NASA's return to the moon is delayed after launch scrub

·4 min read
Photographers place remote cameras near the Artemis 1 rocket as she stands on Launch Pad 39-B at the Kennedy Space Center, Friday, Aug. 26, 2022, in Cape Canaveral, Fla. The launch is scheduled for Monday morning Aug. 29. (AP Photo/Brynn Anderson)
A photographer places remote cameras near the Artemis 1 rocket as it stands on Launch Pad 39-B at the Kennedy Space Center in Cape Canaveral, Fla., on Friday. The launch was scheduled for Monday morning but was scrubbed because of an engine issue. (Brynn Anderson / Associated Press)

NASA's return to the moon will have to wait a little longer after the first uncrewed launch of its Space Launch System rocket was scrubbed Monday morning because of an engine-related issue.

The system that thermally conditions the engines did not chill one of the engines in the rocket's core stage down to the proper temperature, which is necessary to start the engines and run them successfully, said Mike Sarafin, Artemis I mission manager at NASA. There was also an issue with a valve.

NASA's Space Launch System moon rocket had been scheduled to launch for the first time at 5:33 a.m. Pacific time from Kennedy Space Center in Florida. The next possible launch time is Friday, and engineers are analyzing the data to figure out the issues, he said.

"This is a brand new rocket. It's not going to fly until it's ready," NASA Administrator Bill Nelson told reporters after the scrub. "There are millions of components of this rocket and its systems, and needless to say, the complexity is daunting when you bring it all into the focus of a countdown."

The towering rocket will propel the Orion crew capsule — without a crew aboard — 280,000 miles from Earth on a distant orbit around the moon. The capsule is set to splash down off the coast of San Diego.

The launch is set to be the first of NASA's Artemis lunar program — named after the Greek goddess of the moon and twin sister of sun god Apollo. The 42-day mission is intended to push the capsule to its limits to ensure it's ready to carry a crew on future missions.

The next Artemis mission, set for no earlier than 2024, is set to carry a crew around the moon. By 2025 or later, Artemis III is expected to land the first woman and first person of color on the moon.

"I’m a product of the Apollo generation, and look what it did for us," said Bob Cabana, NASA associate administrator and a former astronaut, who said he watched an Apollo launch as a young Navy midshipman. "I cannot wait to see what comes from the Artemis generation because I think it's going to inspire even more than Apollo did.”

The debut of the Space Launch System rocket has been years — and billions of dollars — in the making.

The SLS rocket, built by Boeing Co., was first intended to launch in November 2018. But development delays and COVID-related work slowdowns pushed the launch further and further out.

It will now launch almost four years past schedule and cost an additional $3 billion for a total development cost of $11.5 billion, according to a 2020 report by the U.S. Government Accountability Office.

While SLS was being developed, the U.S. commercial space industry has continued to expand. Companies including Elon Musk's SpaceX, Jeff Bezos' Blue Origin and the Boeing-Lockheed Martin joint venture United Launch Alliance are working on building larger rockets that could play a role in future moon missions.

For now, NASA has said it will rely on the SLS rocket to launch its Artemis missions. But if these other rockets prove successful and have a lower price tag, the space agency could have a choice to make, said Laura Forczyk, executive director of space consulting firm Astralytical.

"It might be more feasible and affordable for another launch vehicle to supplement it or replace it,” she said.

With the Artemis program, NASA's ultimate goal is to establish a long-term presence on the moon, conduct more research and prepare astronauts to live and work in space, skills that will be important for Mars missions.

Planetary scientists are particularly interested in the Artemis III lunar landing mission because it will occur at the moon's south pole — a location very different from the lunar equator, where the Apollo missions were focused.

Lunar rock samples from the south pole will help scientists better understand the history of the moon and how that played a role in Earth's formation, said Miki Nakajima, an assistant professor at the University of Rochester who researches planetary objects, including the moon.

“The Apollo mission was really amazing, and we are still benefiting from it," she said. "But it was not perfect. By understanding the moon much better, we can understand the Earth."

This story originally appeared in Los Angeles Times.