ESAs Aeolus assisted reentry is pushing the limits of space tech and safety

Date:
Fri, 28 Jul 2023 16:15:56 +0000

Description:
The only satellite to measure the globes wind profile from space, Aeolus, is concluding its The post ESAs Aeolus assisted reentry is pushing the limits of space tech and safety appeared first on NASASpaceFlight.com .

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The only satellite to measure the globes wind profile from space, Aeolus, is concluding its mission and will return to the Earth through a first-of-its-kind assisted reentry on Friday, July 28. The satellite exceeded its mission by two years since its launch in 2018, and with limited
propellant left over, ground teams are set to guide the spacecraft back through the Earths atmosphere.



Aeolus is the fifth in the family of the European Space Agencys (ESA) Earth Explorer missions, which focus on observing the interactions between Earth systems, and was built by Airbus Defence and Space. The Aeolus return is part of a broader effort of reducing the already low risk of spacecraft reentry, and to pioneer a safer way of de-orbiting satellites nearing the end of their life.

As the space agency commits to achieving an assisted re-entry of a satellite for the first time, ESAs Aeolus operations director Isabel Rojo sat down with NSF to discuss why this mission is significant, and how accomplishing it will be a difficult feat.

All about Aeolus

While the spacecraft launched in 2018, the overall program was in the works for almost 20 years before flying into space. Aeolus was approved in 1999 and was scheduled to lift off in 2007 but was delayed for over a decade due to continuous technological hurdles.

However, on Aug. 22, 2018, the $560-million satellite finally launched into space atop a Vega rocket from the Centre Spatial Guyanais (CSG) in Kourou, French Guiana. During its five-year mission, the satellite resided at an altitude of 320 kilometers above the Earth. Aeolus lifts off from French Guiana atop a Vega rocket. (Credit: ESA)

The main objective of the mission was to address the lack of global wind profiles in the Global Observing System, according to ESA. See Also ESA Forum Section L2 International Spacecraft Click here to Join L2

Direct global profile measurements of wind fields are lacking, representing one of the largest deficiencies in the observing system and limiting improvements to numerical weather predictions and climate models, the agency said.

Before Aeolus, the most direct observations of wind were from radiosondes
that were launched from stations every day, mostly in the northern
hemisphere. Wind-field information in remote regions, over the oceans, in the tropics and Southern Hemisphere is largely indirect, ESA continued.

But Aeolus was able to measure wind to an accuracy of just one meter per second in the planetary boundary layer, and two meters per second in the free troposphere. It was also able to determine the average wind velocity over 100-kilometer tracks and measure 100 wind profiles per hour.

The satellite masses 1,360 kilograms and carries one instrument, called the Atmospheric Laser Doppler Instrument (ALADIN). According to ESA, ALADIN fires short pulses of UV light towards the planet, which bounce off air molecules and other particles as they are blown through the atmosphere. By measuring
the shift in frequency of the light that is scattered back to the satellite, Aeolus can determine the speed and direction of the wind in the lowermost 30 kilometers of the atmosphere. ALADIN is equipped with two lasers to help observe the Earths wind. (Credit: Airbus Defence and Space)

The satellite has been deemed more than a success, after not only exceeding its expected lifetime but providing information almost impossible to measure from Earth. Its data has been used by meteorological organizations across the world to inform enhanced weather predictions. In April 2022, the British Met Office claimed Aeoluss data improved nearly all the organizations weather observations.

Aeolus also became a prominent tool during the COVID-19 pandemic. The decline in commercial flights led to fewer measurements of weather forecasts, and Aeolus was able to pick up the slack and provide accurate data on the weather in the weeks ahead.

First-of-its-kind assisted reentry

After completing scientific observations for five years, the teams involved
in Aeolus decided to use the remaining propellant for an assisted reentry
into the Earths atmosphere. Aeolus was built to burn up in the Earths atmosphere naturally at the end of its life, but ESA found that it was possible to reduce the already minimal risk to life or infrastructure through assisted reentry.

The task is unique because missions designed years ago didnt have to adhere
to todays casualty risk regulations, but the satellites that are designed now are required to either completely burn up or undergo a controlled reentry. A controlled reentry isnt possible for Aeolus by design, due to its lack of propellant and inadequate propulsion system among other reasons, as it would require ground teams to maneuver the satellite to an altitude of 50 kilometers.

This first attempt at an assisted reentry sets a new precedent for missions that didnt fall under such regulations when they were designed, but could be made to retroactively adhere to them, ESA said.

