NASA's Artemis I mega moon rocket prepares for prelaunch test
CNN/Stylemagazine.com Newswire | 9/19/2022, 2:35 p.m.
Originally Published: 19 SEP 22 14:56 ET
By Ashley Strickland, CNN
(CNN) -- The Artemis I mega moon rocket is gearing up for another test Wednesday before its next launch attempt to journey around the moon and back.
The mission team is aiming to begin the Artemis I cryogenic demonstration test at 7:15 a.m. ET on Wednesday, and NASA will share live coverage on its website. The Space Launch System rocket and Orion spacecraft continue to sit on the launchpad at Kennedy Space Center in Florida.
Since the second scrubbed launch attempt of the uncrewed Artemis I mission on September 3, engineers have replaced two seals on an interface for the liquid hydrogen fuel line between the rocket and mobile launcher, according to NASA officials. These seals were associated with a large hydrogen leak that led to the scrub of the launch attempt.
When engineers replaced the seal on an 8-inch (20-centeimeter) quick disconnect line for hydrogen, they found a "witness marker," or indentation on the seal associated with foreign object debris, said Mike Sarafin, Artemis mission manager, at a Monday NASA press conference.
The team did not recover any piece of debris, but the dent was clear and pointed to a problem that contributed to the hydrogen leak, Sarafin said.
The indentation was under 0.01 inch (0.3 millimeter), but it allows pressurized gas to leak through, something that can be very dangerous given the flammability of hydrogen. The team believes the dent is associated with the leak, but the results of the test could confirm it.
On September 3, the large hydrogen leak was between two and three times the accepted limit, Sarafin said.
Testing 'kinder' procedures
The purpose of the cryogenic demonstration is to test the seals and use updated, "kinder and gentler" loading procedures of the supercold propellant, which is what the rocket would experience on launch day.
Unlike the wet dress rehearsals, the previous tests of Artemis I that simulated every stage leading up to launch, the cryo test focuses on a very specific aspect in the countdown: loading supercold liquid oxygen and liquid hydrogen into the rocket's core stage and upper stage.
The Orion spacecraft and rocket boosters will remain unpowered during the test, and the team does not intend to go into terminal count, or the final 10 minutes that occur in the countdown before launch, said Jeremy Parsons, deputy manager for NASA's Exploration Ground Systems Program at Kennedy Space Center.
The kinder and gentler loading procedure is to minimize pressure spikes and thermal spikes witnessed during prior launch attempts. To achieve this, the team will slowly bring up the pressure on the liquid hydrogen storage tank. The slower procedure is estimated to add no more than 30 minutes to the process, Parsons said.
"It's going to be a very slow, steady ramp," Parsons said. "So (we're) really just trying to slowly introduce some of those thermal differences and reduce thermal and pressure shock."
Liquid oxygen is relatively dense, about the density of water, and it is pumped into the rocket. Meanwhile, hydrogen is very light, so it is moved using pressure rather than being pumped, said Tom Whitmeyer, deputy associate administrator for NASA's common exploration systems development.
The new loading operations will use a slower rate of pressure with more gradual temperature changes, Whitmeyer said.
The call to stations for the test, when all of the teams associated with the mission arrive at their consoles and report they're ready, begins today at 3 p.m. ET. The mission team anticipates receiving a "go" to begin loading the rocket with propellant around 7 a.m. ET on Wednesday. If all goes well, the team expects the test to be completed by 3 p.m. ET that day, Parsons said.
The test will also include an engine bleed, which chills the engines for launch. The mission team scrubbed the first Artemis I launch attempt on August 29 largely due to an issue with a faulty sensor that occurred during this bleed.
So far, the forecast looks promising for the test. The Artemis team is receiving daily briefings about Hurricane Fiona in case it has any impact on whether or not the rocket stack needs to be rolled back into the Vehicle Assembly Building, a process that can take three days.
Preparing for launch
If the cryo test goes well, the next launch attempt could take place on Tuesday, September 27, with a 70-minute window that opens at 11:37 a.m. ET. The mission managers will meet to discuss the test results on September 25 to assess the potential launch date.
If Artemis I launches on that day, it would go on a 39-day mission and return to Earth on November 5. Another backup launch date is possible on October 2. While these launch dates are recommended by NASA, the team ultimately depends on a decision by the US Space Force, which would need to issue a waiver for the launch.
The US Space Force, an arm of the military, still oversees all rocket launches from the United States' East Coast, including NASA's Florida launch site, and that area is known as the Eastern Range.
The officials at the range are tasked with making sure there's no risk to people or property with any launch attempt.
The Artemis team continues to have "productive and collaborative" discussions with the Eastern Range, and NASA is sharing additional detailed information requested by the Space Force for review.
The team is taking things one step at a time and wants to get through the test before other decisions are made, Whitmeyer said.
"We're going to go when we're ready," Sarafin said. "But in terms of the reward of flying this flight, we have said from the outset that this is the first in increasingly complex series of missions, and it is a purposeful stress test of the rocket."
The inaugural mission of the Artemis program will kick off a phase of NASA space exploration that intends to land diverse astronaut crews at previously unexplored regions of the moon -- on the Artemis II and Artemis III missions, slated for 2024 and 2025 respectively -- and eventually deliver crewed missions to Mars.