from snake.ibamr.simulation import IBAMRSimulation from snake.petibm.simulation import PetIBMSimulation simulation = IBAMRSimulation(description='IBAMR') simulation.read_forces() simulation.get_mean_forces(limits=[32.0, 64.0]) simulation.get_strouhal(limits=[32.0, 64.0], order=200) other = PetIBMSimulation(description='other', directory='other') other.read_forces() other.get_mean_forces(limits=[32.0, 64.0]) other.get_strouhal(limits=[32.0, 64.0], order=200) simulation.plot_forces(display_coefficients=True, coefficient=-2.0, display_extrema=True, order=200, limits=(0.0, 80.0, 0.0, 3.0), other_simulations=other, other_coefficients=2.0, save_name='forceCoefficientsCompareOther') dataframe = simulation.create_dataframe_forces(display_strouhal=True, display_coefficients=True, coefficient=-2.0) dataframe2 = other.create_dataframe_forces(display_strouhal=True, display_coefficients=True, coefficient=2.0) dataframe = dataframe.append(dataframe2) print(dataframe)
# file: plotForceCoefficients.py # author: Olivier Mesnard ([email protected]) # description: Plots the instantaneous force coefficients. # Run this script from the simulation directory. from snake.ibamr.simulation import IBAMRSimulation simulation = IBAMRSimulation() simulation.read_forces() simulation.get_mean_forces(limits=[32.0, 64.0]) simulation.get_strouhal(limits=[32.0, 64.0], order=200) simulation.plot_forces(display_coefficients=True, coefficient=-2.0, display_extrema=True, order=200, limits=(0.0, 80.0, 0.0, 3.0), save_name='forceCoefficients') simulation.plot_forces(display_coefficients=True, coefficient=-2.0, display_extrema=True, order=200, limits=(0.0, 100.0, 0.0, 3.0), save_name='forceCoefficientsExtended') dataframe = simulation.create_dataframe_forces(display_strouhal=True, display_coefficients=True, coefficient=-2.0) print(dataframe)
simulation.read_forces() time_limits = (32.0, 64.0) simulation.get_mean_forces(limits=time_limits) simulation.get_strouhal(limits=time_limits, order=200) krishnan = CuIBMSimulation(description='Krishnan et al. (2014)') filepath = os.path.join(os.environ['SNAKE'], 'resources', 'flyingSnake2d_cuibm_anush', 'flyingSnake2dRe2000AoA35', 'forces') krishnan.read_forces(file_path=filepath) krishnan.get_mean_forces(limits=time_limits) krishnan.get_strouhal(limits=time_limits, order=200) simulation.plot_forces(display_coefficients=True, coefficient=-2.0, display_extrema=True, order=200, limits=(0.0, 80.0, 0.0, 3.0), other_simulations=krishnan, other_coefficients=2.0, style='mesnardo', save_name='forceCoefficientsCompareKrishnanEtAl2014') dataframe = simulation.create_dataframe_forces(display_strouhal=True, display_coefficients=True, coefficient=-2.0) dataframe2 = krishnan.create_dataframe_forces(display_strouhal=True, display_coefficients=True, coefficient=2.0) print(dataframe.append(dataframe2))
""" Post-processes the force coefficients from a IBAMR simulation. This script reads the forces, computes the mean forces within a given range, computes the Strouhal number within a range, plots the force coefficients, saves the figure, and prints a data-frame that contains the mean values. """ from snake.ibamr.simulation import IBAMRSimulation simulation = IBAMRSimulation() simulation.read_forces() time_limits = (32.0, 64.0) simulation.get_mean_forces(limits=time_limits) simulation.get_strouhal(limits=time_limits, order=200) simulation.plot_forces(display_coefficients=True, coefficient=-2.0, display_extrema=True, order=200, limits=(0.0, 80.0, 0.0, 3.0), style='mesnardo', save_name='forceCoefficients') dataframe = simulation.create_dataframe_forces(display_strouhal=True, display_coefficients=True, coefficient=-2.0) print(dataframe)
simulation = IBAMRSimulation(description='IBAMR') simulation.read_forces() simulation.get_mean_forces(limits=[32.0, 64.0]) simulation.get_strouhal(limits=[32.0, 64.0], order=200) krishnan = CuIBMSimulation(description='Krishnan et al. (2014)') krishnan.read_forces(file_path='{}/resources/flyingSnake2d_cuibm_anush/' 'flyingSnake2dRe2000AoA35/forces' ''.format(os.environ['SNAKE'])) krishnan.get_mean_forces(limits=[32.0, 64.0]) krishnan.get_strouhal(limits=[32.0, 64.0], order=200) simulation.plot_forces(indices=[1], display_coefficients=True, coefficient=-2.0, display_extrema=True, order=200, limits=(0.0, 80.0, 0.0, 3.0), other_simulations=krishnan, other_coefficients=2.0, save_name='liftCoefficientCompareKrishnanEtAl2014') dataframe = simulation.create_dataframe_forces(indices=[1], display_strouhal=True, display_coefficients=True, coefficient=-2.0) dataframe2 = krishnan.create_dataframe_forces(indices=[1], display_strouhal=True, display_coefficients=True, coefficient=2.0) dataframe = dataframe.append(dataframe2) print(dataframe)
simulation.read_forces() simulation.get_mean_forces(limits=[32.0, 64.0]) simulation.get_strouhal(limits=[32.0, 64.0], order=200) krishnan = CuIBMSimulation(description='Krishnan et al. (2014)') krishnan.read_forces(file_path='{}/resources/flyingSnake2d_cuibm_anush/' 'flyingSnake2dRe2000AoA35/forces' ''.format(os.environ['SNAKE'])) krishnan.get_mean_forces(limits=[32.0, 64.0]) krishnan.get_strouhal(limits=[32.0, 64.0], order=200) simulation.plot_forces(indices=[1], display_coefficients=True, coefficient=-2.0, display_extrema=True, order=200, limits=(0.0, 80.0, 0.0, 3.0), other_simulations=krishnan, other_coefficients=2.0, save_name='liftCoefficientCompareKrishnanEtAl2014') dataframe = simulation.create_dataframe_forces(indices=[1], display_strouhal=True, display_coefficients=True, coefficient=-2.0) dataframe2 = krishnan.create_dataframe_forces(indices=[1], display_strouhal=True, display_coefficients=True, coefficient=2.0) dataframe = dataframe.append(dataframe2) print(dataframe)
time_limits = (32.0, 64.0) simulation.get_mean_forces(limits=time_limits) simulation.get_strouhal(limits=time_limits, order=200) krishnan = CuIBMSimulation(description='Krishnan et al. (2014)') filepath = os.path.join(os.environ['SNAKE'], 'resources', 'flyingSnake2d_cuibm_anush', 'flyingSnake2dRe2000AoA35', 'forces') krishnan.read_forces(file_path=filepath) krishnan.get_mean_forces(limits=time_limits) krishnan.get_strouhal(limits=time_limits, order=200) simulation.plot_forces(display_coefficients=True, coefficient=-2.0, display_extrema=True, order=200, limits=(0.0, 80.0, 0.0, 3.0), other_simulations=krishnan, other_coefficients=2.0, style='mesnardo', save_name='forceCoefficientsCompareKrishnanEtAl2014') dataframe = simulation.create_dataframe_forces(display_strouhal=True, display_coefficients=True, coefficient=-2.0) dataframe2 = krishnan.create_dataframe_forces(display_strouhal=True, display_coefficients=True, coefficient=2.0) print(dataframe.append(dataframe2))