Ejemplos de write_journals en Python, ejemplos de fluutils.write_journals en Python

Ejemplo n.º 1

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    'reno': 3.65E+06,
    'aoas': aoas
}
airfs_def['e44r19600us0.78ue0.98ampl0.0005p2.0sineWave'] = {
    'mach': 0.2106,
    'reno': 3.65E+06,
    'aoas': aoas
}
airfs_def['e44r19600us0.78ue0.98ampl0.0015p2.0sineWave'] = {
    'mach': 0.2106,
    'reno': 3.65E+06,
    'aoas': aoas
}
airfs_def['e44r19600us0.78ue0.98ampl0.003p2.0sineWave'] = {
    'mach': 0.2106,
    'reno': 3.65E+06,
    'aoas': aoas
}
airfs_def['e44r19600us0.78ue0.98ampl0.005p2.0sineWave'] = {
    'mach': 0.2106,
    'reno': 3.65E+06,
    'aoas': aoas
}

# futils.write_journals(airfs_def, 'default_sst.jou', 'sst', 'st', 'output/jou')
# futils.write_shell_scripts(airfs_def, 'job.sh', 'sst', 'st', 'output/qsh')

futils.write_journals(airfs_def, 'default_reTheta.jou', 'reTheta', 'st',
                      'output/jou')
futils.write_shell_scripts(airfs_def, 'job.sh', 'reTheta', 'st', 'output/qsh')

Ejemplo n.º 2

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Archivo: wjou_3d_ref_rot.py Proyecto: drWindstrom/fluent

# futils.write_journals(airfs_def, 'default_sst.jou', 'sst', 'st', 'output/sst/jou')
# futils.write_shell_scripts(airfs_def, 'job.sh', 'sst', 'st', 'output/sst/qsh')

# # ReTheta transition model with coupled solver
# futils.write_journals(airfs_def, 'default_reTheta.jou', 'reTheta', 'st', 'output/reTheta/jou')
# futils.write_shell_scripts(airfs_def, 'job.sh', 'reTheta', 'st', 'output/reTheta/qsh')

# # SST turbulence model with SIMPLE segregated solver
# futils.write_journals(airfs_def, 'default_sstSimple.jou', 'sstSimple', 'st', 'output/sstSimple/jou')
# futils.write_shell_scripts(airfs_def, 'job.sh', 'sstSimple', 'st', 'output/sstSimple/qsh')

# # ReTheta transition model with SIMPLE segregated solver
# futils.write_journals(airfs_def, 'default_reThetaSimple.jou', 'reThetaSimple', 'st', 'output/reThetaSimple/jou')
# futils.write_shell_scripts(airfs_def, 'job.sh', 'reThetaSimple', 'st', 'output/reThetaSimple/qsh')

# # SST turbulence model with SIMPLE segregated solver
# futils.write_journals(airfs_def, 'default_sstPiso.jou', 'sst', 'tr', 'output/sstPiso/jou')
# futils.write_shell_scripts(airfs_def, 'job_tr.sh', 'sst', 'tr', 'output/sstPiso/qsh')

# # SST turbulence model with coupled solver and pseudo transient option
futils.write_journals(airfs_def, 'default_sstPseudoTrans.jou', 'sst', 'st',
                      'output/sstPseudoTrans/jou')
futils.write_shell_scripts(airfs_def, 'job.sh', 'sst', 'st',
                           'output/sstPseudoTrans/qsh')

# # ReTheta transition model with coupled solver and pseudo transient option
futils.write_journals(airfs_def, 'default_reThetaPseudoTrans.jou', 'reTheta',
                      'st', 'output/reThetaPseudoTrans/jou')
futils.write_shell_scripts(airfs_def, 'job.sh', 'reTheta', 'st',
                           'output/reThetaPseudoTrans/qsh')

Ejemplo n.º 3

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Archivo: wjou_3d_ref_rot.py Proyecto: drWindstrom/fluent

# airfs_def['e44r21500'] = {'mach': 0.2305, 'reno': 2.59E+06, 'aoas': aoas}
# airfs_def['e44r22000'] = {'mach': 0.2358, 'reno': 1.91E+06, 'aoas': aoas}

# # SST turbulence model with coupled solver
# futils.write_journals(airfs_def, 'default_sst.jou', 'sst', 'st', 'output/sst/jou')
# futils.write_shell_scripts(airfs_def, 'job.sh', 'sst', 'st', 'output/sst/qsh')

# # ReTheta transition model with coupled solver
# futils.write_journals(airfs_def, 'default_reTheta.jou', 'reTheta', 'st', 'output/reTheta/jou')
# futils.write_shell_scripts(airfs_def, 'job.sh', 'reTheta', 'st', 'output/reTheta/qsh')

# # SST turbulence model with SIMPLE segregated solver
# futils.write_journals(airfs_def, 'default_sstSimple.jou', 'sstSimple', 'st', 'output/sstSimple/jou')
# futils.write_shell_scripts(airfs_def, 'job.sh', 'sstSimple', 'st', 'output/sstSimple/qsh')

# # ReTheta transition model with SIMPLE segregated solver
# futils.write_journals(airfs_def, 'default_reThetaSimple.jou', 'reThetaSimple', 'st', 'output/reThetaSimple/jou')
# futils.write_shell_scripts(airfs_def, 'job.sh', 'reThetaSimple', 'st', 'output/reThetaSimple/qsh')

# # SST turbulence model with SIMPLE segregated solver
# futils.write_journals(airfs_def, 'default_sstPiso.jou', 'sst', 'tr', 'output/sstPiso/jou')
# futils.write_shell_scripts(airfs_def, 'job_tr.sh', 'sst', 'tr', 'output/sstPiso/qsh')

