Python run_scenario Exemples

Exemple #1

height_above_vent = [
    30000, 20000, 10000, 5000, 2000, 1000
]  # m (if point, if suzuki or if plume where Height_or_MFR = Height)
A = 4  # (suzuki only)
L = 5  # (suzuki only)
height_or_MFR = 'MFR'  # plume only
MFR_minimum = 1e7  # kg/s (plume only)
MFR_maximum = 1e9  # kg/s (plume only)
exit_velocity = 100  # m/s (plume only)
exit_temperature = 1073  # K (plume only)
exit_volatile_fraction = 0  # % (plume only)

# Fall3D (Volcanological input file)
terminal_velocity_model = 'ganser'  # Possibilites are ARASTOOPOR/GANSER/WILSON/DELLINO
vertical_turbulence_model = 'similarity'  # Possibilites are CONSTANT/SIMILARITY
horizontal_turbulence_model = 'rams'  # Possbilities are CONSTANT/RAMS
vertical_diffusion_coefficient = 100  # m2/s
horizontal_diffusion_coefficient = 1000  # m2/s
value_of_CS = 0.1  # RAMS only

# Contouring: True, False, number or list of numbers
thickness_contours = True
load_contours = True

thickness_units = 'cm'  # mm/cm/m

# Run model using specified parameters
if __name__ == '__main__':
    from aim import run_scenario
    run_scenario(__file__)

Exemple #2

Fichier : merapi_parameter_sweep.py Projet : mabo0001/PF3D

Map_deposit_thickness = 'Yes'                                       # Yes/No                                        
Map_thickness_units = 'cm'                                          # Possibilities (mm, cm, m)
Map_thickness_compaction_factor = 0.7                               # Degree of compaction (i.e. 0.7)
Thickness_contours = [0.1, 1, 5, 10, 50, 100, 500]                  # List contour intervals (PS format only)

Map_total_concentration = 'No'                                      # Yes/No                                
Map_total_concentration_z_cuts = [1000, 2000]                       # List height in meters of each z-cut required (i.e. 1000 2000)
Total_concentration_contours = [1e-5, 1e-4]                         # List contour intervals (PS format only)

Map_z_cummulative_concentration = 'No'                              # Yes/No                        
Cummulative_concentration_contours = [0.01, 0.1, 1, 10]             # List contour intervals (PS format only)
 
Map_Z_maximum_concentration = 'No'                                  # Yes/No                                                
Maximum_concentration_contours = [1e-4, 1e-3]                       # List contour intervals (Ps format only)

Topography_grid = 'merapi_topography.txt'                           # Specify ASCII topography grid to use. 
                                                                    # If empty, AIM will look for a topography grid named
                                                                    # <scenario_name>_topography.txt         

# Run model using specified parameters
if __name__ == '__main__':
    from aim import run_scenario
    run_scenario(__file__, dircomment=Eruption_comment)
    

Exemple #3

Fichier : guntur_multiple_wind.py Projet : GeoscienceAustralia/PF3D

exit_volatile_fraction = 0                      # % (plume only)

# Fall3D
terminal_velocity_model = 'ganser'              # Possibilites are ARASTOOPOR/GANSER/WILSON/DELLINO
vertical_turbulence_model = 'similarity'        # Possibilites are CONSTANT/SIMILARITY
horizontal_turbulence_model = 'rams'            # Possbilities are CONSTANT/RAMS
vertical_diffusion_coefficient = 100            # m2/s
horizontal_diffusion_coefficient = 1000         # m2/s
value_of_CS = 0.1                               # RAMS only

# Contouring: True, False, number or list of numbers    
thickness_contours = True
load_contours = True

thickness_units = 'cm'                          # mm/cm/m


# Run model using specified parameters
if __name__ == '__main__':
    from aim import run_scenario
    run_scenario(__file__)




    
 

Exemple #4

Fichier : merapi_access.py Projet : GeoscienceAustralia/PF3D

Topography_grid = 'merapi_topography.txt'       # Specify ASCII topography grid to use. 
                                                # If empty, AIM will look for a topography grid named
                                                # <scenario_name>.top (surfer GRD format)         
                                                
