Headlines > News > Aerojet's Confirms Combustion Stability and Provides Initial Performance Data

Aerojet's Confirms Combustion Stability and Provides Initial Performance Data

Published by Klaus Schmidt on Fri Aug 6, 2010 8:06 am via: Aerojet
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Aerojet, a GenCorp (NYSE: GY) company, under contract to Lockheed Martin (NYSE: LMT), has successfully completed more than 20 injector tests for the 7500-pound thrust Orion main engine (OME) for NASA’s Orion crew exploration vehicle. The tests are a combination of checkout, development, and qualification that will anchor models and satisfy combustion stability qualification requirements.

Injector test for the 7500-pound thrust Orion main engine (OME)

Injector test for the 7500-pound thrust Orion main engine (OME)

The OME is a pressure-fed, regeneratively cooled, storable bi-propellant engine that is a technically advanced, increased performance version of Aerojet’s flight-proven 6000-pound thrust space shuttle Orbital Maneuvering System Engine (OMS-E).

“Successful completion of this test series represents a major milestone in the OME development program and clears the way for further testing with the regeneratively cooled flight design chamber in 2011,” said Sam Wiley, Aerojet’s Orion technical director.

The injector has performed exceptionally well to date, verifying the engine’s combustion stability and additionally providing chamber wall heat flux and injector performance data to anchor mathematical models. All testing is being performed in heavy-weight combustion chambers specifically designed for these tasks. This early demonstration of the engine’s combustion stability at expected Orion operating conditions is being conducted to retire risk to the Orion vehicle.

The OME injector combines the reliability and combustion stability of the OMS-E injector with current Aerojet best practices in design and manufacturing to reduce process variability affecting injector performance and cost for the Orion program. The OME injector is a diffusion-bonded platelet device with the same injector element type, face pattern layout, and element quantity as the OMS-E, but with improvements in the injector body design and platelets to provide more uniform flow to the injector elements.

The current Aerojet platelet manufacturing capability results in significantly less dimensional variability than was possible for the OMS-E, enabling improved uniformity of propellants injected into the combustion chamber. The improvements in injection uniformity are also expected to result in improved nominal and minimum vacuum specific impulse for the OME.

The OME will provide thrust for events requiring large velocity changes such as Earth orbital insertion, translunar/trans Earth injection, Earth de-orbit, and emergency thrust for high-altitude abort scenarios. Orion’s engine complement also includes 16 25-pound thrust engines and eight 100-pound-thrust bipropellant engines for the Orion service module. Additionally, Aerojet supplies 12 160-pound-thrust monopropellant thrusters for the Orion crew module. Aerojet is providing all of the engines for the Orion spacecraft which is comprised of a crew module for crew and cargo transport, and a service module for propulsion, electrical power and fluids storage. Risk reduction testing of critical subsystems has been ongoing throughout Orion’s development phase to maximize mission success and crew safety.

Lockheed Martin is the prime contractor to NASA for the Orion spacecraft, which is being developed as the nation’s next generation spacecraft for future human exploration throughout our solar system. Aerojet is part of the nationwide Orion industry team led by Lockheed Martin, which includes five major subcontractors and an expansive network of minor subcontractors and small businesses working at 88 facilities in 28 states across the country.

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