But the mission will not go without its challenges. ESA Main Control Room in Germany helping guide Aeolus. (Credit: ESA)

Were trying to push the limits of what the spacecraft can do and also what ground can do because the whole concept was built around assisted reentry, which for now was never proven that it can work, Isabel Rojo told NSF. So,
the difficulties are implementing the maneuvers, and acquiring the spacecraft between such large maneuvers, because if they substantially misperform, it could lead to needing to search for the spacecraft. So, theres a lot of technical difficulties inherent to the maneuvers themselves because they are quite large.

To aid the spacecraft in its return, ESAs Main Control Room in Darmstadt, Germany, is tasked with completing several difficult maneuvers to lower its orbit, and ensuring that they find the way to configure the satellite such that it withstands the difficult conditions of flying at lower altitudes. The first was achieved on Monday, July 24, when Aeolus completed the largest firing of its thrusters, lowering it to an altitude of 250 kilometers. The burn lasted for 37 minutes and 24 seconds more than three times the size of Aeolus routine burns. According to ESA, the burn consumed six kilograms of propellant.

It was the first time we performed such a large maneuver in this direction, said Rojo. Its pretty much the same kind of maneuver that were going to be performing from now on in order to lower the perigee of the satellite. We needed that confidence to make sure that all the systems on board are responding properly to this sort of maneuver.

Thats why this was a big first, and its in such a way that the attitude of
the spacecraft is in retrograde due to the position of the thrusters on the spacecraft body, we need to turn the satellite around to be able to thrust it against the flight direction, which then reduces the speed and gets it lower, continued Rojo.



The days following were spent preparing for the next maneuver happening on Thursday, July 27. This one is set to lower its altitude to 150 kilometers. Orbiting at 150 [kilometers] is very low indeed. Aeolus was not made for
this. The spirit at Mission Control is determined, excited, and a little tired. This week has been a long time coming, ESA said in an updated blog post.

The low altitude of the satellite presents several complexities, such as the tug of the Earths atmosphere, and the dynamics of solar weather that could speed things up, or potentially slow them down.

Once Aeolus reaches 150 kilometers, a final maneuver will guide the satellite towards the optimal position for reentry, ESA says. After this, the satellite is set to return in a matter of hours, seeing 80% of it burn up in reentry. The rest of the satellite will fall harmlessly into the Atlantic Ocean.

If any issues arise, ground teams will abort the mission and let Aeolus reenter the Earths atmosphere naturally.

Paving a safer future

The ongoing call for a safer space environment sparked ESAs interest in achieving an assisted satellite reentry. The ability to guide a spacecraft
out of orbit reduces the possibility of it becoming space debris and posing a risk to other infrastructure in orbit or on Earth.

If it works, I think wed be demonstrating that with a satellite intended for flight at a certain altitude, something can be done if sufficient efforts are in place from the ground to be able to guide it in a more improved track,
Rojo said. Then, we would be acquiring an awful lot of knowledge on the
ground side, and how to best ensure we can compute its orbit and how best to configure and operate the satellite under these difficult conditions. Its 48 hours since our first manoeuvre. Tomorrow, another intense day of manoeuvres begins.

Theres excitement, tension, nervous anticipation. But above all, a wonderful team spirit.

We asked Isabel Rojo, @esa s Flight Operations Director, how shes feeling. #ByeByeAeolus pic.twitter.com/xWdBurNIwc

esa aeolus mission (@esa_aeolus) July 26, 2023



Uncontrolled reentries of satellites occur frequently, and even some of the biggest spacecraft like the 74-tonne Skylab which returned to the Earths atmosphere in 1979 have posed very little threat to populations.

However, the growing number of satellites in orbit has called for greater attention on how spacecraft can continue to safely return to Earth.

An assisted reentry solution would join the many other de-orbiting plans already in motion across the globe. Several companies, such as US-based Momentus, Japan-based Astroscale, and others are developing orbital transfer vehicles (OTV) or space tugs that would be able to relocate defunct satellites to custom orbits, or even de-orbit them.

(ESAs Aeolus spacecraft shooting lasers to observe the Earths winds. Credit: ESA)

The post ESAs Aeolus assisted reentry is pushing the limits of space tech and safety appeared first on NASASpaceFlight.com .



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Link to news story:
https://www.nasaspaceflight.com/2023/07/esa-aeolus-reentry/


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