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Python Data.zfw方法代码示例

本文整理汇总了Python中SUAVE.Structure.Data.zfw方法的典型用法代码示例。如果您正苦于以下问题:Python Data.zfw方法的具体用法?Python Data.zfw怎么用?Python Data.zfw使用的例子?那么恭喜您, 这里精选的方法代码示例或许可以为您提供帮助。您也可以进一步了解该方法所在SUAVE.Structure.Data的用法示例。


在下文中一共展示了Data.zfw方法的2个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于系统推荐出更棒的Python代码示例。

示例1: main

# 需要导入模块: from SUAVE.Structure import Data [as 别名]
# 或者: from SUAVE.Structure.Data import zfw [as 别名]
def main():

    # new units style
    a = 4 * Units.mm # convert into base units
    b = a / Units.mm # convert out of base units

    engine = Data()
    wing = Data()
    aircraft = Data()
    fuselage = Data()
    horizontal = Data()
    vertical = Data()

    # Parameters Required
    aircraft.Nult      = 1.5 * 2.5                       # Ultimate load
    aircraft.TOW       = 52300.  * Units.kilograms # Maximum takeoff weight in kilograms
    aircraft.zfw       = 42600. * Units.kilograms # Maximum zero fuel weight in kilograms
    aircraft.Nlim      = 2.5                       # Limit Load
    aircraft.num_eng   = 2.                        # Number of engines on the aircraft
    aircraft.num_pax   = 110.                      # Number of passengers
    aircraft.wt_cargo  = 0.  * Units.kilogram  # Mass of cargo
    aircraft.num_seats = 110.                      # Number of seats on aircraft
    aircraft.ctrl      = "partially powered"       # Specify fully powered, partially powered or anything else is fully aerodynamic
    aircraft.ac        = "medium-range"              # Specify what type of aircraft you have
    aircraft.w2h       = 16.     * Units.meters    # Length from the mean aerodynamic center of wing to mean aerodynamic center of the horizontal tail

    wing.gross_area    = 92.    * Units.meter**2  # Wing gross area in square meters
    wing.span          = 27.8     * Units.meter     # Span in meters
    wing.taper         = 0.28                       # Taper ratio
    wing.t_c           = 0.105                      # Thickness-to-chord ratio
    wing.sweep         = 23.5     * Units.deg       # sweep angle in degrees
    wing.c_r           = 5.4     * Units.meter     # Wing exposed root chord length
    wing.mac           = 12.     * Units.ft    # Length of the mean aerodynamic chord of the wing

    fuselage.area      = 320.      * Units.meter**2  # Fuselage wetted area 
    fuselage.diff_p    = 8.5     * Units.force_pound / Units.inches**2    # Maximum differential pressure
    fuselage.width     = 3.      * Units.meter     # Width of the fuselage
    fuselage.height    = 3.35    * Units.meter     # Height of the fuselage
    fuselage.length    = 36.24     * Units.meter     # Length of the fuselage

    engine.thrust_sls  = 18500.   * Units.force_pound    # Define Thrust in Newtons

    horizontal.area    = 26.     * Units.meters**2 # Area of the horizontal tail
    horizontal.span    = 12.08     * Units.meters    # Span of the horizontal tail
    horizontal.sweep   = 34.5     * Units.deg       # Sweep of the horizontal tail
    horizontal.mac     = 2.4      * Units.meters    # Length of the mean aerodynamic chord of the horizontal tail
    horizontal.t_c     = 0.11                      # Thickness-to-chord ratio of the horizontal tail
    horizontal.exposed = 0.9                         # Fraction of horizontal tail area exposed

    vertical.area      = 16.     * Units.meters**2 # Area of the vertical tail
    vertical.span      = 5.3     * Units.meters    # Span of the vertical tail
    vertical.t_c       = 0.12                      # Thickness-to-chord ratio of the vertical tail
    vertical.sweep     = 35.     * Units.deg       # Sweep of the vertical tail
    vertical.t_tail    = "no"                      # Set to "yes" for a T-tail

    aircraft.weight = Tube_Wing.empty(engine,wing,aircraft,fuselage,horizontal,vertical)

    outputWeight(aircraft,'weight_EMB190.dat')
开发者ID:designToolDeveloper,项目名称:SUAVE,代码行数:60,代码来源:test_weights_Embraer_190.py

示例2: Data

# 需要导入模块: from SUAVE.Structure import Data [as 别名]
# 或者: from SUAVE.Structure.Data import zfw [as 别名]
# new units style
a = 4 * Units.mm # convert into base units
b = a / Units.mm # convert out of base units

engine = Data()
wing = Data()
aircraft = Data()
fuselage = Data()
horizontal = Data()
vertical = Data()

# Parameters Required
aircraft.Nult      = 3.5                       # Ultimate load
aircraft.TOW       = 200000. * Units.kilograms # Maximum takeoff weight in kilograms
aircraft.zfw       = 150000. * Units.kilograms # Maximum zero fuel weight in kilograms
aircraft.Nlim      = 1.5                       # Limit Load
aircraft.num_eng   = 2.                        # Number of engines on the aircraft
aircraft.num_pax   = 125.                      # Number of passengers
aircraft.wt_cargo  = 10000.  * Units.kilogram  # Mass of cargo
aircraft.num_seats = 125.                      # Number of seats on aircraft
aircraft.ctrl      = "fully powered"           # Specify fully powered, partially powered or anything else is fully aerodynamic
aircraft.ac        = "long-range"              # Specify what type of aircraft you have
aircraft.w2h       = 20.     * Units.meters    # Length from the mean aerodynamic center of wing to mean aerodynamic center of the horizontal tail

wing.gross_area    = 500.    * Units.meter**2  # Wing gross area in square meters
wing.span          = 50.     * Units.meter     # Span in meters
wing.taper         = 0.2                       # Taper ratio
wing.t_c           = 0.08                      # Thickness-to-chord ratio
wing.sweep         = 35.     * Units.deg       # sweep angle in degrees
wing.c_r           = 15.     * Units.meter     # Wing root chord length
开发者ID:thearn,项目名称:SUAVE,代码行数:32,代码来源:test_weights.py


注:本文中的SUAVE.Structure.Data.zfw方法示例由纯净天空整理自Github/MSDocs等开源代码及文档管理平台,相关代码片段筛选自各路编程大神贡献的开源项目,源码版权归原作者所有,传播和使用请参考对应项目的License;未经允许,请勿转载。