12.20.12

Kathy Barnstorff
Langley Research Center, Hampton, Va.
757-864-9886/757-244-8511
kathy.barnstorff@nasa.govRELEASE: 12-140

NASA LANGLEY WRAPS UP OUT-OF-THIS-WORLD YEAR

<div style="padding:1px; margin-left:25px; margin-right:5px; 
margin-bottom:10px; margin-top:1px; float:right; 
background-color:#D6D6D6"> Year-in-Review
<script type="text/javascript" 

src="http://media.vmixcore.com/vmixcore/embed?action=Media&ver=2.0&method=js&output=string&auto_play=0&player_id=a44d9a247a8603bcb85dff32fad89583&t=V0xt4OqYBDu2JHjYN56POIzpl1BfultIlv&width=312&height=198"></script> </div> HAMPTON, Va. -- Researchers at NASA's Langley Research Center are celebrating a year of aerospace accomplishments that took their work not only into the skies, but also on to another planet. Here are some of the highlights for 2012.

&rsaquo; Video
&rsaquo; Images</div> 
<br clear="all"> <div style="padding:1px; margin-left:25px; 
margin-right:5px; margin-bottom:10px; margin-top:1px; float:right; 
background-color:#D6D6D6"> Curiosity's Seven Minutes of Terror
<script type="text/javascript" 

src="http://media.vmixcore.com/vmixcore/embed?action=Media&ver=2.0&method=js&output=string&auto_play=0&player_id=a44d9a247a8603bcb85dff32fad89583&t=V0klYOaUyJ5RL3Go9w5dZzumrSYmccwIHo&width=312&height=198"></script> </div> The Curiosity Rover lands safely on Mars
More than 100 engineers, researchers and technicians here played a 
critical role in the successful Aug. 6 landing of the Mars 
ScienceLaboratory and its Curiosity rover on the Red Planet. Langley 
was the agency lead for modeling and simulation of the spacecraft 
prior to launch. Millions of simulations were performed leading up to 
the entry, descent and landing phase -- the so-called, "Seven Minutes 
of Terror," leading to touchdown. Another contribution was the MSL 
Entry, Descent and Landing Instrumentation (MEDLI), a science 
instrument package built primarily at Langley that gathered heat and 
temperature data during the last eight minutes of the flight. A 
Langley engineer also developed a mini-computer on the Curiosity 
rover that commands the ChemCam, a rock-blasting laser that vaporizes 
thin layers of material from Martian rocks or soil.

<div style="padding:1px; margin-left:25px; margin-right:5px; 
margin-bottom:10px; margin-top:1px; float:right; 
background-color:#D6D6D6"> Inflatable Spacecraft Technology (IRVE-3)
<script type="text/javascript" 

src="http://media.vmixcore.com/vmixcore/embed?action=Media&ver=2.0&method=js&output=string&auto_play=0&player_id=a44d9a247a8603bcb85dff32fad89583&t=V0j3yhitFzgDWvJOi0TqhiytSZVvSIf0H2&width=312&height=198"></script> </div> Inflatable spacecraft technology launches and successfully survives reentry
NASA is one step closer to developing an inflatable spacecraft heat 
shield that could survive the superheated hypersonic speeds of entry 
into a planetary atmosphere, following the successful July 23 launch 
of the Langley-led Inflatable Reentry Vehicle Experiment 3 (IRVE-3). 
The giant cone of uninflated high-tech rings, covered by a thermal 
blanket, launched from a 22-inch diameter sounding rocket for its 
suborbital flight from NASA's Wallops Flight Facility on Wallops 
Island, Va. Once it reached an altitude of 290 miles, an inflation 
system pumped up the IRVE-3 aeroshell until it expanded to almost 10 
feet in diameter. The inflated mushroom-shaped vehicle then plummeted 
through Earth's atmosphere at more than Mach 10, or about 7,000 miles 
an hour. Researchers are studying temperature and pressure data 
collected during the mission to help develop future inflatable heat 
shield designs and to confirm that inflatable spacecraft technology 
could some day become practical for exploration of other worlds or as 
a way to safely return items from the International Space Station to 
Earth.

