Estágio de Compressor (None: Compressor Stage)
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Definition
Um conjunto de perfis aerodinâmicos rotativos e estacionários dentro de um motor a jato que comprimem progressivamente o ar de admissão antes da combustão.
What Is a Compressor Stage?
A compressor stage is one compression unit within a jet engine's axial compressor, consisting of a rotating row of airfoils (rotor blades) followed immediately by a stationary row (stator vanes). Each stage incrementally raises air pressure and temperature; modern high-pressure compressors (HPC) stack 8–14 stages to achieve overall pressure ratios of 40:1 or higher before the air enters the combustion chamber.
How It Works
Incoming air from the previous stage (or the engine inlet) enters the rotor row. The rotating blades — shaped like asymmetric airfoils — accelerate the air and add kinetic energy. The downstream stator vanes then convert this kinetic energy into static pressure rise through diffusion, slowing and straightening the airflow to prepare it for the next rotor row.
Each stage achieves a pressure ratio of approximately 1.2:1 to 1.4:1. The cumulative effect through many stages is dramatic: air entering a modern high-pressure compressor at roughly 200 kPa (29 psi) exits at perhaps 4,000–5,500 kPa (580–800 psi) in the most advanced engines. Variable stator vanes on early HPC stages allow the compressor to operate efficiently across a wide range of throttle settings without surge.
Performance Specifications
- Stage pressure ratio: 1.2:1 to 1.4:1 per stage (typical axial)
- Overall HPC pressure ratio: 22:1 (CFM56) to 27:1 (LEAP-1) to 60:1 (GE9X, combined LPC+HPC)
- Stage count: modern LEAP-1B uses 3-stage LPC + 10-stage HPC; GE9X uses 3+10 stages
- Blade tip speed: 300–500 m/s (980–1,640 ft/s)
- Exit air temperature: 600–700°C (1,110–1,290°F) at high-power conditions
Aircraft Examples
- CFM LEAP-1B on the Boeing 737 MAX 8 — 3-stage LPC, 10-stage HPC
- GE9X-105B1A on the Boeing 777X — 3-stage LPC, 10-stage HPC, overall pressure ratio approximately 60:1
- Rolls-Royce Trent 1000 on Boeing 787-9 — 8-stage IP compressor, 6-stage HPC
Compressor efficiency is central to overall engine thermal efficiency; a 1% improvement in compressor polytropic efficiency translates to roughly 0.3–0.5% reduction in specific fuel consumption. Advanced computational fluid dynamics and additive manufacturing have allowed blade profiles of increasing aerodynamic complexity in modern designs.
Related Terms
Ar de sangria
Ar de alta pressão e alta temperatura extraído dos estágios do compressor do motor, usado para pressurização, climatização e degelo.
Câmara de Combustão
A seção de um motor a jato onde o ar comprimido se mistura com combustível e se inflama, produzindo gases de alta energia que acionam a turbina.
Motor turbofan
O tipo de motor a jato mais comum na aviação comercial, utilizando um grande fan para gerar a maior parte do empuxo.
Razão de bypass
A razão entre a massa de ar que flui ao redor do núcleo do motor e a que flui através dele, indicador-chave de eficiência.