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    • 1. 发明申请
    • SYSTEMS AND METHODS FOR DESTABILIZING AN AIRFOIL VORTEX
    • 用于减轻AIRFOIL VORTEX的系统和方法
    • WO2008051269B1
    • 2008-09-12
    • PCT/US2007005253
    • 2007-03-02
    • BOEING COSHMILOVICH ARVINYADLIN YORAMCLARK ROGER WLEOPOLD DONALD H
    • SHMILOVICH ARVINYADLIN YORAMCLARK ROGER WLEOPOLD DONALD H
    • B64C23/06
    • B64C23/076B64C23/065Y02T50/164
    • Apparatuses and methods for the controlled trailing wake flows are disclosed. An apparatus in accordance with one embodiment is directed to an aircraft system that includes an airfoil (14) having first and second oppositely facing flow surfaces and a tip. The system can further include a vortex dissipation device (2230) carried by the airfoil, with the vortex dissipation device including a fluid flow nozzle (1590), a valve device (2231), and a controller (2233). The fluid flow nozzle can be coupleable to a source of pressurized fluid (2232) 'and can include an orifice (1591) positioned to direct a flow of fluid outwardly from the tip. The valve device can be coupled in fluid communication with the fluid flow nozzle to selectively control the flow passing through the orifice. The controller can be coupled to the valve device to direct the operation of the valve device. Accordingly, the vortex dissipation device can be activated to accelerate the rate at which vortices (e.g., wing tip vortices) dissipate after they are generated.
    • 公开了用于受控拖尾尾流的装置和方法。 根据一个实施例的装置涉及飞行器系统,该飞行器系统包括具有第一和第二相对面的流动表面和尖端的翼型件(14)。 该系统还可以包括由翼型件携带的涡流消散装置(2230),其中涡流消散装置包括流体流动喷嘴(1590),阀装置(2231)和控制器(2233)。 流体流动喷嘴可以耦合到加压流体源(2232)',并且可以包括定位成将流体流从尖端向外引导的孔口(1591)。 阀装置可以与流体流动喷嘴流体连通地联接,以选择性地控制通过孔口的流动。 控制器可以联接到阀装置以引导阀装置的操作。 因此,可以启动涡流消散装置以加速涡流(例如,翼尖涡流)在其产生之后消散的速率。
    • 2. 发明申请
    • SYSTEMS AND METHODS FOR DESTABILIZING AN AIRFOIL VORTEX
    • 用于减轻AIRFOIL VORTEX的系统和方法
    • WO2008051269A2
    • 2008-05-02
    • PCT/US2007005253
    • 2007-03-02
    • BOEING COSHMILOVICH ARVINYADLIN YORAMCLARK ROGER WLEOPOLD DONALD H
    • SHMILOVICH ARVINYADLIN YORAMCLARK ROGER WLEOPOLD DONALD H
    • B64C23/06
    • B64C23/076B64C23/065Y02T50/164
    • Apparatuses and methods for the controlled trailing wake flows are disclosed. An apparatus in accordance with one embodiment is directed to an aircraft system that includes an airfoil having first and second oppositely facing flow surfaces and a tip. The system can further include a vortex dissipation device carried by the airfoil, with the vortex dissipation device including a fluid flow nozzle, a valve device, and a controller. The fluid flow nozzle can be coupleable to a source of pressurized fluid and can include an orifice positioned to direct a flow of fluid outwardly from the tip. The valve device can be coupled in fluid communication with the fluid flow nozzle to selectively control the flow passing through the orifice. The controller can be coupled to the valve device to direct the operation of the valve device. Accordingly, the vortex dissipation device can be activated to accelerate the rate at which vortices (e.g., wing tip vortices) dissipate after they are generated.
