공기 재순환 (Air Recirculation) (Air Recirculation)
Embed This Widget
Add the script tag and a data attribute to embed this widget.
Embed via iframe for maximum compatibility.
<iframe src="https://planefyi.com/iframe/glossary/air-recirculation/" width="420" height="400" frameborder="0" style="border:0;border-radius:10px;max-width:100%" loading="lazy"></iframe>
Paste this URL in WordPress, Medium, or any oEmbed-compatible platform.
https://planefyi.com/glossary/air-recirculation/
Add a dynamic SVG badge to your README or docs.
[](https://planefyi.com/glossary/air-recirculation/)
Use the native HTML custom element.
Definition
객실 공기의 일부를 필터링하고 재활용하여 신선한 블리드 공기 또는 압축 공기와 혼합하는 객실 시스템.
What Is Air Recirculation?
Air recirculation is the process by which a portion of the cabin air is collected from the cabin floor, filtered, and reintroduced into the cabin supply air stream alongside fresh outside air. On a typical commercial aircraft, approximately 50% of cabin air is recirculated and 50% is fresh outside air (bleed air or electrically compressed air) — a ratio that provides a far higher ventilation rate than most buildings. The complete cabin air volume is replaced every 2–3 minutes, giving commercial aircraft among the best indoor air quality of any occupied space.
How the System Works
The Environmental Control System (ECS) manages both cabin pressure and air quality simultaneously. The recirculation loop operates as follows:
- Mixed conditioned air (fresh bleed air + recirculated air) enters the cabin through outlets at the base of the overhead bin panels or through ceiling nozzles.
- Air flows downward through the cabin space, picking up heat, CO₂, and humidity from passengers.
- Return air exits through floor-level grilles and is routed to the underfloor distribution system.
- Approximately half the return air passes through HEPA (High Efficiency Particulate Air) filters that remove 99.97% of particles ≥ 0.3 microns — including bacteria, mold spores, and most virus-laden aerosols.
- The filtered air is mixed with conditioned fresh air and re-supplied to the cabin.
- The remaining return air is discharged overboard through outflow valves, maintaining cabin pressure.
HEPA Filtration and COVID-19 Context
HEPA filters used in aircraft air recirculation systems are the same grade used in hospital operating rooms and pharmaceutical clean rooms. During the COVID-19 pandemic, extensive studies confirmed that in-flight transmission risk was lower than in many ground-based settings, in large part due to the combination of HEPA filtration and the high air exchange rate. The downward airflow pattern in most commercial cabins also tends to limit fore-aft aerosol spread, containing contaminated air within a few rows of the source.
The Boeing 787 and Airbus A350 use electrically powered cabin fans and conditioning packs that recirculate cabin air more efficiently than bleed-air systems, with finer temperature zoning control and lower noise levels from the ECS ducting.
Notable Examples
The Airbus A380 ECS manages cabin conditioning across two full passenger decks using eight air conditioning packs — four per deck — with HEPA filtration on all recirculated air streams. The result is a 3-minute total cabin air replacement cycle that handles over 500 passengers' worth of CO₂, moisture, and contaminants simultaneously. The Boeing 787 ECS, free from bleed-air constraints, allows airlines to increase cabin humidity to 15–20% compared to the typical 5–8% on older aircraft — a significant factor in reducing passenger dehydration on long-haul sectors.
Related Components
Air recirculation is tightly coupled with cabin pressure management — both functions are controlled by the same ECS controller. The recirculation fans draw power from the aircraft's main electrical bus, and on the Boeing 787 this electrical load is supplied directly by the engine generators rather than via the traditional bleed air pathway. The galley and lavatory areas have independent exhaust systems that vent cooking smells and waste gases overboard without passing through the cabin recirculation loop.
Related Terms
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.
갤리 (Galley)
음식, 음료 및 기내 서비스 물품을 보관, 준비, 제공하는 항공기 주방 구역.
화장실 (Lavatory)
고도에서 진공 플러시 폐수 시스템을 사용하는 항공기 화장실 시설.
머리 위 수납함 (Overhead Bin)
기내 수하물과 개인 물품을 넣기 위해 승객 좌석 위에 설치된 수납 공간.