Sikorsky and Lockheed Martin’s choice to construct a hybrid tilt-wing know-how demonstrator is a big step ahead for eVTOL plane. We’re in a singular place to say this, as Dufour Aerospace has been designing, constructing, and testing tilt-wing plane for a few years.
We’ll current among the causes that we imagine Sikorsky has made the appropriate selection in growing a tilt-wing, together with hover, transition, cruise effectivity, clean transition, robustness, scalability, and naturally security.
What’s a tilt-wing plane?
Not like tilt-rotor or tilt-propeller plane, a tilt-wing tilts the entire wing as a substitute of simply the propeller nacelles. Whereas this will appear a small element, it’s truly a elementary distinction.
Tilt-wing plane aren’t new – they have been designed, constructed, and intensively flown within the 60s and 70s of the final century, at a time when distributed propulsion and superior digital management programs weren’t but out there. Distinguished representatives of this primary tilt-wing wave are the American XC-142 and the Canadian CL-84 plane.
Hover and transition effectivity
Tilt-rotor and tilt-propeller plane lose a few of their thrust throughout vertical take-off and touchdown as a result of the fastened horizontal wing blocks the airflow. This lack of thrust known as “obtain”. The presence of the wing is an obstacle for the plane till it has accelerated past a important pace.
Tilt-wing plane, in distinction, preserve the wing aligned with the propeller thrust. This minimizes obtain and drag, and the airflow energizes the wing, producing further elevate as quickly because the plane begins to maneuver ahead.
This attribute is a big benefit for the general energy necessities and configuration of the plane.
Easy transition with massive security margins
Transitioning from hover to ahead flight and vice versa in lots of VTOL configurations is aerodynamically complicated and energy-intensive. The lean-wing design simplifies this transition. By rotating the entire wing ahead, the tilt-wing seamlessly converts from a vertical to a horizontal configuration, with out drastic modifications in airflow. There isn’t any handover between a hover propulsion system and a cruise propulsion system as is the case with lift-and-push configurations. This interprets to smoother, seamless transitions.
Because the wing gives elevate always, the ability necessities for transition are dramatically decrease than with another convertible idea, leading to excessive effectivity. There are additionally massive energy margins remaining for management and a large hall within the flight envelope, which interprets on to massive security margins always.
Cruise effectivity
As an eVTOL plane flies 90% of the time in cruise configuration, it’s important that the plane is as environment friendly as doable in cruise. Effectivity comes with what known as a “clear” configuration – as little drag as doable. Some VTOL configurations, corresponding to lift-and-push, carry the burden of non-lifting elements (corresponding to propellers which can be solely used for hover) throughout cruise flight. These elements create drag, decreasing the general effectivity. Everybody who ever flew a propeller plane with pace brakes is aware of the impression of drag. The lean-wing design may be very clear in cruise, so doesn’t undergo from this downside. So the tilt-wing plane is a fuel-efficient long-range cruiser, which can be able to VTOL operations.
Mechanical simplicity and robustness
Hinges on VTOL plane are important elements but additionally symbolize potential weak factors. They must be sturdy and redundant. Shedding a hinge in flight and potential cascading failures are a danger that must be eradicated as a lot as doable.
Vital hinges are designed to be multi-loadpath and injury tolerant in order that there isn’t a single level of failure. It is a well-known design precept in aviation, and is used for instance on the horizontal stabilizer trim mechanisms of all industrial airliners. (These trim mechanisms are designed and licensed a lot the identical means as our wing tilt system.)
Constructing hinges on this rock-solid means provides weight and inspection necessities, in fact. So it is a bonus to have a single hinge, because the tilt-wing does, slightly than a number of hinges as in a tilt-propeller design.
Dealing with qualities
When speaking about security, most representatives of the eVTOL scene are virtually completely speaking about part certification. There’s little or no dialogue of what issues equally as a lot: the flight conduct and management margins of the plane.
Technical failure of a part is never the explanation for an accident. 80% of the accidents are attributable to human error – a pilot mistake. So it’s important that pilots (and automatic flight management programs) have sufficient management margin to react if one thing unexpected occurs.
A direct studying of Dufour Aerospace’s CEO, Thomas Pfammatter, with over 30 years of expertise in helicopter operations, is that having massive management authority margins is a key aspect for security.
That’s the place tilt-wing plane excel. The propellers and absolutely energized wing with aerodynamic management surfaces present highly effective and direct management authority in all three axes. Moreover, the flexibility to regulate the wing to any given wind scenario permits for redundant management and clean transitions whereas conserving the cabin stage.
This isn’t simply concept: it has been confirmed and examined by lots of of check and military pilots with the CL-84 and XC-142 plane, and by Dufour Aerospace in check flights virtually each day.
Scalability
The air behaves otherwise at completely different scales. What works for a multicopter drone, a “flying brick”, doesn’t work so effectively for bigger plane. Whereas multicopters, lift-and-push, and tilt-propeller plane wrestle to scale up, tilt-wing plane can comfortably be a lot bigger. This has been confirmed by the XC-142 at over 20 tons, and is as a result of effectivity of the blown wing.
That makes the tilt-wing idea distinctive in its capability to cowl the most important vary of transitional plane at an affordable price.
Conclusion
At Dufour Aerospace, we’re effectively conscious of the benefits of the tilt-wing configuration, as now we have been constructing and flying tilt-wing plane for a few years, so we perceive the explanations behind Sikorsky’s choice.
They’ve additionally determined to pursue a hybrid energy strategy, slightly than utilizing solely batteries for power storage. Electrical propulsion has many benefits, together with noise discount and redundancy. Nonetheless, at the moment’s battery know-how doesn’t come near the precise power out there in gas. The hybrid energy configuration will enable Sikorsky to deliver collectively the perfect of each of those applied sciences, and obtain for much longer vary missions, and higher operational versatility, simply as we do at Dufour Aerospace.
From our workforce at Dufour Aerospace to yours, congratulations, Sikorsky!