }
    1/area { 1/m2 1/ft2 1/cm2 1/mm2 1/in2 }
    length {m ft cm mm microns in mil Cu-oz/ft2}
    acceleration { m/s2 ft/s2 cm/s2 mm/s2 in/s2 }
    gr/lbm { gr/lbm }
    turbulent_o {m2/s3 ft2/s3}
    mass_flow/area { kg/s-m2 lbm/s-ft2 g/cm2-s}
    mass_flow { kg/s lbm/s lbm/min g/s }
    mass {kg lbm g gr}
    power/volume { W/m3 BTU/s-ft3 BTU/h-ft3 erg/cm3-s}
    viscosity { kg/m-s lbm/ft-s poise lb/ft-s slugs/ft-s }
    conductivity { W/m-K BTU/s-ft-F BTU/h-ft-R W/m-C BTU/h-ft-F cal/s-m-C
	              cal/s-m-K erg/cm-s-K }
    diffusivity { m2/s ft2/s cm2/s}
    roughness { m ft cm mm microns in }
    temperature { C F K R }
    e_current { Amp }
    mol_weight { kg/kmol g/mol}
    conductance { W/C Btu/F-s W/K Btu/R-s }
    heat_capacity { J/kg-K }
    angle { rad deg }
    time { s }
    xxx { "" }
    g/kg { g/kg }
    area { m2 ft2 cm2 mm2 in2 }
    speed {m/s ft/s cm/s mm/s in/s fpm}
    pressure { N/m2 lbf/ft2 Pa atm psi torr dyn/cm2 in_water}
    heat { W BTU/s BTU/hr HP erg/s}
    viscosity_ratio { "" }
    temp_change { Cd Fd Kd Rd }
    losscoeff { "" }
    mass/area { kg/m2 oz/ft2 }
    sp_heat { J/kg-K BTU/lb-F J/kg-C BTU/lb-R cal/g-K cal/g-C
	              kcal/kg-K kcal/kg-C erg/g-K }
    e_resistance {Ohm/m Ohm-m}
    vol_expansion { 1/K 1/R 1/C 1/F }
    rad_flux { W BTU/s BTU/hr HP erg/s}
    power/area {W/m2 BTU/s-ft2 BTU/h-ft2 erg/cm2-s met}
    power { W BTU/s BTU/hr HP erg/s}
    emissivity { "" }
    turbulent_k { m2/s2 ft2/s2 }
    volume_flow { m3/s ft3/min m3/min ft3/s cfm cm3/s}
    1/time { 1/s }
    concentration { fraction ppmv }
}
array set unit_default {
    density kg/m3
    heat_flux W/m2
    volume m3
    fan_curve {}
    resistance C/W
    heat_tr_coeff W/K-m2
    1/area 1/m2
    length mm
    acceleration m/s2
    mass_flow kg/s
    mass_flow/area kg/s-m2
    gr/lbm gr/lbm
    turbulent_o m2/s3
    power/volume W/m3
    mass kg
    conductivity W/m-K
    viscosity kg/m-s
    temperature C
    roughness m
    diffusivity m2/s
    time s
    angle rad
    heat_capacity J/kg-K
    conductance W/C
    mol_weight kg/kmol
    e_current Amp
    g/kg g/kg
    xxx {}
    pressure N/m2
    speed m/s
    area m2
    heat W
    temp_change Cd
    viscosity_ratio {}
    sp_heat J/kg-K
    mass/area kg/m2
    losscoeff {}
    power W
    power/area W/m2
    rad_flux W
    vol_expansion 1/K
    e_resistance Ohm/m
    emissivity {}
    concentration fraction
    1/time 1/s
    volume_flow m3/s
    turbulent_k m2/s2
}
set library_path {{$ICEPAK_ROOT/icepak_lib}}
array set pipe_mesh_params {
    init_height 0
    ogrid_height 0.5
    on 0
    height_ratio 1.1
    max_length 0
}
set ff_tolerance 0.01
set ff_tolerance_display 0.0
set ff_tolerance_coarsen 1.0
set ff_division_level 7
set ff_minval 1e-5
set ff_show_self 1
set ff_compute_method hemi
set ff_compute_level coarse
array set species {
    type2 fraction
    initmf2 0.007
    available 0
    count 2
    initval2 0.007
    maxnum 6
    name1 Air
    name2 h2o
    enabled 0
}
set default_fluid_material Air
set default_solid_material Al-Extruded
set default_surface_material {Al-Polished Plate-surface}
array set post_units {
    volume m3
    heat_flux W/m2
    heat_tr_coeff W/K-m2
    acceleration m/s2
    length m
    mass_flow/area kg/s-m2
    mass_flow kg/s
    turbulent_o m2/s3
    viscosity kg/m-s
    temperature C
    angle deg
    time s
    area m2
    speed m/s
    pressure N/m2
    heat W
    viscosity_ratio identity
    rad_flux W
    concentration fraction
    turbulent_k m2/s2
    volume_flow m3/s
    1/time 1/s
}
array set autotherm_output {
    plane 2
    file {}
    reftemp_units C
    numi 50
    numj 50
    reftemp {}
}
set report_full_var Temperature
set report_full_region all
set report_full_obtype {}
set report_full_obname {}
set report_full_onlyhead 1
set report_full_whichsides all
set report_full_timetype value
set report_full_timevalue 0
set report_full_timestep 1
set report_full_writefile 1
set report_full_writewindow 1
set report_full_derived_flow 1
set report_full_derived_flux_type total
set report_full_derived_ref_type specified
set report_full_derived_ref_temp ambient
set report_full_derived_ref_height 0
array set report_summary {
    timevalue 0.0
    writefilename {}
    writesuffix .report
    sol_pats *
    timetype value
    count 0
    sol_all 0
    timestep 0
    writewindow 1
    writefile 0
}
array set report_point {
    timevalue 0.0
    writefilename {}
    timetype value
    timestep 0
    writewindow 1
    writefile 0
}
set uns_mon_units def
