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  • Writer's pictureRANGAN PAL

Megha-Tropiques-1: India's successfully de-orbited Satellite

The Indian Space Research Organisation (ISRO) is set to crash a satellite, marking the

end of life for the mission on Tuesday. The Megha-Tropiques-1 (MT1) will re-enter Earth's

atmosphere and burn in the skies after serving for over a decade.

Megha-Tropiques-1 was launched into Low Earth Orbit (LEO) on October 12, 2011, as a joint mission developed by Isro and the French space agency, CNES, for tropical weather and climate studies. The mission was initially planned to operate for three years, but it was extended later as it continued to deliver key data about the climate for a decade.

"The satellite has continued to provide valuable data services for more than a decade,
supporting regional and global climate models till 2021," ISRO said in a statement.


Megha-Tropiques-1 is a joint programme between the Indian Space Research Organisation (ISRO) and France's Centre National d'Etudes Spatiales (CNES). Megha in Sanskrit is ‘cloud’ and Tropiques in French means ‘tropics’.

The spacecraft was constructed by ISRO, based around the IRS bus developed for earlier

Indian satellites, and carried four instruments to study the Earth's atmosphere.

According to the Meteorological & Oceanographic Satellite Data Archival Centre, the

tropical belt receives more energy from the Sun than it radiates back into space. The

excess energy is transported to temperate regions by the motion of the atmosphere

and oceans. Variation in the energy budget of the tropics has the potential to affect the

whole planet, making it important for scientists to understand.


ISRO is crashing the satellite as part of its commitment to the United Nations Inter-Agency Space Debris Coordination Committee (UNIADC) following the end of the mission life. The UN guidelines state that at its end-of-life the satellite should be deorbited, preferably through controlled re-entry to a safe impact zone, or by bringing it to an orbit where the orbital lifetime is less than 25 years.

The other option was to leave it for good in its orbit as it continued to decay. However, in that case, the orbital lifetime of MT1, weighing about 1000 kg, would have been more than 100 years in its 20 deg inclined operational orbit of 867 km altitude. The spacecraft still has about 125 kg of onboard fuel that could pose risks for accidental break-up, making it critical for ISRO to de-orbit it.

ISRO said that the leftover fuel is estimated to be sufficient to achieve a fully controlled atmospheric re-entry. Controlled re-entries involve deorbiting to very low altitudes to ensure impact occurs within a targeted safe zone.

"Usually, large satellites/rocket bodies which are likely to survive aero-thermal fragmentation upon re-entry are made to undergo controlled re-entry to limit ground casualty risk. However, all such satellites are specifically designed to undergo controlled re-entry at end-of-life," ISRO added.


ISRO has performed 18 orbit maneuvers since August 2022 to progressively lower the

orbit of the defunct spacecraft. The final two orbit maneuvers will put it on a course to

re-enter Earth and burn up in the atmosphere.

ISRO has selected an uninhabited area in the Pacific Ocean as the targeted re-entry zone for MT1. ISRO maintained that the final de-boost strategy has been designed after taking into consideration several constraints, including visibility of the re-entry trace over ground stations, ground impact within the targeted zone, and allowable operating conditions of subsystems, especially the maximum deliverable thrust and the maximum firing duration of the thrusters.

The final two de-boost burns followed by the ground impact are expected to take place between 4:30-7:30 pm on Tuesday.


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