NASA’s mega-rocket is ready for its first flight to the Moon: here are the dates

NASA suspends tests of its giant SLS launcher and returns

The various tests and launch timeline repeats with padding from launcher SLS (WDR, Wet Dress Rehearsal) are complete. In a statement, the Nasa is satisfied with the turn of events and expressed confidence that the giant launcher, built by Boeing, is ready for its test flight and the Artemis I mission. Boeing and NASA teams will now proceed with preparations of the launch of this flight which will kick off the missions of the Artemis lunar program which is to bring the Americans back to the lunar surface.

That said, a small hydrogen leak still prevented NASA and Boeing from performing rehearsals until time T minus 9 seconds, just before the ignition of the four main stage RS-25 main engines. . At the furthest, the countdown stopped at T minus 29 seconds. Although the duration rehearsals didn’t go as far as program officials wanted, NASA and Boeing still said the WDR reception had achieved enough to move on to final launch preparations.

No launch in the next few days

The SLS (Space Launch System), whose several are in production, is obviously not going to take off in the next few days. Friday 1er July, NASA will bring the launcher back to the assembly building (Vehicle Assembly Building or VAB) for a period of six to eight weeks where it will be prepared for its maiden flight. NASA must also carry out several checks and repairs, including this hydrogen leak located at the bottom of the main stage.

With regard to the work to be done, NASA and Boeing are confident. The launcher will be ready to launch between August 23 and September 6. If this window was missed, the next opportunity would occur between September 19 and October 4. The launch date will not be known for several weeks. NASA does not have enough visibility on the duration of the work and the tasks that are to be performed on the SLS.

Flight of Artemis to the Moon: why launch dates are difficult to determine?

Article of Remy Decourt published on 06/12/2022

NASA, which is preparing for a new attempt to repeat the launch chronology with filling of the SLS launcher (WDR, Wet Dress Rehearsal), is also preparing the Artemis I mission which will be carried out during the inaugural flight of the SLS. Artemis I, who was to pave the way for the return of the Americans to the Moon by 2028, could be launched during the summer. But on what date? Surprisingly, despite the Moon’s proximity to Earth, launch opportunities aren’t as plentiful as one might think. Explanations.

If the second launch timeline repeat attempt with SLS launcher fill (WDR, Wet Dress Rehearsal) is going well, NASA and Boeing should then accelerate on the preparation of the maiden flight of the SLS during the Artemis I mission on a date which has not yet been communicated. But, finding a launch date is a bit of a headache because The NASA must take into account several parameters.

A coaster around the moon

As a reminder, Artemis I will consist of an unmanned test flight around the Moon following a trajectory similar to that of the mission Apollo 8, using the gravity lunar to gain speed and to propel itself almost 70,000 kilometers beyond the Moon, nearly half a million kilometers from Earth – farther than any human has ever travelled. On his return trip, Orion will perform a overview from the Moon before returning to Earth. The mission will last about 20 days and will end with a dip in the Pacific Ocean without the service module which will be separated from the vehicle and burn in theatmosphere.

The uncertainty about the launch date of this mission is not only explained by the end date of the WDR tests and the green light for the use of the SLS. There are a whole bunch of other parameters to take into account. Indeed, surprisingly, despite the very close proximity of the Moon to the Earthwithin the framework of this mission the launch opportunities are not as numerous as one might think.

These firing windows primarily account for the complex orbital mechanics involved in launching on a precise path to the Moon as the Earth spins on its axis and the Moon orbits the Earth each month in its lunar cycle. But not only.

Four main parameters that will determine the launch date

Unsurprisingly, the launch date must take into account the position of the Moon so that the upper stage of the SLS launcher can program the combustion of translunar injection with sufficient performance to intercept the “ramp” to theorbit retrograde lunar. In the future, this stage will be replaced by the EUS Exploration Upper Stage (Upper Stage Exploration) more powerful, which will allow almost daily or even daily launches to the Moon, depending on the desired orbit. In addition, the resulting trajectory for a given day must guarantee thatOrion does not remain in the dark for more than 90 minutes at a time, so that its solar panels can receive and convert the light from the sun into electricity and that the spacecraft can maintain an optimal temperature range. Finally, the launch date must allow a return trajectory which authorizes the entry technique, called by jump. This technique consists of a maneuver during which the spacecraft dives into the upper part of the Earth’s atmosphere and uses this atmosphere, as well as the lift from the capsule, to simultaneously slow down and exit the atmosphere, then return for the final descent and splashdown. This technique allows engineers to accurately determine the location of Orion’s splashdown and, on future missions, will help reduce the aerodynamic failure loads experienced by aircraft. astronauts inside the vessel and to keep the structural loads of the vessel within the design limits. Finally, the launch date must allow Orion to be splashed down during the day, to help recovery personnel locate, secure and recover the spacecraft in the Pacific Ocean.

Taking into account all these parameters and constraints, NASA has identified and determined 73 potential launch dates between July 26 and December 23, 2022. This results in a schedule with approximately two weeks of launch possibilities, followed by two weeks without launch possibilities.

Firing windows considered for Artemis 1

July 26 – August 10

  • 13 launch opportunities
  • No launch possibility on August 1, 2 and 6

August 23 – September 6

  • 12 launch opportunities
  • No possibility of launching on August 30 and 31 as well as the 1er september.

September 20 – October 4

  • 14 launch opportunities
  • No possibility of launching on September 29.

October 17 – October 31

  • 11 launch opportunities
  • No possibility of launch on October 24, 25, 26 and 28

November 12 – November 27

  • 12 launch opportunities
  • No possibility of launch on November 20, 21 and 26

December 9 – December 23

  • 11 launch opportunities
  • No possibility of launch on December 10, 14, 18 and 23

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