NASA Thruster Achieves World-Record 5+ Years of Operation

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June 24, 2013

Dwayne Brown 
Headquarters, Washington                            
202-358-1726 
dwayne.c.brown@xxxxxxxx 

Katherine K. Martin 
Glenn Research Center, Cleveland 
216-433-2406 
katherine.martin@xxxxxxxx 

Glenn Mahone 
Aerojet Rocketdyne 
202-302-9941 
glenn.mahone@xxxxxxxxxx 

RELEASE: 13-193

NASA THRUSTER ACHIEVES WORLD-RECORD 5+ YEARS OF OPERATION

CLEVELAND -- A NASA advanced ion propulsion engine has successfully 
operated for more than 48,000 hours, or 5 and a half years, making it 
the longest test duration of any type of space propulsion system 
demonstration project ever. 

The thruster was developed under NASA's Evolutionary Xenon Thruster 
(NEXT) Project at NASA's Glenn Research Center in Cleveland. Glenn 
manufactured the test engine's core ionization chamber. Aerojet 
Rocketdyne of Sacramento, Calif., designed and built the ion 
acceleration assembly. 

The 7-kilowatt class thruster could be used in a wide range of science 
missions, including deep space missions identified in NASA's 
Planetary Science Decadal Survey. 

"The NEXT thruster operated for more than 48,000 hours," said Michael 
J. Patterson, principal investigator for NEXT at Glenn. "We will 
voluntarily terminate this test at the end of this month, with the 
thruster fully operational. Life and performance have exceeded the 
requirements for any anticipated science mission." 

The NEXT engine is a type of solar electric propulsion in which 
thruster systems use the electricity generated by the spacecraft's 
solar panel to accelerate the xenon propellant to speeds of up to 
90,000 mph. This provides a dramatic improvement in performance 
compared to conventional chemical rocket engines. 

During the endurance test performed in a high vacuum test chamber at 
Glenn, the engine consumed about 1,918 pounds (870 kilograms) of 
xenon propellant, providing an amount of total impulse that would 
take more than 22,000 (10,000 kilograms) of conventional rocket 
propellant for comparable applications. 

"Aerojet Rocketdyne fully supports NASA's vision to develop high power 
solar electric propulsion for future exploration," said Julie Van 
Kleeck, Aerojet Rocketdyne's vice president for space advanced 
programs. "NASA-developed next generation high power solar electric 
propulsion systems will enhance our nation's ability to perform 
future science and human exploration missions." 

The NEXT project is a technology development effort led by Glenn to 
develop a next generation electric propulsion system, including power 
processing, propellant management and other components. The project, 
conducted under the In-Space Propulsion Technology Program at Glenn, 
is managed by NASA's Science Mission Directorate in Washington. 

Aerojet Rocketdyne provides propulsion expertise for domestic and 
international markets. For more information about Aerojet Rocketdyne, 
visit: 

http://www.Rocket.com 

To view the NEXT ion engine in operation, visit: 

http://go.nasa.gov/16v9y8g 

The Planetary Science Decadal Survey can be viewed online at: 

http://solarsystem.nasa.gov/2013decadal/ 

For more information about programs at Glenn, visit: 

http://www.nasa.gov/glenn 

Information about NASA programs is available online at: 

http://www.nasa.gov 

	
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