Tests are underway on a design that could improve fuel efficiency by 20%
The development of a new single-aisle aircraft is always met with fanfare, particularly if there’s novel technology aboard. For the airliner that Airbus is planning to debut in the 2030s, that tech could be an engine that represents a huge leap forward for air travel.
Turbofans have become the standard in modern aviation due to better fuel efficiency and reduced noise, but open rotor could yield even bigger improvements. In this design, the engine’s larger rotor blades are exposed instead of being contained in a nacelle, which allows more air to flow through the turbine — ultimately reducing the amount of fuel required.
Airbus in March announced plans to assess the feasibility of an open rotor engine (a term the company uses interchangeably with “open fan”) with CFM International, the joint engine venture of French firm Safran and U.S.-based GE Aerospace. GE has been studying open rotor technology since 2021 under its RISE program. To meet Airbus’ late 2030s target for the airliner’s debut, a decision about the engine would need to be made by the end of this decade, when plans call for conducting flight tests with a modified A380 test aircraft.
Why not just continue designing turbofans with bigger blades? The industry might have gone as far as it can in that direction, according to GE’s Mohamed Ali, chief technology and operations officer. He discussed the decision to explore open rotor in March during the Airbus Innovation Summit in Toulouse, France.
While larger and larger fan blades have helped reduce fuel consumption over the years, the duct around a conventional jet engine produces drag that “eats at the benefits that are coming from the fuel burn improvements,” he explained. “And there is a point that is not very far away from where we are today, in which that duct is so big that it wipes out any gains that are coming from making the fan bigger.”
That’s why CFM has turned to open rotor. By shrinking the engine core and constructing larger, composite blades, the engine’s bypass ratio — the amount of air passing through the fan versus through the core of the engine — would increase to 60:1, compared to the 11:1 and 12:1possible with today’s engines. If it works, such a ratio could hand Airbus a decisive advantage in engine performance in the single-aisle market, as well as make CFM the sole engine supplier for this particular aircraft.
But first things first: In the near term, Airbus and its partners must refine the open rotor tech and design to determine if it’s a good match for a passenger airliner — particularly to ensure a safe and relatively quiet experience, Karim Mokaddem, Airbus’ head of research and technology on future aircraft, told me in an interview.
A top priority is “to ensure that we are mastering and reducing the noise that is at the source of the engine, but also the way this noise is transferred into the airplane,” he said. “We are having very good improvements on that.”
CFM has allocated some 2,000 engineers for testing and development on RISE, which is studying various next-generation engine technologies beyond open rotor. So far, some 250 tests have been completed, with wind tunnel tests on subscale engine models ongoing in France and the Netherlands. These are preparation for full-scale ground tests that would be conducted later this decade at GE’s Peebles Test Operation facility in Ohio and in Villaroche, France, validation tests in Victorville, California — and, finally, flight tests in Toulouse with a fully functioning engine aboard the A380 testbed.
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