Esempio n. 1
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#Wing.TR      = [1.0,0.4] #Max L/D
#Wing.Fb      = [0.467,1] #Max L/D
#Wing.TR      = [1.0,0.2] #Max CL
#Wing.Fb      = [0.53,1] #Max CL
#Wing.TR      = [1.0,0.3] #Max e
#Wing.Fb      = [0.467,1] #Max e
#===============================================================================
# 
#===============================================================================

Wing.Gam     = [ 0*ARCDEG,0*ARCDEG]
Wing.Lam     = [ 0*ARCDEG,0*ARCDEG]

#Wing.SweepFc = 0.5
#Wing.CEdge   = 'LE' #LE of wing to be tapered or constant LE
Wing.ConstUpper = False

#
# Add Vertical Winglets

Wing.AddWinglet("Winglet",2)
Winglet = Wing.Winglets.Winglet
#
Winglet.b = 6 *IN
Winglet.Airfoil = 'NACA0006'
Winglet.Lam = [0*ARCDEG, 0*ARCDEG]
Winglet.Gam = [0*ARCDEG, 0*ARCDEG]
Winglet.Fb  = [0.1, 1.0]
Winglet.TR  = [.9, 0.05]
Winglet.SweepFc = 0.9
Winglet.Symmetric = True
Esempio n. 2
0
for i in range(len(Wing.Fb)):
    if i == 0:
        Wing.TR.append(1.0)
        Wing.Lam.append(0.0)
        Wing.Gam.append(0.0)
    elif i == len(Wing.Fb) - 1:
        Wing.TR.append(chord[i] / chord[i - 1])
        Wing.Lam.append(10 * ARCDEG)
        Wing.Gam.append(0.0)
    else:
        Wing.TR.append(chord[i] / chord[i - 1])
        Wing.Lam.append(-3 * ARCDEG)
        Wing.Gam.append(0.0)

# shiggins: this is dihedral for each section defined by Wing.Fb (invalid if ConstUpper == True)
Wing.ConstUpper = True  #top surfaces of the airfoils lie against upper wing surf

#Wing.SweepFc = 0.75 # shiggins 151107: not sure how this is calculated
Wing.CEdge = 'LE'  #LE of wing to be tapered or constant LE, shiggins 151107: will override LAM

#==============================================================================#
# Aerodynamic properties
#==============================================================================#
# Finite wing correction factor: make 2D airfoil data match the 3D wing profile
Wing.FWCF = 0.98

# Oswald efficiency
Wing.o_eff = 0.97

# Polar slope evaluations
Wing.ClSlopeAt = (0 * ARCDEG, 7 * ARCDEG)
Esempio n. 3
0
#
# Geometric properties
#
###############################################################################

Wing.FullWing = True

#Wing.UpperWing.b   = 4.5*FT
#Wing.LowerWing.b   = 4*FT

Wing.TR = [1, 0.85, 1]
Wing.Gam = [0 * ARCDEG, 0 * ARCDEG, 0 * ARCDEG]
Wing.Lam = [0 * ARCDEG, 0 * ARCDEG, 0 * ARCDEG]
Wing.Fb = [0.5, 0.9, 1]
Wing.CEdge = 'LE'
Wing.ConstUpper = True

###############################################################################
#
# Aerodynamic properties
#
###############################################################################

#
# Set the airfoils
#
Wing.Airfoil = 'e423'

Wing.o_eff = 0.98
Wing.FWCF = 0.98