Motor de Rotor Abierto (None: Open Rotor Engine)
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/open-rotor/" 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/open-rotor/
Add a dynamic SVG badge to your README or docs.
[](https://planefyi.com/glossary/open-rotor/)
Use the native HTML custom element.
Definition
Concepto de propulsión de próxima generación que utiliza palas de fan no carenadas y contrarrotativas para lograr una eficiencia similar a la turbohélice a velocidades de jet.
What Is an Open Rotor Engine?
An open rotor engine — also called an unducted fan (UDF) or propfan — is a propulsion system that drives large, highly swept, counter-rotating blades exposed directly to the airstream without a surrounding nacelle duct. By eliminating the duct's weight and drag while retaining the aerodynamic benefits of counter-rotation, open rotor designs promise fuel efficiency approaching that of turboprops while achieving cruise speeds close to conventional turbofan-powered aircraft.
How It Works
An open rotor typically features two contra-rotating blade rows driven by a turbine core. The forward rotor accelerates a large mass of air; the rear rotor, spinning in the opposite direction, recovers the swirl energy left by the forward rotor and provides additional thrust. This energy-recovery mechanism allows extremely high propulsive efficiency — theoretically 20–30% better than equivalent high-bypass turbofans — because the effective bypass ratio is essentially unlimited by any duct diameter constraint.
The blades are highly swept and twisted, resembling scimitar-shaped propeller blades, to manage compressibility effects at cruise Mach numbers of 0.75–0.82. Advanced composite materials allow complex three-dimensional blade geometries that would be impractical in metal.
Performance Specifications
- Projected fuel savings: 20–30% vs. CFM56-class turbofans
- Target cruise speed: Mach 0.75–0.82
- Equivalent bypass ratio: effectively 30:1 or higher
- Noise challenge: interaction tone noise between fore and aft rotors remains a key certification hurdle
Aircraft Examples
- CFM RISE (Revolutionary Innovation for Sustainable Engines) — CFM International's open fan demonstrator, targeting 20% fuel burn reduction, ground testing began 2024 with flight tests planned for late 2020s
- GE36 UDF — demonstrator tested on Boeing 727 in 1986–1988, reached Mach 0.84 with 26–30% fuel savings vs. CF6
- Airbus CFM Open Fan — planned for narrowbody replacement aircraft in the 2030s
Despite promising 1980s demonstrations, open rotor engines stalled over noise and FOD (foreign object damage) concerns. Rising fuel prices and decarbonization pressure have revived serious industry investment, with CFM's RISE program representing the most credible path to entry into service around 2035.
Related Terms
Eficiencia de combustible
La cantidad de combustible consumido por pasajero por kilómetro, una medida clave de la economía operativa de las aeronaves y el impacto ambiental.
Motor turbofan
El tipo de motor a reacción más común en la aviación comercial, que utiliza un gran ventilador para generar la mayor parte de su empuje.
Motor turbohélice
Un motor a reacción que acciona una hélice mediante una caja reductora, ofreciendo alta eficiencia a bajas altitudes y rutas de corto alcance.
Propfan
Un diseño de propulsión híbrida que combina la eficiencia del turbohélice con la velocidad similar al turbofán utilizando palas de hélice muy cargadas y escalonadas.