Space. But when will the Artemis mission finally start?

Want to leave, don’t want to leave? For the third time, NASA has just postponed the launch of the Space Launch System (SLS), the giant rocket with which the American agency intends to bring a crew back to the Moon in 2025. This time it is the sky that is being pointed at. . Tropical Storm Ian has just turned into a hurricane and is expected to hit Florida overnight Tuesday into Wednesday. Heavy rain is expected, and state Governor Ron DeSantis has already declared a state of emergency.

The hurricane was southwest of Cuba on Monday. Moving north, it could reach Category 4 (on a scale that includes five) by midweek.

Return to the assembly building

The most powerful launch vehicle ever designed, the SLS was set to lift off this Tuesday at 11:37 (local time). NASA decided to shelter the rocket in the Assembly Building (VAB). An operation that is not trivial, being a monster almost 100 meters high and more than 10,000 tons. On August 16, it took him eleven hours to cover the 4 miles (6.8 km) that separates the Assembly Building from the legendary launch pad 39B of the Kennedy Space Center – the Apollo missions.

“The decision was made Monday morning based on the latest forecast for Hurricane Ian, and additional data collected overnight indicates that improvements should not be expected in the Kennedy Space Center area,” explains NASA on its blog. The rotation was due to start this Monday evening (11pm local time, or 5am Tuesday in Paris).

Hydrogen delicious

The launch of the SLS was originally scheduled for August 29, but a combination of technical problems (particularly with regard to cooling one of the four engines), time constraints, and worsening weather conditions had caused NASA to cancel it. Since then, the reports have continued to follow.

September 3, new trial. This time it was a leak in a hydrogen tank that forced the US agency to cancel the countdown. To carry out the repairs, it is planned to bring the launcher back to the assembly building. SLS finally remains on the launch pad, and the launch postponed until September 27. This delay forced NASA to ask the US Army to extend the rocket’s self-destruct system (which should theoretically be tested every 25 days), under penalty of having to bring the rocket back…

The authorization came late last week, but is it still important? Threatened by the hurricane, the SLS will still make its way to the assembly building, making it unlikely that it will launch before October 4 — the end of the current launch window. The next one opens on October 17th and runs for two weeks until October 31st.

A program of 93 billion

For a program worth more than $93 billion that has already accumulated six years of delay, we understand that NASA is taking no chances. “The cost of two cancellations is much lower than that of one failure” had recently reasoned the head of NASA, Bill Nelson, during a press conference. The Artemis program’s successor to Apollo proposes nothing less than opening a new page in the history of manned flight by sending men back to the Moon to eventually establish a space station and a permanent base there, to harness the resources and then set out to conquer Mars.

The first three missions are already planned. Scheduled for this year, Artemis 1 should make it possible to make a first round trip between the Earth and the Moon. This is an automated, unmanned flight intended to validate the SLS rocket and the Orion spacecraft. Expected for May 2024, the Artemis 2 mission would see a crew of four astronauts (three Americans, one Canadian) take place aboard Orion. But they will settle for going around the Moon without trying to land. This privilege will be reserved for the crew of Artemis 3, the following year, if all goes well.

Reduced startup windows

To understand the delays of Artemis 1, we must also keep in mind the technical limitations that come with this program. Even in 2022, sending men to the Moon is still a technological challenge (at least with acceptable risks): At 384,000 km, our satellite is about 1,000 times further away than the International Space Station. The launch windows are also reduced: the Moon must be in the right place for SLS to perform the necessary maneuvers for the translunar injection of the Orion spacecraft, the latter (partially powered by solar energy) must never be immersed for more than 90 minutes in darkness, the launch time must be calculated precisely, so that the ship returns to land in the Pacific Ocean and in broad daylight. An accumulation of constraints that leaves NASA engineers with spaces on the order of two hours at best. And that counts without the vagaries of the weather: The sky must be relatively clear, with no risk of rain or lightning… and even less of a hurricane!

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