NASA X-38 Team Flies Largest Parafoil Parachute in History

James Hartsfield

Johnson Space Center, Houston, TX

(281) 483-5111

Release: J00-9

A team developing a prototype International Space Station “lifeboat” called the X-38 Crew Return Vehicle successfully flew the largest parafoil parachute in history last week at the U.S. Armyís Yuma Proving Ground, Arizona, as they released a parachute with an area almost one and a half times as big as the wings of a Boeing 747 jumbo jet.

The unmanned Jan. 19 parafoil test was part of the development of a re-entry system for the X-38 spacecraft. With an innovative combination of old and new technology and a streamlined development, the goal of the X-38 team is to develop a new human spacecraft for a fraction of the cost of any past program. Plans are to develop and build four operational X-38-based International Space Station Crew Return Vehicles for less than half of what it cost to manufacture a single Space Shuttle orbiter. The X-38 may become the first new U.S. human spacecraft to fly to and from space in more than 20 years. The parafoil recently tested in Arizona has a span of 143 feet and a total surface area of 7,500 square feet, making it the largest parafoil in the world.

ìI think this is a world’s record for a parafoil and it is a significant milestone and accomplishment for NASA,” said John Muratore, who is leading the X-38 Crew Return Vehicle Project. “It puts us a major step closer toward our goal of providing the space station with the most flexible crew return option. This parafoil has the size and all the features to enable it to be used for returning humans from space.î

For the test, an 18,000-pound pallet, simulating the actual X-38, was dropped from the back of a C-130 aircraft at an altitude of 21,500 feet. A 28-foot diameter extraction parachute pulled the test platform from the aircraft at an air speed of 130 miles per hour to begin the flight test. Once out of the aircraft, a newly designed 80-foot diameter drogue parachute stabilized and slowed the platform to a vertical airspeed of 62 miles per hour and enabled the parafoil to begin a five-stage deployment process. During its 11-minute long flight, the parafoil slowed the test pallet to a gentle vertical landing speed of less than eight miles per hour.

ìThis parafoil is so big there is no way that it can all deploy at once,î said Brian Anderson, X-38 Project Manager. ìBecause of its size, the dynamic forces on the parachuteís structure are phenomenal.î

The size of the parafoil posed technical challenges for the X-38 team. One problem encountered in past tests has been to ensure that the parachute opens evenly. To solve this and make certain that the parachute opens symmetrically and rapidly, the team developed a revolutionary self-sealing floor vent system on the parafoil’s underside. During the recent test, the parafoil opened to its full size in only 30 seconds. The parafoil was stitched together at Pioneer Aerospace’s facility in Columbia, MS. Because of its unprecedented size and strength, personnel at Pioneer nicknamed the parafoil “Sampson.” A unique ripstop nylon material, customized stitching and other safety devices incorporated into the parafoil make the parachute not only the world’s largest but also among the strongest.

“The strength and quality of this parafoil is a real testimony to the skill and dedication of the men and women who built it,î Muratore said.

The test was the 30th large-scale flight test conducted to support development of the parafoil, although this was the largest and most comprehensive test to date. In addition to tests at Yuma, four large-scale atmospheric flight tests of prototype X-38 vehicles have been completed at NASA’s Dryden Flight Research Center using a smaller 5,500 square-foot parafoil. For those tests, increasingly complex X-38 vehicles have been launched from a B-52 carrier aircraft at increasingly higher altitudes. More such tests are planned during the next year and a half, leading up to a space flight test of the X-38 in 2002, when an unmanned vehicle now under construction at the Johnson Space Center will be released in orbit by the Space Shuttle to fly back to Earth.

The X-38’s design is called a lifting body. Unlike the space shuttle, it does not have any wings. All of the lift necessary to maneuver and fly the X-38 comes from the lift generated by the flow of air over the body of the spacecraft and its fins. Lifting body configurations were studied extensively in the 1960s and 1970s as space entry vehicles. These vehicles all had very high landing speeds that proved difficult to control. The combination of the lifting body for the high speed part of entry followed by the parafoil for the final landing have proven to be a winner in the X-38 project. The large-scale drops of the parafoil were supplemented with well over 300 subscale drops.

ìThe subscale drops gave us the opportunity to test and refine techniques and gain the experience we needed for the large-scale drops at a much lower cost,î said Jenny Stein, Project lead for the X-38 parachute systems. The 7,500 square-foot parafoil will be tested at Yuma again this spring and will then be integrated with one of the X-38 vehicles at Dryden for a test flight there late this year.
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NOTE: NASA photographs 7663-17, 7664-15 and 7665-15 can be downloaded from the internet to illustrate this release. They, along with other X-38 photos, are available at
http://spaceflight.nasa.gov/gallery/images/station/crvx38/ndxpage1.html
Video to accompany this release will air on NASA-TVís Videofile at 11 a.m., 2 p.m., 5 p.m. and 8 p.m. CST today or can be obtained by contacting the Johnson Space Center Media Resource Center at (281) 483-4231. NASA-TV can be accessed through GE2, transponder 9C. The frequency is 3880 Mhz with an orbital position of 85 degrees West Longitude, with audio at 6.8 MHz.

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