Advertisement

HindustanTimes Sun,26 Oct 2014
India eyeing global satellite market with successful GSLV-D5 launch
Prakash Chandra
January 02, 2014
First Published: 22:54 IST(2/1/2014)
Last Updated: 23:31 IST(2/1/2014)

Rocketry is often a leap of faith. The Indian Space Research Organisation (Isro) knows this only too well as it begins the countdown on Saturday for the scheduled launch of the Geostationary Satellite Launch Vehicle (GSLV)-D5 on Sunday from Sriharikota. Barring bad weather or any last-minute technical glitch, the rocket should put into orbit the GSAT 14 communication satellite.

But more importantly, Isro is desperate to break a jinx that doomed the heavy-lift GSLV’s last three launch attempts. In fact, since its first experimental flight in 2001, there have been four failures in seven launches of the GSLV.

The last attempt, in August 2013, was dramatically scrubbed a couple of hours before liftoff, when launch officials detected a leak in the hydrazine fuel system on the rocket’s second stage. So a successful return-to-flight of the GSLV programme this weekend would loft into orbit much more than a communication satellite: the rocket would carry aloft the spirit of India’s space scientists.

Standing 161 feet tall and weighing 640 tonne at liftoff, the GSLV-D5 belongs to the GSLV-Mk III series and is the heaviest rocket built in India.

After the last launch attempt failed, Isro engineers worked tirelessly to redesign the launcher’s liquid hydrogen-fuelled second stage. They seem to be leaving nothing to chance this time round, swarming all over the launcher with technical toothcombs to ensure an uninterrupted countdown and liftoff.

"The solid first stage and core base shroud have also been inspected and the affected elements replaced. The vehicle’s four strap-on engines, too, have been replaced," says S Somnath, GSLV-Mk III’s project director.

The most important objective of the GSLV-D5 mission, however, is to flight-test the rocket’s all-important third stage: the indigenously-built cryogenic upper stage (CUS). The CUS, expected to be the mainstay of future GSLV flights, replaces the Russian cryogenic engine which was used in the rocket’s earlier experimental flights.

There will be a lot of crossed fingers at Sriharikota during the launch, considering the new engine had a disastrous maiden flight in April 2010, shutting down less than a second after ignition, with the rocket plunging into the sea.

The GSLV’s significance lies in the fact that the future of the global satellite market lies in the field of communications. The GSAT 14 satellite piggybacking the GSLV-D5 carries six Ku-band and six extended C-band transponders to help in digital audio broadcasting and other communications across the entire subcontinent.

Designed to last for a dozen years in its orbit, the satellite will replace the GSAT-3 (EDUSAT) which has been in orbit for 10 years.

The big boosters in the GSLV series can hoist heavy communication satellites into geosynchronous orbits 36,000 km above the equator. In this position, the satellite keeps pace with Earth’s rotation and, as a result, appears stationary from the ground.

This makes it easier to build simpler antennas on the ground, which do not have to track moving satellites in the sky.

But powerful GSLV Mark IIIs (like the GSLV-D5) that can carry five-tonne satellites need cryogenic engines.

These engines use fuels like oxygen and hydrogen in liquid form — stored at extremely low temperatures — to produce enormous amounts of thrust per unit mass (engineering parlance for the mass of fuel the engine requires to provide maximum thrust for a specific period such as, say, pounds of fuel per hour per pound of thrust).

Rockets powered by cryogenic motors, therefore, need to carry much less fuel than would otherwise be required. Cryogenic fuels are also extremely clean as they give out only water while burning. A successful GSLV-D5 flight will make India only the sixth nation to possess this cutting edge technology, joining the United States, Russia, France, Japan and China in an elite club.

India’s cryogenic motor development encountered some rough weather in 1993 when exaggerated US jitters — that India might utilise its space capabilities for military purposes — led to Moscow chickening out of a cryo-engine technology transfer deal with New Delhi.

Of course, the real reason for guarding cryogenic engine technology so zealously probably had more to do with economics than national security. India’s arrival in the global heavy-lift launch market as a low cost launch source would have threatened the business interests of Europe, Russia, and the US.

In hindsight, though, it seems to have been a disguised blessing for Indian scientists who were forced to develop the technology on their own.

The GSLV will reduce India’s dependence on foreign launchers like the ESA’s Ariane to launch INSAT-class satellites.

Isro sources speak of plans to fly two more GSLVs at six-month-intervals before using the third one for the Chandrayaan-2 Moon mission. The GSLV-Mark III is also earmarked for launching human space flights in future and building orbiting space stations.

Isro has built up an impressive portfolio of comparatively cheap space products and services that are attractive to foreign space agencies that want to outsource space missions.

Together with the old workhorse Polar Satellite Launch Vehicle (PSLV), the GSLV can bolster India’s launch capability, which already boasts 30 to 35% cheaper launches than other countries. That said, however, the space agency cannot afford to ignore the fact that other players jostling in the international space market are constantly pushing the bar still higher.

For the moment, though, all eyes will be on the GSLV-D5 mission, which will determine how soon Isro can claim its rightful share of the $300 billion global space market.

Prakash Chandra is a science writer

The views expressed by the author are personal


Advertisement
Copyright © 2014 HT Media Limited. All Rights Reserved