With low fuel and battery drained beyond safety level, Mission Mangalyan may be nearing its end
Sources at the ISRO say that the satellite battery is designed to handle an eclipse duration of only about one hour and 40 minutes, but a recent over-seven hours eclipse exhausted all the fuel on board
Bengaluru: India’s Mars Orbiter craft has run out of propellant and its battery drained beyond the safe limit, fuelling speculation that the country’s maiden interplanetary mission ‘Mangalyaan’ may has finally completed its long innings.
The Rs 450 crore Mars Orbiter Mission was launched onboard PSLV-C25 on 5 November 2013, and the MOM spacecraft was successfully inserted into Martian orbit on 24 September 2014 in its first attempt.
“Right now, there is no fuel left. The satellite battery has drained,” sources in the Indian Space Research Organisation told PTI. “The link has been lost”.
There was, however, no official word from the country’s national space agency.
With fuel on board, ISRO had been performing orbital manoeuvres on MOM spacecraft to take it to a new orbit to avoid an impending eclipse in the past.
“But recently there were back-to-back eclipses including one that lasted seven-and-half hours,” officials said on condition of anonymity, noting that all the propellant on board the ageing satellite had been consumed.
“As the satellite battery is designed to handle eclipse duration of only about one hour and 40 minutes, a longer eclipse would drain the battery beyond the safe limit,” another official said.
ISRO officials noted that the Mars orbiter craft functioned for almost eight years, well beyond its designed mission life of six months.
“It has done its job and yielded significant scientific results,” they said.
The objectives of the mission were primarily technological and included the design, realisation and launch of a Mars Orbiter spacecraft capable of operating with sufficient autonomy during the journey phase; Mars orbit insertion/ capture and in-orbit phase around Mars.
The MOM — a technology demonstration venture — carried five scientific payloads (total 15 kg) collecting data on surface geology, morphology, atmospheric processes, surface temperature and atmospheric escape process.
The five instruments are: Mars Color Camera (MCC), Thermal Infrared Imaging Spectrometer (TIS), Methane Sensor for Mars (MSM), Mars Exospheric Neutral Composition Analyser (MENCA) and Lyman Alpha Photometer (LAP).
“MOM is credited with many laurels like cost-effectiveness, short period of realisation, economical mass-budget, and miniaturisation of five heterogeneous science payloads”, ISRO officials pointed out.
Highly elliptical orbit geometry of MOM enabled MCC to take snap shots of ‘Full disc’ of Mars at its farthest point and finer details from closest point.
The MCC has produced more than 1000 images and published a Mars Atlas.
Meanwhile, plans for a follow-on ‘Mangalyaan’ mission to the red planet are yet to be firmed up.
ISRO came out with an ‘Announcement of Opportunity’ (AO) for the future Mars Orbiter Mission (MOM-2) in 2016 but officials acknowledged that it’s still on the drawing board, with the coming ‘Gaganyaan’, ‘Chandrayaan-3’ and ‘Aditya – L1’ projects being in the space agency’s current priority list.
The AO had said: “It is now planned to have the next orbiter mission around Mars for a future launch opportunity. Proposals are solicited from interested scientists within India for experiments onboard an orbiter mission around Mars (MOM-2), to address relevant scientific problems and topics.”
“Not in the approved list as of now”, a senior ISRO official told
ISRO launched the PSLV C54/EOS06, also known as Oceansat-3, with a PSLV-XL rocket. Along with the OceanSat-3, 8 nano satellites were also launched from the Satish Dhawan Space Center in Sriharikota, Andhra Pradesh
The Agnikul launchpad (ALP) and the Agnikul mission control centre (AMCC) are the two parts of the privately built launch facility and has been built inside ISRO’s campus at Sriharikota.
Given is the list of some major events that took place on 4 December in the past.