Key Milestone Completed For NASA’s Orion Spacecraft To Ensure Astronaut Safety | Aero-News Network
Aero-News Network
RSS icon RSS feed
podcast icon MP3 podcast
Subscribe Aero-News e-mail Newsletter Subscribe

Airborne Unlimited -- Most Recent Daily Episodes

Episode Date

Airborne-Monday

Airborne-Tuesday

Airborne-Wednesday Airborne-Thursday

Airborne-Friday

Airborne On YouTube

Airborne-Unlimited-06.23.25

Airborne-NextGen-06.24.25

AirborneUnlimited-06.25.25

Airborne-AffordableFlyers-06.26.25

AirborneUnlimited-06.27.25

Sun, Mar 05, 2017

Key Milestone Completed For NASA’s Orion Spacecraft To Ensure Astronaut Safety

Hot-Fire Acceptance Testing Of Eight Auxiliary Engines Completed

Hot-fire acceptance testing of eight auxiliary engines that will be used on the first flight of NASA’s Orion spacecraft with the Space Launch System rocket, slated to launch in 2018 was recently completed by Aerojet Rocketdyne.

Orion’s European Service Module (ESM), which remains connected to the spacecraft throughout the mission until just prior to Orion’s re-entry to Earth’s atmosphere, provides propulsion, power, temperature control, air, and water for crew members. The European Space Agency (ESA) is providing the ESM to NASA for Orion. Aerojet Rocketdyne is responsible for the ESM’s eight auxiliary engines and is assisting Lockheed Martin in the refurbishment of the Orbital Maneuvering Subsystem (OMS) engine that Aerojet Rocketdyne originally manufactured for the Space Shuttle and will now be used as the main propulsion for ESM.

“The design approach that has power and propulsion provided by a separate service module traces back to the Apollo program,” said Aerojet Rocketdyne CEO and President Eileen Drake. “The auxiliary engines we are delivering to Lockheed Martin and NASA for the European Service Module provide a redundant capability to the OMS engine capability.”

The ESM auxiliary engines are based on the company’s R-4D design and work in concert with the main OMS engine. By performing off-pulsing for steering and providing redundant capability for the main engine, the auxiliary engines are critical to ensuring astronaut safety. Each auxiliary engine provides 105 pounds of thrust and is capable of firing more than 7,000 seconds in space. They will be located in four pairs on the outside of the ESM.

Starting more than 40 years ago with the Apollo program, Aerojet Rocketdyne has built more than 700 R-4D engines that have compiled a record of 100 percent mission success. Variants of the R-4D have played critical roles in orbit-raising maneuvers for commercial satellites, as well as assisting NASA in exploring the solar system aboard spacecraft such as Cassini, which investigated Saturn and its moons.

“Successful acceptance testing of the auxiliary engines brings us one step closer to enabling human exploration well beyond low-Earth orbit,” said Mike Hawes, Lockheed Martin Orion vice president and program manager.

In addition to providing propulsion for the ESM, Aerojet Rocketdyne also supplies twelve 160-pound-thrust monopropellant engines for the Orion crew module’s reaction control system and the jettison motor that is instrumental in separating the launch abort system from the crew module to keep astronauts safe should a problem arise during launch.

(Image provided with Aerojet Rocketdyne news release)

FMI: www.Rocket.com, www.AerojetRocketdyne.com

Advertisement

More News

NTSB Final Report: Douglas A-4K

Pilot Applied Full Aft Stick And Nose-Up Trim, But The Airplane Remained On The Runway Analysis: The pilot reported that a preflight inspection and flight control checks revealed n>[...]

ANN FAQ: Q&A 101

A Few Questions AND Answers To Help You Get MORE Out of ANN! 1) I forgot my password. How do I find it? 1) Easy... click here and give us your e-mail address--we'll send it to you >[...]

Classic Aero-TV: PBY Catalina--From Wartime to Double Sunrise to the Long Sunset

From 2022 (YouTube Edition): Before They’re All Gone... Humankind has been messing about in airplanes for almost 120-years. In that time, thousands of aircraft representing i>[...]

ANN's Daily Aero-Term (07.01.25): Advanced Air Mobility (AAM)

Advanced Air Mobility (AAM) A transportation system that transports people and property by air between two points in the NAS using aircraft with advanced technologies, including el>[...]

ANN's Daily Aero-Linx (07.01.25)

Aero Linx: MQ-1B Predator The MQ-1B Predator is an armed, multi-mission, medium-altitude, long-endurance remotely piloted aircraft that is employed primarily as an intelligence-col>[...]

blog comments powered by Disqus



Advertisement

Advertisement

Podcasts

Advertisement

© 2007 - 2025 Web Development & Design by Pauli Systems, LC