辅助动力装置(APU) (APU: Auxiliary Power Unit (APU))
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Definition
当主发动机关闭时提供电力和空调的位于尾部的小型发动机。
什么是APU?
An Auxiliary Power Unit (APU) is a small gas turbine engine installed in the tailcone of most commercial aircraft. Unlike the main propulsion engines, the APU is not used for thrust; instead, it generates electrical power and compressed air (bleed air) to operate aircraft systems — air conditioning, avionics, and engine starting — independently of the main engines and without relying on ground support equipment.
功能与用途
The APU fulfils three core functions. First, it provides electrical power: the APU drives generators that supply 115V AC power (typically 90–120 kVA) to the entire aircraft electrical bus when main engines are shut down at the gate, allowing cabin lighting, galley equipment, entertainment systems, and avionics to operate normally during boarding and deplaning.
Second, it supplies bleed air — high-pressure compressed air extracted from the APU compressor — to the aircraft's pneumatic system. This air powers the air conditioning packs that cool or heat the cabin before engine start and, critically, drives the main engine pneumatic starters, spinning the high-pressure spool up to ignition speed.
Third, the APU serves as an emergency backup: if both main engine generators fail in flight, the APU can be started to restore electrical power. On the Boeing 787, which uses an all-electric architecture (no bleed air from engines), the APU still provides electrical power but does not supply pneumatic bleed air to the cabin systems.
类型与变体
- Standard bleed-air APU: Used on the vast majority of commercial jets (Boeing 737, 747, 777; Airbus A320, A330, A340). Supplies both electrical and pneumatic power.
- No-bleed APU (Boeing 787): The 787's APU (Honeywell HGT1700) provides only electrical power; the all-electric architecture uses electric compressors for cabin pressurization and engine starting motors instead of bleed air.
- Integrated drive generator (IDG) APU: Some regional jets integrate the APU function more closely with the main electrical system architecture.
典型案例
The Honeywell 131-9(A) APU powers the Boeing 737 Classic and Next Generation families, producing 90 kVA of electrical power and sufficient bleed air to start both CFM56 engines. The Pratt & Whitney Canada APS3200 serves the Airbus A320 family. The Boeing 787's APU is housed in the composite tailcone of the empennage, accessed through a distinctive louvered exhaust vent visible on the tail.
相关组件
The APU's bleed air output feeds directly into the same pneumatic manifolds used by the main engines, making it a transparent substitute for ground air carts. The APU exhaust exits through the tail of the aircraft via the empennage tailcone structure. The APU is automatically governed by a dedicated control unit and can be started and stopped from the overhead panel of the cockpit, or in some cases remotely from the ground via maintenance interfaces. Paired with turbofan engine starters, the APU forms a self-sufficient system that eliminates the need for ground starting equipment.
Related Terms
冲压空气涡轮(RAT)
全机断电时自动伸入气流的小型应急涡轮,利用冲压气流驱动螺旋桨为必要飞行操纵和仪表提供液压压力和电力。
客舱气压
为在巡航高度保持乘客舒适而在飞机机身内部维持的调节气压。
尾翼
包括水平安定面和垂直安定面在内的飞机尾部组件。
引气
从发动机压气机级抽取的高压高温空气,用于客舱增压、空调、机翼除冰等飞机系统。
无引气架构
Boeing 787率先采用的现代飞机设计理念,完全取消发动机引气,用电动压缩机、泵和加热元件取代气动系统,提升燃油效率和可靠性。
气动系统
通常使用从发动机压缩机级提取的引气,用于客舱增压、防冰、发动机启动和液压油箱加压的飞机系统。
环境控制系统(ECS)
通过调节发动机引气或电动压缩空气来维持客舱温度、压力和空气质量的集成系统,确保旅客和机组人员的舒适与安全。
电气汇流条
按优先级分层组织的飞机内部配电网络,将发电机、APU或电池的电能分配至航电设备和系统,确保关键设备优先获得供电。