Konsumsi Bahan Bakar Spesifik (SFC: Specific Fuel Consumption)
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Definition
Ukuran efisiensi bahan bakar mesin: massa bahan bakar yang dikonsumsi per unit daya dorong per jam, dinyatakan dalam lb/(lbf·h) atau kg/(kN·h).
Apa Itu Specific Fuel Consumption?
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.
Cara Kerja
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.
Spesifikasi Kinerja
- 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
Contoh Pesawat
- 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
Daya Dorong
Gaya maju yang dihasilkan oleh mesin pesawat, diukur dalam pound-force (lbf) atau kilonewton (kN), memungkinkan penerbangan dan pendakian.
Mesin Turbofan
Jenis mesin jet paling umum dalam penerbangan komersial, menggunakan kipas besar untuk menghasilkan sebagian besar daya dorongnya.
Mesin Turboprop
Mesin jet yang menggerakkan baling-baling melalui gearbox reduksi, menawarkan efisiensi tinggi pada ketinggian rendah dan rute jarak pendek.
Rasio Bypass
Rasio massa udara yang mengalir di sekitar inti mesin terhadap udara yang mengalir melalui inti, indikator utama efisiensi bahan bakar.
Turbofan Bergerigi
Desain turbofan yang menggunakan gearbox reduksi antara kipas dan turbin bertekanan rendah, memungkinkan masing-masing berputar pada kecepatan optimal.
Turbofan Bypass Tinggi
Mesin turbofan dengan rasio bypass di atas 5:1, yang mengalirkan sebagian besar udara masuk mengelilingi inti mesin untuk efisiensi bahan bakar maksimum dan kebisingan minimum.