# Contouring:
#   False: Disabled
#   True: Provide a fixed number of contours covering entire range
#   Number: Fixed (vertical) interval between contours
#   List of numbers: Exact contour levels
Thickness_contours = [1, 2, 5, 50, 100]         # True, False, number or list of numbers
Thickness_units = 'cm'                          # mm/cm/m

Load_contours = 2000                            # True, False, number or list of numbers    

# Run model using specified parameters
if __name__ == '__main__':

    import time, random
    from aim import run_scenario
    
    run_scenario(__file__, 
                 timestamp_output=True,    
                 dircomment=Eruption_comment)


 

Exemple #5

Fichier : volcano_forecast.py Projet : GeoscienceAustralia/PF3D

# Fall3D (Volcanological input file)
terminal_velocity_model = 'ganser'              # Possibilites are ARASTOOPOR/GANSER/WILSON/DELLINO
vertical_turbulence_model = 'similarity'        # Possibilites are CONSTANT/SIMILARITY
horizontal_turbulence_model = 'rams'            # Possbilities are CONSTANT/RAMS
vertical_diffusion_coefficient = 100            # m2/s
horizontal_diffusion_coefficient = 1000         # m2/s
value_of_CS = 0.1                               # RAMS only

# Contouring: True, False, number or list of numbers    
thickness_contours = [1, 2, 5, 10, 20, 50, 100] # Options: 'True', 'False' or [1, 2] (a list of contour values)         
load_contours = [0.1, 90, 150, 300]             # Options: 'True', 'False' or [1, 2] (a list of contour values)         

thickness_units = 'cm'                          # mm/cm/m


# Run model using specified parameters
if __name__ == '__main__':

    import time, random
    from aim import run_scenario
    
    run_scenario(__file__, 
                 timestamp_output=True)    



 

Exemple #6

MFR_maximum = 1e9  # kg/s (plume only)
exit_velocity = 100  # m/s (plume only)
exit_temperature = 1073  # K (plume only)
exit_volatile_fraction = 0  # % (plume only)

# Fall3D (Volcanological input file)
terminal_velocity_model = 'ganser'  # Possibilites are ARASTOOPOR/GANSER/WILSON/DELLINO
vertical_turbulence_model = 'similarity'  # Possibilites are CONSTANT/SIMILARITY
horizontal_turbulence_model = 'rams'  # Possbilities are CONSTANT/RAMS
vertical_diffusion_coefficient = 100  # m2/s
horizontal_diffusion_coefficient = 1000  # m2/s
value_of_CS = 0.1  # RAMS only

# Contouring: True, False, number or list of numbers
thickness_contours = [
    1, 2, 5, 10, 20, 50, 100
]  # Options: 'True', 'False' or [1, 2] (a list of contour values)
load_contours = [
    0.1, 90, 150, 300
]  # Options: 'True', 'False' or [1, 2] (a list of contour values)

thickness_units = 'cm'  # mm/cm/m

# Run model using specified parameters
if __name__ == '__main__':

    import time, random
    from aim import run_scenario

    run_scenario(__file__, timestamp_output=True)

Exemple #7

Value_of_CS = 0.1  # RAMS only

# Output (Volcanological input file)
Postprocess_time_interval = 1  # Hours
Postprocess_3D_variables = 'No'  # Yes/No
Postprocess_classes = 'No'  # Yes/No
Track_points = 'No'  # Yes/No

Topography_grid = 'merapi_topography.txt'  # Specify ASCII topography grid to use.
# If empty, AIM will look for a topography grid named
# <scenario_name>.top (surfer GRD format)

# Contouring:
#   False: Disabled
#   True: Provide a fixed number of contours covering entire range
#   Number: Fixed (vertical) interval between contours
#   List of numbers: Exact contour levels
Thickness_contours = [1, 2, 5, 50,
                      100]  # True, False, number or list of numbers
Thickness_units = 'cm'  # mm/cm/m

Load_contours = 2000  # True, False, number or list of numbers

# Run model using specified parameters
if __name__ == '__main__':

    import time, random
    from aim import run_scenario

    run_scenario(__file__, timestamp_output=True, dircomment=Eruption_comment)