<div style="padding:1px; margin-left:25px; margin-right:5px; 
margin-bottom:10px; margin-top:1px; float:right; 
background-color:#D6D6D6"> Orion Test Article Drop Test
<script type="text/javascript" 

src="http://media.vmixcore.com/vmixcore/embed?action=Media&ver=2.0&method=js&output=string&auto_play=0&player_id=a44d9a247a8603bcb85dff32fad89583&t=V0CpZF1VlclFkiWN9-b5Gv9V5YhsLLNeZw&width=312&height=198"></script> </div> Orion model splashes down, while SLS model gets tunnel tested
An 18,000-pound test article that mimics the size and weight of NASA's 
Orion spacecraft crew module – the next generation capsule that will 
carry astronauts into space beyond low Earth orbit and return them 
safely home - completed a final series of water impact tests in 
Langley's Hydro Impact Basin in September. The campaign of swing and 
vertical drop tests simulated various water landing scenarios to 
account for different velocities, parachute deployments, entry 
angles, wave heights and wind conditions the spacecraft could 
encounter when landing in the Pacific Ocean. The next round of water 
impact testing is scheduled to begin as soon as late 2013 using a 
full-sized model that was built to validate the flight vehicle's 
productionprocesses and tools. The Orion will go into space aboard a 
heavy-lift rocket, the Space Launch System or SLS, also currently in 
development and testing. A 10-foot-long model of the SLS was put 
through buffet testing in NASA Langley's Transonic Dynamics Tunnel 
this fall to capture data that will help determine the structural 
safety margins of the vehicle,especially during launch and ascent to 
orbit at transonic and low supersonic speeds up to Mach 1.2.

<div style="padding:1px; margin-left:25px; margin-right:5px; 
margin-bottom:10px; margin-top:1px; float:right; 
background-color:#D6D6D6"> Dream Chaser Scale Model Assembly
<script type="text/javascript" 

src="http://media.vmixcore.com/vmixcore/embed?action=Media&ver=2.0&method=js&output=string&auto_play=0&player_id=a44d9a247a8603bcb85dff32fad89583&t=V0POawiqDrCJ1ns6_X992zuZTkZIuQy8N9&width=312&height=198"></script> </div> Langley images SpaceX launch, while Dream Chaser model "flies" in tests
The successful SpaceX launch of the Falcon 9 rocket and Dragon capsule 
on May 22 marked the first commercial spaceflight carrying cargo to 
the International Space Station. It was also captured in visual and 
thermal imagery by the Scientifically Calibrated In Flight Imagery 
(SCIFLI) team, based here at Langley. SCIFLI had two long-range 
optical systems trained on the SpaceX launch: one on the ground near 
Daytona Beach, Fla., and the other on board the former space shuttle 
solid rocket booster recovery ship, Freedom Star, off the 
northeastern U.S. coast. Mother Nature was good to one of the teams, 
less charitable to the other. Another of NASA's commercial space 
partners, Sierra Nevada Corporation, tested a buffet model of its 
Dream Chaser lifting body spacecraft in Langley's Transonic Dynamics 
Tunnel in the spring. The scale model, based on the Langley HL-20 
design, was mated to a scale version of a United Launch Alliance 
Atlas V rocket for the test. Engineers looked at the pressure 
fluctuations the model and stack experienced during simulated launch 
and ascent to orbit, especially at transonic speeds. This kind of 
data is important because the Dream Chaser is a blunt-nosed winged 
body, a potentially complex spacecraft shape to fly on the tip of a 
rocket.

Richard Whitcomb enshrined in the Aviation Hall of Fame
Aeronautics engineer Richard T. Whitcomb, whose legendary NASA 
research contributions made supersonic flight practical, joined other 
aerospace pioneers in the National Aviation Hall of Fame in Dayton, 
Ohio, in October. Whitcomb, who died in 2009 but had spent his entire 
career at NASALangley, made three of the most significant and 
practical contributions to aeronautics in the 20th century, including 
the "area rule," supercritical wing and winglets. "Dick Whitcomb's 
intellectual fingerprints are on virtually every commercial aircraft 
flying today," said Tom Crouch, noted aviation historian at the 
Smithsonian Institution's National Air and Space Museum.

