#~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
#
# Aircraft:
# Beech 99
# Low-speed cruise configuration
#
# File name:
# beech99-v1
#
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
#
# Authors:
#
# Jeff Scott
# 2000/03/23  initial creation using
#             "Small twin turboprop commuter airplan" data from:
#             Roskam, J., Airplane Flight Dynamics and Automatic Flight
#             Controls, Part I, DARcorporation, Lawrence, KS, 1995,
#             pg 508-510.
#
# Michael Selig
# http://www.uiuc.edu/~m-selig
# 2002/02/22  added gear
#
#~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
#
# Notes:
# - constant stability derivatives, no nonlinear aero
# - approximate gear data
#   uses Twin Otter values
#
#~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
#
# References:
#
# - Roskam, J., Airplane Flight Dynamics and Automatic Flight
#   Controls, Part I, DARcorporation, Lawrence, KS, 1995,
#   pg 508-510
#
# - Additional models and updates 
#   http://amber.aae.uiuc.edu/~m-selig/apasim.html
#
#~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

init Dz_cg 0

geometry bw     46.     # [ft]
geometry cbar    6.5    # [ft]
geometry Sw    280.     # [ft^2]

# control deflections "place holders" until aircraft data is found
controlSurface de 20 20 # [deg]
controlSurface da 20 20 # [deg]
controlSurface dr 20 20 # [deg]

mass Weight    7000     # [lb]
mass I_xx     10085     # [slug-ft^2]
mass I_yy     15148     # [slug-ft^2]
mass I_zz     23046     # [slug-ft^2]
mass I_xz      1600     # [slug-ft^2]


# Roskam: CTx=0.162 (SL conditions) --> 1550 lb
# aircraft specs: two engines of 553 kW each
#                               ~2300 lb static thrust each
engine simpleSingle 2300 # [lb]


CL CLo      0.201       # []
CL CL_a     5.48        # [/rad]
CL CL_adot  2.5         # [/rad]
CL CL_q     8.1         # [/rad]
CL CL_de    0.6         # [/rad]

CD CDo      0.027       # []
CD CD_a     0.131       # [/rad]

Cm Cmo      0.05        # []
Cm Cm_a    -1.89        # [/rad]
Cm Cm_adot -9.1         # [/rad]
Cm Cm_q   -34.0         # [/rad]
Cm Cm_de   -2.0         # [/rad]

CY CY_beta -0.59        # [/rad]
CY CY_p    -0.19        # [/rad]
CY CY_r     0.39        # [/rad]
CY CY_da    0.0         # [/rad]    sign reversed
CY CY_dr    0.148       # [/rad]

Cl Cl_beta -0.13        # [/rad]
Cl Cl_p    -0.5         # [/rad]
Cl Cl_r     0.14        # [/rad]
Cl Cl_da   -0.156       # [/rad]    sign reversed
Cl Cl_dr    0.0109      # [/rad]

Cn Cn_beta  0.08        # [/rad]
Cn Cn_p     0.0109      # [/rad]
Cn Cn_r    -0.197       # [/rad]
Cn Cn_da    0.0012      # [/rad]    sign reversed
Cn Cn_dr   -0.0772      # [/rad]

# nose wheel (must be position 0 if present)
gear Dx_gear 0 10.5     # x-offset from CG [ft]
gear Dy_gear 0 0        # y-offset from CG [ft]
gear Dz_gear 0 4.05     # z-offset from CG [ft]
gear cgear 0 4000       # damping [lbs/ft/sec]
gear kgear 0 8000       # springiness [lbs/ft]
gear muGear 0 0.01      # rolling coefficient
gear strutLength 0 -0.5 # gear travel [ft] (not yet used)

# right gear (must be position 1 if present)
gear Dx_gear 1 -3.9     # [ft]
gear Dy_gear 1 6.25     # [ft]
gear Dz_gear 1 4        # [ft]
gear cgear 1 4000       # [lbs/ft/sec]
gear kgear 1 8000       # [lbs/ft]
gear muGear 1 0.01      # rolling coefficient
gear strutLength 1 2.5  # [ft]

# left gear (must be position 2 if present)
gear Dx_gear 2 -3.9     # [ft]
gear Dy_gear 2 -6.25    # [ft]
gear Dz_gear 2 4        # [ft]
gear cgear 2 4000       # [lbs/ft/sec]
gear kgear 2 8000       # [lbs/ft]
gear muGear 2 0.01      # rolling coefficient
gear strutLength 2 2.5  # [ft]


# end of file '*'
*