    • 公开了用于受控拖尾尾流的装置和方法。 根据一个实施例的装置涉及一种飞行器系统,其包括具有第一和第二相对面向的流动表面和尖端的翼型件。 该系统还可以包括由翼型件携带的涡流消散装置,涡流消散装置包括流体流动喷嘴,阀装置和控制器。 流体流动喷嘴可以耦合到加压流体源,并且可以包括定位成将流体流从尖端向外引导的孔。 阀装置可以与流体流动喷嘴流体连通地联接,以选择性地控制通过孔口的流动。 控制器可以联接到阀装置以引导阀装置的操作。 因此,可以启动涡流消散装置以加速涡流(例如,翼尖涡流)在其产生之后消散的速率。
    • 5. 发明申请
    • SYSTEMS AND METHODS FOR CONTROL OF ENGINE EXHAUST FLOW
    • 用于控制发动机排气流量的系统和方法
    • WO2009079046A3
    • 2009-12-17
    • PCT/US2008076857
    • 2008-09-18
    • BOEING COSHMILOVICH ARVINYADLIN YORAMGREGG ROBERT D IIICLARK ROGER W
    • SHMILOVICH ARVINYADLIN YORAMGREGG ROBERT D IIICLARK ROGER W
    • B64C23/06
    • B64C21/04B64C9/38Y02T50/166
    • Coanda.Effect and lift produced along a surface of an airfoil are increased by- ducting (112) compressed fluid from the engine to the surface of the airfoil. An engine produces exhaust gases that are predominantly directed toward an aft end of the aircraft by a cowling (102) or other structure as an exhaust plume. One or more internal ducts extend (112) from the engine to the surface of the airfoil to thereby transmit a compressed fluid from the engine to the surface in order to suppress flow separation along the surface, thereby causing the engine exhaust flow to remain attached to the surface over a wider span. Such structures and techniques may find particular use in aircraft designed to exploit upper surface blowing (USB) techniques and structures for short takeoff and landing (STOL) performance.
    • 沿着翼面的表面产生的效应和升力通过将发动机的压缩流体(112)增加到翼型件的表面而增加。 发动机产生主要通过整流罩(102)或其它结构作为排气羽流朝向飞行器后端的废气。 一个或多个内部管道从发动机延伸(112)到翼型件的表面,从而将压缩流体从发动机传递到表面,以便抑制沿着表面的流动分离,从而使发动机排气流量保持附着于 表面越宽越宽。 这种结构和技术可以在设计用于利用上表面吹风(USB)技术和用于短起飞和着陆(STOL))性能的结构的飞机中发现。
    • 6. 发明申请
    • INTEGRATED ENGINE EXHAUST SYSTEMS AND METHODS FOR DRAG AND THERMAL STRESS REDUCTION
    • 集成式发动机排气系统及其应用和减少热应力的方法
    • WO2008054500A2
    • 2008-05-08
    • PCT/US2007008696
    • 2007-04-06
    • BOEING COSHMILOVICH ARVINYADLIN YORAMSMITH DAVID MCLARK ROGER W
    • SHMILOVICH ARVINYADLIN YORAMSMITH DAVID MCLARK ROGER W
    • B64D33/06F02K1/06F02K3/06F05D2250/14Y02T50/671
    • Integrated engine exhaust systems and methods for reducing drag and thermal loads are disclosed. In one embodiment, a propulsion system includes an engine installation configured to be mounted on a wing assembly of an aircraft. The engine installation includes an engine, and an exhaust system operatively coupled to the engine. The exhaust system includes at least one nozzle configured to exhaust an exhaust flow from the engine. The nozzle includes a variable portion configured to vary an exit aperture of the nozzle from a first shape to a second shape to change a flowfield shape of at least a portion of the nozzle flowfield proximate the wing assembly, thereby reducing at least one of drag and thermal loading on the wing assembly. In a further embodiment, the exhaust system includes an inner nozzle that exhausts a core exhaust flow, and an outer nozzle that exhausts a secondary exhaust flow, the outer nozzle having the variable portion configured to vary the exit aperture of the outer nozzle.
    • 公开了用于减少阻力和热负荷的集成发动机排气系统和方法。 在一个实施例中,推进系统包括构造成安装在飞行器的翼组件上的发动机装置。 发动机安装包括发动机和可操作地联接到发动机的排气系统。 排气系统包括至少一个喷嘴,其构造成排出来自发动机的排气流。 喷嘴包括可变部分,其被配置为将喷嘴的出口孔从第一形状改变到第二形状,以改变靠近翼组件的喷嘴流场的至少一部分的流场形状,从而减少阻力和 机翼组件上的热负荷。 在另一个实施例中,排气系统包括排出核心排气流的内部喷嘴和排出二次排气流的外部喷嘴,外部喷嘴具有可变部分,以改变外部喷嘴的出口孔径。