Powering Todays Most Efficient Single-aisle Aircraft
Airbus A320neo Family
Seating 120 to 220 passengers in a typical 2-class layout, the A320neo family flies up to 4,700 nautical miles with the A321XLR. GTF engines deliver the highest fuel efficiency and lowest CO2 emissions for the family. With the GTF Advantage engine, operators' savings will be up to 17% vs. the V2500 engine, with up to 34,000 pounds of takeoff thrust for better performance, higher payload and longer range.
Airbus A220
Seating 100 to 150 passengers in a typical 2-class layout, the A220 family flies up to 3,450 nautical miles. Powered exclusively by GTF engines, the aircraft reduces fuel consumption and CO2 emissions up to 25% per seat vs. prior-generation aircraft.
Embraer E-Jets E2
Seating 97 to 120 passengers in a typical 3-class layout, the E190-E2 and E195-E2 fly up to 2,850 nautical miles. Powered exclusively by GTF engines, the E-Jets E2 family reduces fuel consumption and CO2 emissions up to 25% per seat vs. prior-generation aircraft. Embraer and Pratt & Whitney have successfully tested the E195-E2 on 100% sustainable aviation fuel (SAF). Watch more.
The Best is Getting Even Better
The GTF engine already delivers the most efficient, most sustainable power for Airbus A320neo family aircraft. Building upon mature dispatch reliability, the Pratt & Whitney GTF Advantage™ engine for the A320neo family makes the best even better, extending our leadership with even greater capability, efficiency and environmental benefits.
Architecture
A bigger, more efficient fan brings you a quieter engine and the highest bypass ratio in commercial aviation.
- Up to 81-inch fan diameter
- Up to 12:1 bypass ratio
A slow fan and a fast core mean peak performance with no compromises – each part runs at its optimum speed.
- 40% slower fan speed
- 2,000 airfoils eliminated
A fundamental shift in jet engines, seven moving parts unlock high performance through a proven geared architecture.
- 3:1 gear ratio
- Millions of hours of operation
Compressing air is hard work. That’s why the GTF engine shares the load effectively between its high and low pressure spools. Its integrally bladed rotors (IBRs) innovatively increase efficiency.
- 60% higher pressure ratio
- 3-stage low pressure compressor (LPC)
- 8-stage high pressure compressor (HPC)
- Up to 2 fewer stages than conventional turbofans
Lightweight and green. High-speed turbines coated with the latest in material technology can operate in extreme temperatures. Along with a simplified combustor, the result is optimum efficiency and cleaner skies.
- 2-stage high pressure turbine (HPT)
- 3-stage low pressure turbine (LPT)
- Up to 4 fewer turbine stages than conventional turbofans
Powered by an industry-leading geared architecture, the GTF is unlike any engine that’s come before it. With pioneering technology that enables further evolution and performance enhancements in the future, the GTF is truly in a league of its own.
*Statistics based on data across the entire GTF family, and compared to prior-generation engines, and may not be applicable to specific engine models.