Wind Tunnel Lined for SoundNASA HAS COMPLETED A SOUND INSULATION project in the world's largest wind tunnel to help the U.S. aircraft industry design quieter engines and test advanced helicopters and other new aircraft. During the refurbishing that began in September 1994, workers installed a dense acoustic lining in the National Full-Scale Aerodynamics Complex (NFAC) at NASA's Ames Research Center at Moffett Field, California. The purpose was to reduce the test section's background noise and echoes during jet engine tests in the wind tunnel's 40-foot by 80-foot test section. Background noise and echoes adversely affect the accuracy of sound measurement during jet engine tests, according to Project Manager Joe Hurlbut of Ames. Hurlbut said the refurbished wind tunnel will enable engineers to conduct very accurate acoustic tests. Insulation material and 1,600 acoustic panels in the floor, walls and ceiling of the wind tunnel's 40-foot by 80-foot test section were installed. The new custom-made metal gray panels are made of perforated sheet metal bonded to stainless steel mesh, similar to that used in automobile oil filters. The insulation material behind the panels is similar to the spun fiberglass commonly used to insulate houses. NASA engineers also upgraded the wind tunnel's control system to improve efficiency, and National Electric Company of Columbus, Ohio, modified the wind tunnel's main fan drive system to reduce noise. The Scott Company of San Leandro, California, served as the project's primary contractor. Each of the wind tunnel's six fan-drive motors has 22,500 horsepower, for a total of 135,000 horsepower. These motors are capable of generating air speeds of up to 345 miles per hour in the 40-foot by 80-foot test section and up to 115 miles per hour in the 80-foot by 120-foot test section. Each of the six fans measures 40 feet in diameter and contains 15 variable pitch blades. The wooden blades weigh 800 pounds each and measure 15 feet in length. Hurlbut said a series of technical problems, including the discovery of cracks in the fan blades in May 1995, delayed the completion of the project. The cracks have since been sealed with an epoxy resin, and the blades have been wrapped with a carbon and fiberglass composite to strengthen them. Tests are scheduled to resume in the wind tunnel following the completion of the integrated systems testing in October. In November, Ames engineers are scheduled to begin a two-month test of the Subsonic High Alpha Research Concept (SHARC) aircraft. Sponsored by the Department of Defense and the U.S. Air Force, SHARC is a design concept being studied to improve the maneuverability of jet fighter aircraft. For more information, contact Joe Hurlbut at Ames Research Center.
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