"""
FAST - Copyright (c) 2016 ONERA ISAE
"""
# This file is part of FAST-OAD : A framework for rapid Overall Aircraft Design
# Copyright (C) 2020 ONERA & ISAE-SUPAERO
# FAST 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 <https://www.gnu.org/licenses/>.
import math
import numpy as np
from openmdao.core.explicitcomponent import ExplicitComponent
[docs]class Cd0Fuselage(ExplicitComponent):
[docs] def initialize(self):
self.options.declare("low_speed_aero", default=False, types=bool)
[docs] def setup(self):
self.low_speed_aero = self.options["low_speed_aero"]
if self.low_speed_aero:
self.add_input("data:aerodynamics:wing:low_speed:reynolds", val=np.nan)
self.add_input(
"data:aerodynamics:aircraft:low_speed:CL", shape_by_conn=True, val=np.nan
)
self.add_input("data:aerodynamics:aircraft:takeoff:mach", val=np.nan)
self.add_output(
"data:aerodynamics:fuselage:low_speed:CD0",
copy_shape="data:aerodynamics:aircraft:low_speed:CL",
)
else:
self.add_input("data:aerodynamics:wing:cruise:reynolds", val=np.nan)
self.add_input("data:aerodynamics:aircraft:cruise:CL", shape_by_conn=True, val=np.nan)
self.add_input("data:TLAR:cruise_mach", val=np.nan)
self.add_output(
"data:aerodynamics:fuselage:cruise:CD0",
copy_shape="data:aerodynamics:aircraft:cruise:CL",
)
self.add_input("data:geometry:wing:area", val=np.nan, units="m**2")
self.add_input("data:geometry:fuselage:length", val=np.nan, units="m")
self.add_input("data:geometry:fuselage:maximum_width", val=np.nan, units="m")
self.add_input("data:geometry:fuselage:maximum_height", val=np.nan, units="m")
self.add_input("data:geometry:fuselage:wetted_area", val=np.nan, units="m**2")
self.declare_partials("*", "*", method="fd")
[docs] def compute(self, inputs, outputs):
height_max = inputs["data:geometry:fuselage:maximum_height"]
width_max = inputs["data:geometry:fuselage:maximum_width"]
wet_area_fus = inputs["data:geometry:fuselage:wetted_area"]
wing_area = inputs["data:geometry:wing:area"]
fus_length = inputs["data:geometry:fuselage:length"]
if self.low_speed_aero:
cl = inputs["data:aerodynamics:aircraft:low_speed:CL"]
mach = inputs["data:aerodynamics:aircraft:takeoff:mach"]
reynolds = inputs["data:aerodynamics:wing:low_speed:reynolds"]
else:
cl = inputs["data:aerodynamics:aircraft:cruise:CL"]
mach = inputs["data:TLAR:cruise_mach"]
reynolds = inputs["data:aerodynamics:wing:cruise:reynolds"]
cf_fus = 0.455 / (
(1 + 0.144 * mach ** 2) ** 0.65 * (math.log10(reynolds * fus_length)) ** 2.58
)
cd0_friction_fus = (
(0.98 + 0.745 * math.sqrt(height_max * width_max) / fus_length)
* cf_fus
* wet_area_fus
/ wing_area
)
cd0_upsweep_fus = (
(0.0029 * cl ** 2 - 0.0066 * cl + 0.0043)
* (0.67 * 3.6 * height_max * width_max)
/ wing_area
)
cd0_fus = cd0_friction_fus + cd0_upsweep_fus
if self.low_speed_aero:
outputs["data:aerodynamics:fuselage:low_speed:CD0"] = cd0_fus
else:
outputs["data:aerodynamics:fuselage:cruise:CD0"] = cd0_fus