보조 동력 장치 (APU) (APU: Auxiliary Power Unit (APU))
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Definition
주 엔진이 꺼져 있을 때 전력과 에어컨을 공급하는 꼬리 부분의 소형 엔진.
What Is an 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.
Function and Purpose
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.
Types and Variations
- 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.
Notable Examples
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.
Related Components
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
블리드 에어 (Bleed Air)
엔진 압축기 단에서 추출된 고압·고온 공기로, 객실 여압, 에어컨, 날개 방빙 등 항공기 시스템에 사용된다.
객실 기압 (Cabin Pressure)
순항 고도에서 승객의 쾌적함을 유지하기 위해 항공기 동체 내부에서 조절되는 기압.
환경 제어 시스템 (ECS)
승객과 승무원의 편의·안전을 위해 엔진 블리드 공기나 전기 압축 공기를 조정하여 객실 온도, 압력, 공기질을 유지하는 통합 시스템.
전기 버스 (Electrical Bus)
중요 장비에 우선적으로 전원이 공급되도록 우선순위 계층으로 구성되어 발전기·APU·배터리의 전기 에너지를 항전 장비와 시스템으로 분배하는 전력 배전망.
꼬리날개 (Empennage)
수평 안정판과 수직 안정판을 포함하는 항공기의 미부 조립체.
노-블리드 아키텍처 (No-Bleed Architecture)
Boeing 787이 선도한 현대적 항공기 설계 철학으로, 엔진 블리드 공기 추출을 완전히 없애고 공압 시스템을 전기 압축기·펌프·발열 소자로 대체하여 연료 효율과 신뢰성을 향상시킨다.
공압 시스템 (Pneumatic System)
일반적으로 엔진 압축기 단에서 추출한 블리드 공기를 사용하여 객실 여압, 방빙, 엔진 시동, 유압 저장조 가압 등을 수행하는 항공기 시스템.
램 에어 터빈 (RAM)
완전 전원 상실 시 자동으로 기류 속으로 전개되어 프로펠러를 구동함으로써 필수 비행 조종면과 계기에 유압 및 전력을 공급하는 소형 비상용 터빈.