Cryogenic
technology is quite complex and only a few in the world have mastered it. ISRO
got its measure of technology for the smaller Polar Satellite Launch Vehicle
(PSLV) quickly. It has had 25 textbook PSLV launches and is now widely
considered the best vehicle in the world in its class. However, the GSLV had
only two successful flights out of seven, which were with Russian cryogenic
engines. The US had forced Russia to deny India the technology and ISRO had to
content itself with seven cryogenic engines but no technology transfer.
It
is the first successful flight of the indigenous cryogenic engine.
"This
shows that we can master any technology," said S Ramakrishnan, director of
the Vikram Sarabhai Space Centre (VSSC) in Thiruvananthapuram. The
PSLV does not have a cryogenic engine and can only put small satellites,
weighing just over one tonne, into geosynchronous orbit.
A
cryogenic engine, which uses liquid oxygen at -253 degrees Celsius and liquid
hydrogen at -183 degrees Celsius, can develop the thrust needed in the final
state of the rocket to put satellites, weighing two tonnes or more, into a
geosynchronous orbit. Mastering this technology is essential for any space
power as launching heavier satellites requires cryogenic engines even in the
lower stages of the rocket. "The 1,000 seconds of the GSLV flight was
achieved with 1,000 days of dedicated work," said K Sivan, GSLV mission director.
Only five others have cryogenic technology: the US, Russia, Europe, China, and
Japan.
The
repeated failures of the GSLV had baffled ISRO engineers as the rocket was very
similar; even simpler in some senses, compared to the ever-reliable PSLV. But
critical components, many of them developed by Indian industry, had failed in
the GSLV. Three years ago, ISRO put everything behind the GSLV and conducted a
thorough review. It created special facilities and put a rigorous test regime
in place. No ISRO launch vehicle has been tested as thoroughly as the
GSLV-D5. "We have done whatever was possible," said MC Dattan,
director, Liquid Propulsion Systems Centre in Thiruvananthapuram,
"And so we were very sure of the success of GSLV."
Indian
space engineers enjoyed the fruits of two decades of tireless work on Sunday as
the indigenous cryogenic engine performed flawlessly and injected a
1.9-tonne satellite into a Geosynchronous Transfer Orbit (GTO) with
high precision. The rest of the three-stage Geostationary Satellite Launch
Vehicle (GSLV), which had seen several glitches and aborted launches over the
last few years, also performed exactly as required.
Now
then the GSAT-14 satellite is being maneuvered over the subcontinent
into a geosynchronous orbit 36,000 km above the earth. Precisely 16 minutes and
55 seconds into the launch, as the satellite separated from the final cryogenic
stage of GSLVD5, it was an emotional moment for everybody at the Indian Space
Research Organization (ISRO). Current and former engineers at ISRO even
think that this is the agency's finest moment, much more significant
commercially and for the development of indigenous technology than the Mars
Orbiter mission.
“Without
performing GSLV, ISRO's future programmes would have been seriously affected”, said
ISRO chairman K Radhakrishnan.
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