Pelican Demonstrator Aimed At Airlift

By Bill Sweetman
Source: Aviation Week & Space Technology

October 15, 2012

Bill Sweetman Washington

A revolutionary aircraft prototype is now in the final stages of assembly and integration in a World War II airship hangar in Tustin, Calif. Developed by Aeros Corp., a California start-up, and funded by the Defense Department as a potential long-range transportation technology, the Pelican combines buoyant and aerodynamic lift in a different way from other lighter-than-air and hybrid vehicles, and is designed to be more efficient, more flexible and easier to handle on the ground. Its designers think that it could be evolved quickly into a vehicle with a C-17-like payload and range, combined with vertical-takeoff-and-landing (VTOL) capability.

Aeros originally proposed the concept to the Defense Advanced Research Projects Agency as part of the Walrus project for a 500-ton-payload airship. After Walrus lost most of its funding in 2006, Aeros continued developing some key technologies, and its proposal for a demonstrator was taken up by the Pentagon’s Rapid Reaction Technology Office in 2010.

Aeros refers to the Pelican as a “rigid-aeroshell, variable-buoyancy” (RAVB) vehicle. It has two distinctive features. One is a system that controls buoyancy by pumping helium gas between the ship’s lifting gas cell and a pressurized fiber-composite cell. The other is a rigid airframe—last seen on Zeppelins in the 1930s—which is necessary because a non-rigid pressure-stabilized hull would collapse as gas was pumped into the pressure cell.

RAVB technology addresses a classic problem of airship operations: To control the airship’s altitude with a fixed amount of lighter-than-air gas, some way has to be found to compensate for fuel consumed in flight, for different payloads, and for loading and unloading. Most airships have carried water ballast, but for a heavy-lift craft this presupposes that tons of water are available at the destination. Hybrid vehicles (such as the new Northrop Grumman LEM-V) use aerodynamic and buoyant lift at all times, but this means that they need a takeoff and landing run.

Read more: Pelican Demonstrator Aimed At Airlift — Aviation Week & Space Technology

Home           Top of page