Consumo específico de combustível (SFC: Specific Fuel Consumption)
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/sfc/" 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/sfc/
Add a dynamic SVG badge to your README or docs.
[](https://planefyi.com/glossary/sfc/)
Use the native HTML custom element.
Definition
Uma medida da eficiência do motor: a massa de combustível consumida por unidade de empuxo por hora.
O que é o consumo específico de combustível?
Specific Fuel Consumption (SFC) — also called Thrust Specific Fuel Consumption (TSFC) for jet engines — quantifies how efficiently an engine converts fuel energy into useful thrust. It expresses the mass of fuel burned per unit of thrust per unit of time. A lower SFC means a more fuel-efficient engine: less fuel is consumed to produce the same thrust, directly extending range and reducing operating costs.
Como funciona
SFC is calculated as:
- SFC = (fuel flow rate) / (net thrust produced)
- In imperial units: lb of fuel per hour per lbf of thrust → lb/(lbf·h)
- In SI units: kg per hour per kN → kg/(kN·h) or equivalently mg/(N·s)
Key factors that influence SFC:
- Bypass Ratio: Higher Bypass Ratio dramatically improves SFC by accelerating more air at lower velocity. Doubling BPR from 5:1 to 10:1 can improve SFC by 10–15%.
- Overall Pressure Ratio (OPR): Higher compression improves thermodynamic efficiency. Modern engines achieve OPR of 45–60:1 vs. 15–20:1 in 1960s jets.
- Turbine Inlet Temperature (TIT): Higher TIT improves Carnot efficiency. Enabled by ceramic thermal barrier coatings and film cooling.
- Altitude: SFC improves at cruise altitude because cooler air increases the density ratio and reduces intake ram drag penalties.
- Airspeed: SFC increases at higher Mach numbers due to ram drag — a key economic penalty for supersonic flight.
Especificações de desempenho
- CFM56-7B (737 NG, circa 1997): ~0.545 lb/(lbf·h) at cruise
- CFM LEAP-1B (737 MAX, 2017): ~0.490 lb/(lbf·h) — approximately 15% improvement
- Pratt & Whitney PW1100G (A320neo, 2016): ~0.460–0.480 lb/(lbf·h) — best in class for single-aisle
- Rolls-Royce Trent XWB (A350, 2015): ~0.478 lb/(lbf·h) — best SFC of any large turbofan at launch
- Concorde Olympus 593 (supersonic): ~1.195 lb/(lbf·h) — over twice modern turbofans due to low BPR and supersonic penalties
Exemplos de aeronaves
- Boeing 787-9 (GEnx-1B): SFC ~0.486 lb/(lbf·h); combined with composite airframe yields 25% better fuel burn per seat than 767
- Airbus A320neo (PW1100G): 20% better fuel efficiency than A320ceo, driven largely by SFC improvement plus airframe drag reduction
- ATR 72-600 (PW127M turboprop): Turboprops use shaft-horsepower SFC (lb/SHP·h): ~0.48 — far better than jets for short sectors below 400 nm
- Future Open Fan (CFM RISE program): Targeting 20% SFC improvement over LEAP by ~2035 using unducted fan architecture with BPR >20:1
SFC is the core metric linking engine efficiency to aircraft range. Engineers use the Breguet range equation, in which SFC appears as a direct denominator — halving SFC doubles range for a given fuel load.
Related Terms
Empuxo
A força para frente produzida pelos motores de uma aeronave, medida em libras-força (lbf) ou quilonewtons (kN).
Motor turboélice
Um motor a jato que aciona uma hélice via caixa de redução, oferecendo alta eficiência em baixas altitudes.
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.
Turbofan com Redutor
Um projeto de turbofan que usa uma caixa de redução entre o fan e a turbina de baixa pressão, permitindo que cada um gire na velocidade ideal.
Turbofan de Alta Taxa de Diluição
Um motor turbofan com razão de diluição acima de 5:1, direcionando a maior parte do ar admitido ao redor do núcleo do motor para máxima eficiência de combustível e mínimo ruído.