BY PTI | MAY 12, 2017,
08.59 PM IST
HYDERABAD: India plans to launch next month its
most powerful rocket that is capable of transporting a heavier 4-tonne
communications satellite and described as a "game-changer" in the
first of its kind space mission.
Aiming for a greater share of the multi-billion
dollar global space market and to reduce dependency on international launching
vehicles, the Indian Space Research Organisation (ISRO) said today it is hoping
to launch the Geosynchronous Satellite Launch Vehicle(GSLV) Mark-III in the
first week of June.
A successful launch of this rocket will be yet
another major step towards being self-reliant in the country's space programme.
The ISRO currently has the capability to launch
payloads of up to 2.2 tonnes into the intended orbit and anything above that it
had to tap foreign launch facilities.
"GSLV Mark-III is our next launch. We are
getting ready. All the systems are in Sriharikota. The integration is currently
going on ISRO Chairman AS Kiran Kumar told reporters
here.
"The whole process of assembling the
various stages and then integrating the satellite into the heat shield, these
activities are going on. First week of June is when we are targeting this
launch," he said.
The ISRO views operationalisation of this rocket as a
"game-changer" mission.
GSLV Mark-III will be India's most powerful
launch vehicle built to lift the heaviest Indian communications satellites to
space. It can put satellites weighing 4 tonnes in space, double the weight that
the current GSLV-Mark-II can lift.
It will also enable ISRO to launch from India
heavier communications spacecraft to geostationary orbits of 36,000 km. Because
of the absence of a powerful launcher, ISRO currently launches satellites above
2 tonnes on European rockets for a big fee.
Noting that communications satellites built
beyond the capacity of 2.2 tonnes have to be launched from foreign soil, Kiran
Kumar said efforts are on to launch satellites upto four tonnes and even beyond
in India itself.
The GSLV Mark-III is intended to launch
satellites into geostationary orbit and as a launcher for an Indian crew
vehicle.
It features an Indian cryogenic third stage and a higher
payload capacity than the current GSLV.
The satellite would carry Ka and Ku-band payload
along with a Geostationary Radiation Spectrometer (GRASP) payload to monitor
and study the nature of the charged particles and influence of space radiation
on spacecraft and electronic components.
It would also employ advanced spacecraft
technologies including bus subsystem experiments in electrical propulsion
system, indigenous Li-ion battery and
indigenous bus bars for power distribution, among others.
The technology on lithium ion batteries
developed by ISRO is good for space programme in terms of cost-effectiveness,
but it requires the efforts of industry to develop it to reduce costs, Kiran
Kumar said.
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