Ongoing Engine Failure Investigation Forces Orbital Sciences to Delay Upcoming ISS Resupply Flight a Second Time

An ongoing engine failure investigation has forced Orbital Sciences to, for a second time, delay launch of their next Antares rocket on the company's second contracted ISS resupply flight for NASA.  Photo Credit: Alan Walters / AmericaSpace
An ongoing engine failure investigation has forced Orbital Sciences to, for a second time, delay launch of their next Antares rocket on the company’s second contracted ISS resupply flight for NASA. Photo Credit: Alan Walters / AmericaSpace

Orbital Sciences Corp. has again delayed the next scheduled launch of their Antares rocket on the company’s second NASA-contracted resupply flight to the International Space Station (ISS), pending the outcome of an ongoing investigation into why an Antares AJ26 engine scheduled to fly an ISS resupply flight next year failed during customary acceptance testing (also known as “hot-fire” testing) at NASA’s Stennis Space Center in Mississippi on May 22.

The next mission, designated Orb-2, is now scheduled to fly from NASA’s Wallops Flight Facility MARS Pad-0A no earlier than July 1. That date is, however, only a planning date to give engineers more time to determine the cause of May’s engine failure; a new firm date will not be established until more progress is made by the investigation team.

An AJ26 is test fired at NASA's Stennis Space Center. Photo Credit: Orbital
An AJ26 is test fired at NASA’s Stennis Space Center. Photo Credit: Orbital

On May 22 an acceptance test of an Aerojet Rocketdyne AJ26 rocket engine used in the Antares launch vehicle first stage terminated prematurely, resulting in extensive damage to the engine. All other elements of the Orb-2 mission are prepared to move forward, including the Cygnus spacecraft, which is fueled and, except for late-load cargo, is packed with its manifest of ISS cargo,” explained Orbital in a statement released earlier today. “Engineering teams from Aerojet and Orbital are still examining the data collected from the test to determine the cause of the failure.”

Antares has flown flawlessly on all three of its missions since 2013, but the liquid kerosene- and liquid oxygen-powered AJ26 engines Orbital Sciences uses to launch Antares skyward have failed in testing before, most recently in June 2011 when an engine caught fire on the Stennis E-1 Test Stand due to leaking kerosene in an engine manifold. The engines are actually modified Russian NK-33s, reconditioned by Aerojet Rocketdyne specifically for Antares.

A U.S.-built version of the AJ-26 engine is currently being developed in a strategic partnership between Aerojet and Teledyne Brown for NASA’s future Space Launch System (SLS).

It’s important to note that the engines themselves, built by Kuznetsov Design Bureau, are 40 years old, and they are no longer in production. Aerojet purchased 40 of the engines in the 1990s and can supply enough to Orbital to support Orbital’s contractual obligation for ISS resupply flights for NASA, for now, but without a replacement engine the Antares may not survive to fly into the next decade. In an effort to secure future exclusive business with Antares Aerojet president William Boley offered to restart engine production with Kuztnetsov last year, with the goal of producing four to six new engines annually in time to support NASA’s future CRS-2 contract (delivery of the new engines would need to start in 2016 to support that). How those talks have gone in the time since is unclear at this time.

Orbital's Antares rocket launching their Cygnus spacecraft to the ISS on the company's first contracted resupply mission for NASA last Jan.  Photo Credit: AmericaSpace / Mike Killian
Orbital’s Antares rocket launching on the company’s first contracted ISS resupply mission for NASA last Jan. Photo Credit: AmericaSpace / Mike Killian

The only current alternative to launch the Antares is the controversial Russian-made RD-180 engine United Launch Alliance (ULA) currently uses on their Atlas-V rockets. However, ULA holds exclusive rights in the U.S. to buy the RD-180 and has a reputation for anticompetitive practices, and Orbital’s requests for support from the Air Force, Office of the Secretary of Defense, and Congress were all met with roadblocks and silence. Other possible alternatives include the RD-181, RD-191, and RD-193, but those are either still in development or not yet approved for export (the RD-191 is being developed for Russia’s Angara rocket).

Although no more information is available from Orbital at this time, it is safe to assume that Antares will not fly until the investigation determines the cause of the failure in May, or at least determines it was not a manufacturing or mechanical defect. The engines on the Antares rocket currently waiting to fly the next ISS resupply mission went through the same mandatory testing some time ago to ensure nominal performance and acceptance for use. Both engines (Antares requires two AJ26s) passed with flying colors.

When ready, Orbital will launch Antares from the Mid-Atlantic Regional Spaceport at NASA’s Wallops Flight Facility in Virginia to deliver over 3,600 pounds of cargo and supplies to the ISS with their unmanned Cygnus spacecraft—the second of eight such scheduled flights for Orbital under a $1.9 billion Commercial Resupply Services (CRS) contract with NASA. Cygnus will remain at the ISS for 40 days before burning up in the Earth’s atmosphere with over 3,500 pounds of garbage. The mission will also mark the third ISS flight for Orbital and the fourth flight of their Antares rocket (third flight for Cygnus).

AmericaSpace will provide full on-site coverage of the launch when it occurs.

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