# # SST turbulence model with coupled solver and pseudo transient option
futils.write_journals(airfs_def, 'default_sstPseudoTrans.jou', 'sst', 'st', 'output/sstPseudoTrans/jou')
futils.write_shell_scripts(airfs_def, 'job.sh', 'sst', 'st', 'output/sstPseudoTrans/qsh')

# # ReTheta transition model with coupled solver and pseudo transient option
futils.write_journals(airfs_def, 'default_reThetaPseudoTrans.jou', 'reTheta', 'st', 'output/reThetaPseudoTrans/jou')
futils.write_shell_scripts(airfs_def, 'job.sh', 'reTheta', 'st', 'output/reThetaPseudoTrans/qsh')

Ejemplo n.º 4

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Archivo: wjou_airfmod.py Proyecto: drWindstrom/fluent

airfs_def['e44r19600Alpha1.5LeRot'] = {'mach': 0.2106, 'reno': 3.65E+06, 'aoas': aoas}
airfs_def['e44r19600Alpha1.5TeRot'] = {'mach': 0.2106, 'reno': 3.65E+06, 'aoas': aoas}
airfs_def['e44r19600Alpha2.0LeRot'] = {'mach': 0.2106, 'reno': 3.65E+06, 'aoas': aoas}
airfs_def['e44r19600Alpha2.0TeRot'] = {'mach': 0.2106, 'reno': 3.65E+06, 'aoas': aoas}
airfs_def['e44r19600us0.02ue0.22ampl0.0005p2.0sineWave'] = {'mach': 0.2106, 'reno': 3.65E+06, 'aoas': aoas}
airfs_def['e44r19600us0.02ue0.22ampl0.0015p2.0sineWave'] = {'mach': 0.2106, 'reno': 3.65E+06, 'aoas': aoas}
airfs_def['e44r19600us0.02ue0.22ampl0.003p2.0sineWave'] = {'mach': 0.2106, 'reno': 3.65E+06, 'aoas': aoas}
airfs_def['e44r19600us0.02ue0.22ampl0.005p2.0sineWave'] = {'mach': 0.2106, 'reno': 3.65E+06, 'aoas': aoas}
airfs_def['e44r19600us0.2ue0.4ampl0.0005p2.0sineWave'] = {'mach': 0.2106, 'reno': 3.65E+06, 'aoas': aoas}
airfs_def['e44r19600us0.2ue0.4ampl0.0015p2.0sineWave'] = {'mach': 0.2106, 'reno': 3.65E+06, 'aoas': aoas}
airfs_def['e44r19600us0.2ue0.4ampl0.003p2.0sineWave'] = {'mach': 0.2106, 'reno': 3.65E+06, 'aoas': aoas}
airfs_def['e44r19600us0.2ue0.4ampl0.005p2.0sineWave'] = {'mach': 0.2106, 'reno': 3.65E+06, 'aoas': aoas}
airfs_def['e44r19600us0.4ue0.6ampl0.0005p2.0sineWave'] = {'mach': 0.2106, 'reno': 3.65E+06, 'aoas': aoas}
airfs_def['e44r19600us0.4ue0.6ampl0.0015p2.0sineWave'] = {'mach': 0.2106, 'reno': 3.65E+06, 'aoas': aoas}
airfs_def['e44r19600us0.4ue0.6ampl0.003p2.0sineWave'] = {'mach': 0.2106, 'reno': 3.65E+06, 'aoas': aoas}
airfs_def['e44r19600us0.4ue0.6ampl0.005p2.0sineWave'] = {'mach': 0.2106, 'reno': 3.65E+06, 'aoas': aoas}
airfs_def['e44r19600us0.6ue0.8ampl0.0005p2.0sineWave'] = {'mach': 0.2106, 'reno': 3.65E+06, 'aoas': aoas}
airfs_def['e44r19600us0.6ue0.8ampl0.0015p2.0sineWave'] = {'mach': 0.2106, 'reno': 3.65E+06, 'aoas': aoas}
airfs_def['e44r19600us0.6ue0.8ampl0.003p2.0sineWave'] = {'mach': 0.2106, 'reno': 3.65E+06, 'aoas': aoas}
airfs_def['e44r19600us0.6ue0.8ampl0.005p2.0sineWave'] = {'mach': 0.2106, 'reno': 3.65E+06, 'aoas': aoas}
airfs_def['e44r19600us0.78ue0.98ampl0.0005p2.0sineWave'] = {'mach': 0.2106, 'reno': 3.65E+06, 'aoas': aoas}
airfs_def['e44r19600us0.78ue0.98ampl0.0015p2.0sineWave'] = {'mach': 0.2106, 'reno': 3.65E+06, 'aoas': aoas}
airfs_def['e44r19600us0.78ue0.98ampl0.003p2.0sineWave'] = {'mach': 0.2106, 'reno': 3.65E+06, 'aoas': aoas}
airfs_def['e44r19600us0.78ue0.98ampl0.005p2.0sineWave'] = {'mach': 0.2106, 'reno': 3.65E+06, 'aoas': aoas}

# futils.write_journals(airfs_def, 'default_sst.jou', 'sst', 'st', 'output/jou')
# futils.write_shell_scripts(airfs_def, 'job.sh', 'sst', 'st', 'output/qsh')

futils.write_journals(airfs_def, 'default_reTheta.jou', 'reTheta', 'st', 'output/jou')
futils.write_shell_scripts(airfs_def, 'job.sh', 'reTheta', 'st', 'output/qsh')