From e36fae2837db711fb3ba892386b1d193ab0cfcc2 Mon Sep 17 00:00:00 2001 From: Marius Peter Date: Sun, 30 Jun 2019 16:02:31 -0700 Subject: example --- example.py | 118 ----------------------------------------------------- example_airfoil.py | 118 +++++++++++++++++++++++++++++++++++++++++++++++++++++ 2 files changed, 118 insertions(+), 118 deletions(-) delete mode 100644 example.py create mode 100644 example_airfoil.py diff --git a/example.py b/example.py deleted file mode 100644 index 966dcc8..0000000 --- a/example.py +++ /dev/null @@ -1,118 +0,0 @@ -# This file is part of Marius Peter's airfoil analysis package (this program). -# -# This program is free software: you can redistribute it and/or modify -# it under the terms of the GNU General Public License as published by -# the Free Software Foundation, either version 3 of the License, or -# (at your option) any later version. -# -# This program is distributed in the hope that it will be useful, -# but WITHOUT ANY WARRANTY; without even the implied warranty of -# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the -# GNU General Public License for more details. -# -# You should have received a copy of the GNU General Public License -# along with this program. If not, see . - - -import creator # Create geometry -import evaluator # Evaluate geometry -import generator # Iteratevely evaluate instances of geometry and optimize -import numpy as np - -import time -start_time = time.time() - -# Airfoil dimensions -NACA_NUM = 2412 -CHORD_LENGTH = 68 # inches -SEMI_SPAN = 150 # inches - -# Thicknesses -SPAR_THICKNESS = 0.4 -SKIN_THICKNESS = 0.1 - -# Component masses -AIRFOIL_MASS = 10 # lbs -SPAR_MASS = 10 # lbs -STRINGER_MASS = 5 # lbs - -# Area -SPAR_CAP_AREA = 0.3 # sqin -STRINGER_AREA = 0.1 # sqin - -# Amount of stringers -TOP_STRINGERS = 6 -BOTTOM_STRINGERS = 4 -NOSE_TOP_STRINGERS = 3 -NOSE_BOTTOM_STRINGERS = 5 - -# population information & save path -POP_SIZE = 1 -SAVE_PATH = 'C:/Users/blend/github/UCLA_MAE_154B/save' - - -def main(): - """ - Create an airfoil; - Evaluate an airfoil; - Generate a population of airfoils & optimize. - """ - - # Create airfoil instance - af = creator.Airfoil.from_dimensions(CHORD_LENGTH, SEMI_SPAN) - # Define NACA airfoil coordinates and mass - af.add_naca(NACA_NUM) - af.add_mass(AIRFOIL_MASS) - # af.info_print(2) - af.info_save(SAVE_PATH, 'foo_name') - - # Create spar instance - af.spar = creator.Spar() - # Define the spar coordinates and mass, stored in single spar object - af.spar.add_coord(af, 0.23) - af.spar.add_coord(af, 0.57) - # Automatically adds spar caps for each spar defined previously - af.spar.add_spar_caps(SPAR_CAP_AREA) - af.spar.add_mass(SPAR_MASS) - af.spar.add_webs(SPAR_THICKNESS) - # af.spar.info_print(2) - af.spar.info_save(SAVE_PATH, 'foo_name') - - # Create stringer instance - af.stringer = creator.Stringer() - # Compute the stringer coordinates from their quantity in each zone - af.stringer.add_coord(af, - NOSE_TOP_STRINGERS, - TOP_STRINGERS, - NOSE_BOTTOM_STRINGERS, - BOTTOM_STRINGERS) - af.stringer.add_area(STRINGER_AREA) - af.stringer.add_mass(STRINGER_MASS) - af.stringer.add_webs(SKIN_THICKNESS) - # af.stringer.info_print(2) - af.stringer.info_save(SAVE_PATH, 'foo_name') - - # Plot components with matplotlib - creator.plot_geom(af, True) - - # Evaluator object contains airfoil analysis results. - eval = evaluator.Evaluator(af) - # The analysis is performed in the evaluator.py module. - eval.analysis(1, 1) - # eval.info_print(2) - eval.info_save(SAVE_PATH, 'foo_name') - # evaluator.plot_geom(eval) - # evaluator.plot_lift(eval) - - pop = generator.Population(10) - - # print(help(creator)) - # print(help(evaluator)) - # print(help(generator)) - - # Print final execution time - print("--- %s seconds ---" % (time.time() - start_time)) - - -if __name__ == '__main__': - main() diff --git a/example_airfoil.py b/example_airfoil.py new file mode 100644 index 0000000..966dcc8 --- /dev/null +++ b/example_airfoil.py @@ -0,0 +1,118 @@ +# This file is part of Marius Peter's airfoil analysis package (this program). +# +# This program is free software: you can redistribute it and/or modify +# it under the terms of the GNU General Public License as published by +# the Free Software Foundation, either version 3 of the License, or +# (at your option) any later version. +# +# This program is distributed in the hope that it will be useful, +# but WITHOUT ANY WARRANTY; without even the implied warranty of +# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the +# GNU General Public License for more details. +# +# You should have received a copy of the GNU General Public License +# along with this program. If not, see . + + +import creator # Create geometry +import evaluator # Evaluate geometry +import generator # Iteratevely evaluate instances of geometry and optimize +import numpy as np + +import time +start_time = time.time() + +# Airfoil dimensions +NACA_NUM = 2412 +CHORD_LENGTH = 68 # inches +SEMI_SPAN = 150 # inches + +# Thicknesses +SPAR_THICKNESS = 0.4 +SKIN_THICKNESS = 0.1 + +# Component masses +AIRFOIL_MASS = 10 # lbs +SPAR_MASS = 10 # lbs +STRINGER_MASS = 5 # lbs + +# Area +SPAR_CAP_AREA = 0.3 # sqin +STRINGER_AREA = 0.1 # sqin + +# Amount of stringers +TOP_STRINGERS = 6 +BOTTOM_STRINGERS = 4 +NOSE_TOP_STRINGERS = 3 +NOSE_BOTTOM_STRINGERS = 5 + +# population information & save path +POP_SIZE = 1 +SAVE_PATH = 'C:/Users/blend/github/UCLA_MAE_154B/save' + + +def main(): + """ + Create an airfoil; + Evaluate an airfoil; + Generate a population of airfoils & optimize. + """ + + # Create airfoil instance + af = creator.Airfoil.from_dimensions(CHORD_LENGTH, SEMI_SPAN) + # Define NACA airfoil coordinates and mass + af.add_naca(NACA_NUM) + af.add_mass(AIRFOIL_MASS) + # af.info_print(2) + af.info_save(SAVE_PATH, 'foo_name') + + # Create spar instance + af.spar = creator.Spar() + # Define the spar coordinates and mass, stored in single spar object + af.spar.add_coord(af, 0.23) + af.spar.add_coord(af, 0.57) + # Automatically adds spar caps for each spar defined previously + af.spar.add_spar_caps(SPAR_CAP_AREA) + af.spar.add_mass(SPAR_MASS) + af.spar.add_webs(SPAR_THICKNESS) + # af.spar.info_print(2) + af.spar.info_save(SAVE_PATH, 'foo_name') + + # Create stringer instance + af.stringer = creator.Stringer() + # Compute the stringer coordinates from their quantity in each zone + af.stringer.add_coord(af, + NOSE_TOP_STRINGERS, + TOP_STRINGERS, + NOSE_BOTTOM_STRINGERS, + BOTTOM_STRINGERS) + af.stringer.add_area(STRINGER_AREA) + af.stringer.add_mass(STRINGER_MASS) + af.stringer.add_webs(SKIN_THICKNESS) + # af.stringer.info_print(2) + af.stringer.info_save(SAVE_PATH, 'foo_name') + + # Plot components with matplotlib + creator.plot_geom(af, True) + + # Evaluator object contains airfoil analysis results. + eval = evaluator.Evaluator(af) + # The analysis is performed in the evaluator.py module. + eval.analysis(1, 1) + # eval.info_print(2) + eval.info_save(SAVE_PATH, 'foo_name') + # evaluator.plot_geom(eval) + # evaluator.plot_lift(eval) + + pop = generator.Population(10) + + # print(help(creator)) + # print(help(evaluator)) + # print(help(generator)) + + # Print final execution time + print("--- %s seconds ---" % (time.time() - start_time)) + + +if __name__ == '__main__': + main() -- cgit v1.2.3