NASA's Fundamental Aeronautics Program

           The National Aeronautics and Space Administration had four industry teams come in and design what they believe to be the commercial planes of the future. NASA had these teams design air craft that hold up to standards they set for future air planes of the 2030-era.

NASA's goals for a 2030-era aircraft, compared with an aircraft entering service today, are:

• A 71-decibel reduction below current Federal Aviation Administration noise standards, which aim to contain objectionable noise within airport boundaries.
• A greater than 75 percent reduction on the International Civil Aviation Organization's Committee on Aviation Environmental Protection Sixth Meeting, or CAEP/6, standard for nitrogen oxide emissions, which aims to improve air quality around airports.
• A greater than 70 percent reduction in fuel burn performance, which could reduce greenhouse gas emissions and the cost of air travel.
• The ability to exploit metroplex concepts that enable optimal use of runways at multiple airports within metropolitan areas, as a means of reducing air traffic congestion and delays.

These teams narrowed their concepts all down to one plane per team and came out with some practical concept planes for the future. Here are the four team’s designs and an image of the concept plane that they came up with.

            The General Electric Aviation team came up with a 20-passenger aircraft. Their design is intended to reduce the congestion at major hubs by using point-to-point travel via community airports. This aircraft will sport full-sized seats and have electricity generating cells that will allow for advanced electrical systems. The plane has special oval-shaped fuselage and an overall layout that allows for a smooth air flow over all of its surfaces. Low noise propellers will allow the aircraft to have less noise population both inside and outside the plane. Finally, the advanced turboprop engines provide the aircraft with the proper thrust for short takeoffs and the ability to climb in altitude quickly.

            The Massachusetts Institute of Technology team came up with the next concept aircraft design. They designed a passenger plane that holds 180-passengers with its “D8 (double bubble)” design. Their concept fuses two normal aircraft bodies side-by-side lengthwise, then has three turbofan jet engines on its tail for its propulsion system. A major focus of the MIT team was their use of composite materials, which significantly lower the weight of the aircraft. They also made sure their turbofan engines have ultra high bypass ratio, which basically allows the plane to have more thrust. The MIT team designed this concept to be efficient, roomier, and to fill the future needs of Boeing’s aging 737.

            This next design came from the Northrop Grumman team, which looked to make a passenger plane that seats about 120. This aircraft is designed specifically for shorter runaways to help increase capacity while reducing the amount of delays. Their team describes the plane as having a “Silent Efficient Low Emissions Commercial Transport, or SELECT” concept. Grumman’s aircraft will be made out of ceramic composites, nanotechnology and shape memory alloys. This aircraft is not only great for the environment, but it also has the ability to land at airports with runaways as short as 5,000 feet. This allows for much wider distribution of air traffic.

            The last design from this program I have to show you is the Boeing Company’s Subsonic Ultra Green Aircraft Research aka SUGAR with their concept named the SUGAR Volt. It is a twin-engine aircraft with hybrid technology for propulsion, top mounted wing with truss, and has a larger wingspan than normal aircraft of similar bodies. The wing also may include hinges so it will be able to fold up to fit into smaller gates. The aircraft’s engines are specially designed to both burn fuel and to be able to use electricity from special battery cells to run its turbo fans when the engine’s core powered down.

            There are several major aspects of these future aircraft that you should note for the future of commercial aviation. These future aircraft have slightly slower cruising speeds, about five to ten percent slower than current aircraft flying today, and that’s at higher altitudes, all to save fuel. The concept planes all have less power for takeoff, which allow quieter flight, but are still able to take off on the much shorter 5,000 foot long runways. These smaller aircraft’s key purpose is to fly shorter, more direct routes that increase cost efficiency also increasing operating capacity. But it is important to understand these concept planes are designed to use new promised air traffic tools, which allow for automated routes to be made for climbs and arrival descents.

 

"NASA - National Aeronautics and Space Administration." NASA. Web. 25 Mar. 2012.                              <http://www.nasa.gov/topics/aeronautics/features/future_airplanes.html>.