Hypersonic scramjet is on HIFiRE
A team that included engineers from NASA Langley and the U.S. Air 
Force Research Laboratory (AFRL) celebrated the successful May launch 
of an experimental hypersonic scramjet research flight from the 
Pacific Missile Range Facility. located on the island of Kauai, 
Hawaii. NASA, AFRL and Australia's Defence Science and Technology 
Organisation are working with a number of partners on the HIFiRE 
(Hypersonic International Flight Research Experimentation Program) 
program to advance hypersonic flight -- normally defined as beginning 
at Mach 5 or five times the speed of sound. During the experiment the 
scramjet climbed to about 100,000 feet in altitude aboard a sounding 
rocket, accelerated from Mach 6 to Mach 8, and operated about 12 
seconds -- a big accomplishment for flight at hypersonic speeds. It 
was the fourth of a planned series of up to 10 flights under HIFiRE 
and the second focused on scramjet engine research. "This is the 
first time we have flight tested a hydrocarbon-fueled scramjet 
accelerating from Mach 6 to Mach 8," said NASA Langley hypersonics 
expert Ken Rock. "This test has given us unique scientific data about 
scramjets transitioning from subsonic to supersonic combustion -- 
something we can't simulate in wind tunnels."

NASA Langley Earth science is working to increase Earth monitoring 
from space
Three NASA Langley Earth science projects moved forward in 2012. The 
Clouds and the Earth's Radiant Energy System (CERES) instrument 
started scanning Earth from space for the first time in January. It 
is observing Earth atmospheric conditions from the Suomi National 
Polar-orbiting Partnership satellite. CERES continuously measures the 
amount of energy leaving the Earth-atmosphere system, 
allowingscientists to determine the planet's energy balance. A NASA 
Langley team is moving forward with preparations for a planned 2014 
launch of the Stratospheric Aerosol and Gas Experiment (SAGE III) 
that will be mounted to the orbiting International Space Station. 
Components of SAGE III on ISS, which will measure aerosols, ozone, 
water vapor and other gases in Earth's atmosphere, are currently 
undergoing testing here. The instrument is set to launch on a 
SpaceXFalcon 9 rocket. And finally a team managed by NASA Langley has 
won a proposal to build the first space-based instrument that will 
monitor major air pollutants across the North American continent by 
taking hourly measurements during daytime hours. The Tropospheric 
Emissions: Monitoring of Pollution (TEMPO) instrument that is to be 
completed in 2017 will share a ride on a commercial satellite to an 
orbit about 22,000 miles above Earth's equator.

NASA Langley advances "Look Ma, no hands" aircraft research
NASA Langley is part of ongoing research efforts to help allow more 
use of unmanned aircraft systems in U.S. skies. This fall a 
government, a not-for-profit research and development organization 
and academia team completed two weeks of flight testing "sense and 
avoid" technology that could one day help unmanned aircraft better 
integrate into the national air transportation system. The MITRE 
Corporation and the University of North Dakota (UND) developed 
automatic sense and avoid computer software algorithms that were 
uploaded onto NASA Langley's Cirrus SR-22 aircraft. The plane flew 
147 maneuvers during 39 hours of flight tests in airspace near the 
Grand Forks International Airport. A supporting UND aircraft flew 
more than 40 hours during the tests. The data from the flight test 
will validate work done in simulation and help engineers determine 
how they can design systems so that unmanned aircraft can be safely 
incorporated into the skies.

<div style="padding:1px; margin-left:25px; margin-right:5px; 
margin-bottom:10px; margin-top:1px; float:right; 
background-color:#D6D6D6"> 95th Anniversary Open House
<script type="text/javascript" 

src="http://media.vmixcore.com/vmixcore/embed?action=Media&ver=2.0&method=js&output=string&auto_play=0&player_id=a44d9a247a8603bcb85dff32fad89583&t=V0Oj1bVU6cy65rOyKB70PsLuAlMw6tYIuX&width=312&height=198"></script> </div> NASA Langley marks 95 years of service, accomplishments
NASA Langley celebrated its 95th anniversary with its first open house 
in five years on Sept. 22. Established in 1917 as the nation's first 
civilian aeronautics lab, Langley later became the birthplace of the 
U.S. space program and continues its legacy of aerospace research and 
development. About 10,000 people visited the Center, touring 22 
facilities; enjoying dozens of hands-on activities and exhibits; 
seeing presentations from astronaut Anna Fisher, the first mom in 
space; and watching a live splash test of the 18,000-pound model of 
the America's next space capsule, Orion.

For more information about NASA Langley, visit:


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