An engine cooling issue on NASA's giant new rocket for deep-space
exploration forced the agency to call off the booster's much-anticipated
launch debut early Monday (Aug. 29).
NASA had mostly fueled its first Space Launch System (SLS) megarocket to
launch the Artemis 1 moon mission on Monday when launch controllers were
unable to chill one of the four main engines to the temperatures needed to
handle its super-cold propellant. The issue stalled plans to launch the SLS
rocket and its uncrewed Orion spacecraft on an ambitious 42-day test flight
around the moon. Liftoff was scheduled for 8:33 a.m. EDT (1233 GMT).
Chilling the SLS rocket's engines before flowing cryogenic liquid hydrogen
and liquid oxygen through them is a required step before the rocket can
launch, NASA officials said. While three of the engines passed that test,
Engine No. 3 did not, despite troubleshooting efforts.
"Launch controllers condition the engines by increasing pressure on the core
stage tanks to bleed some of the cryogenic propellant to the engines to get
them to the proper temperature range to start them," NASA officials said in
a
statement. "Engine 3 is not properly being conditioned through the bleed process,
and engineers are troubleshooting."
All four of these engines flew on NASA's space shuttle program of reusable
vehicles.
According to NASA spokesperson Derrol Nail, the engine conditioning was not
something that the team was able to verify during the "wet dress rehearsal"
process that concluded in June.
"This is something they wanted to test during Wet Dress 4 but were unable
to," Nail said. "So this was the first opportunity for the team to see this
live in action. It's a particularly tricky issue even going in to get that
temperature dialed in, according to engineers."
The Engine No. 3 conditioning issue cropped up as NASA worked through a
series of glitches during the countdown, including a liquid hydrogen leak
early in the fueling process and a possible crack in a part of core booster
known as the intertank flange, which connects the SLS's giant liquid
hydrogen and liquid oxygen tanks. The tanks can hold a combined 730,000
gallons (3.3 million liters) of propellant.
"The flanges are connection joints that function like a seam on a shirt, are
affixed at the top and bottom of the intertank so the two tanks can be
attached to it," NASA said in the update.
NASA engineers found that the crack was actually in the insulating foam on
the flange, not in the rocket's metal structure. "That ice that formed is
essentially air that's being chilled by the tank that gets trapped inside of
a crack in the foam but not the actual tank," Nail said.
Nail added that NASA personnel had seen similar cracks in the foam when it
was used on the space shuttles before their retirement in 2011.
The Engine No. 3 problems and the feared crack followed concerns about a
liquid hydrogen leak in the rocket. The leak during the fueling process
appeared similar to one that occurred during an SLS fueling test earlier
this year, Nail noted. But NASA officials were not quick to judge.
"Although a similar issue was identified in an earlier wet dress rehearsal,
it may not necessarily be the same cause," NASA officials wrote in a
subsequent update.
NASA stopped and restarted the flow of liquid hydrogen into the tank in an
attempt to verify the leak and even proceeded with fueling the 322-foot-tall
(98 meters) rocket's upper stage while engineers worked the issue.
Even before fueling the SLS rocket, NASA faced challenges during Monday's
launch countdown. Offshore storms and lightning delayed fueling of the SLS
rocket by nearly an hour, forcing launch controllers to work to catch up for
lost time.
With NASA unable to launch today, the agency could try for one of at least
two back-up days on which to fly Artemis 1 on its mission to the moon. If
the agency solves the Engine No. 3 issue, it could try to launch again
Friday (Sept. 2) or Sept. 5, weather permitting. If NASA cannot launch by
Sept. 5, its next launch try would likely be in October, mission managers
have said. Launch opportunities are limited by the stage of the moon and
lighting conditions upon reentry, among other considerations.
"The earliest opportunity, depending on what happens with this engine bleed,
would be Sept. 2," Nail said. "However, we will await a determination of
what the plan is to go forward."
Artemis 1 will send an uncrewed Orion capsule to lunar orbit and back, on a
mission that will take six weeks from liftoff to splashdown. It will be the
first flight for the long-delayed SLS and the second for Orion, which made a
brief trip to Earth orbit back in 2014. (Orion rode atop a United Launch
Alliance Delta IV Heavy rocket on that uncrewed test flight.)
Artemis 1 will also be the first mission for NASA's Artemis program, which
aims to establish a long-term, sustainable human presence on and around the
moon. If all goes well with Artemis 1, NASA will be clear to start gearing
up for Artemis 2, which will send astronauts on a journey around the moon.
NASA is targeting 2024 for the Artemis 2 liftoff and 2025 or 2026 for
Artemis 3, which will land astronauts on the moon for the first time since
the final Apollo mission in 1972.