Press Release

250K Hybrid Rocket Motor Completes Fourth Test at Stennis Space Center

By SpaceRef Editor
January 23, 2002
Filed under ,

HANCOCK COUNTY, Miss. -The John C. Stennis Space Center completed the
fourth in a series of large-scale hybrid motor tests Jan. 17 at 3:45
p.m. The 250,000-pound thrust hybrid rocket motor tested capitalizes
on the safety and operational features of a liquid-propulsion system
with the cost-savings potential of an inert solid propulsion system.
"The objective of this test was to address two key technical issues
that hybrid rockets must overcome– fuel retention at motor burnout
and combustion stability," NASA’s Gary Taylor, manager for the Hybrid
Propulsion Demonstration Program at Stennis, said. "The data
generated by this test will move the large-scale hybrid rocket motor
concept a giant step closer to operational use in future rocket
propulsion applications."

The 250k-hybrid rocket motor was designed, fabricated and prepared
for test by an industry consortium consisting of Lockheed Martin
Astronautics, Boeing Rocketdyne, Lockheed Martin Michoud Space
Systems, Thiokol Corporation and United Technologies Chemical Systems
Division. The consortium will analyze the data from today’s test and
report to NASA on how stable the motor performed and how well the
motor retained its fuel after this 27-second test firing.
"The hybrid system burns liquid oxygen with an inert solid fuel. The
two propellants are separated in different tanks until motor ignition,
making the system extremely safe," Taylor said. "The liquid oxygen is
pumped into the fuel tank that also serves as the combustion chamber
after ignition."

The hybrid rocket motor concept has been in existence for over 60
years, NASA’s Boyce Mix, director of the Propulsion Test Directorate
at Stennis, said. "The California Rocket Society was the first to test
the hybrid rocket design in the United States. In April 1943, the
group tested a system using oxygen and carbon. This rocket motor uses
advanced propellants and is 70 inches in diameter, 45 feet long and
weighs 125,000 pounds."

Taylor said the motor will now be disassembled, inspected and stored.
The hardware will remain in NASA’s possession and be available for
future technology testing activities.

SpaceRef staff editor.