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| Cestol Aircraft Courtesy Eric Paciano/California |
Yet a team led by researchers at California Polytechnic State University found that one of the easiest ways to improve system efficiency may be to reengineer the plane itself.
As part of a five-year NASA research project, the team designed a 100-passenger Cruise Efficient, Short Take-Off and Landing (Cestol) airliner that could arrive and depart at steep angles to and from 3,000-foot-long runways. “This plane was designed with a circulation-control wing, which generates higher lift at lower speeds,” says David Marshall, an associate professor with Cal Poly’s aerospace-engineering department. “We can reduce the field length by 50 percent.”
For the past year, scientists have wind-tunnel-tested a 2,500-pound model with a 10-foot wingspan, nicknamed Amelia (for Advanced Model for Extreme Lift and Improved Aeroacoustics), at NASA’s Ames Research Center.
Other researchers studied how Cestol planes would integrate into existing infrastructure. Results show that in tandem with NextGen’s approach and departure routing, which could allow planes to fly outside traditional flight paths, Cestol aircraft could land at underused, shorter runways or at smaller regional airports. Spreading air traffic over more runways would relieve congestion and substantially reduce flight delays.
Read nmore: Future of Flight | STOL Aircraft Become Cruise Efficient | Popular Science | Popular Science
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